Open File Report 81-3, The 1979-1980 geothermal resource ...
THE 1979-1980 GEOTHERMAL RESOURCE ASSESSMENT PROGRAM IN WASHINGTON by Michael A. Korosec and J. Eric Schuster,
with contributions from David D. Blackwell, Z. Frank Danes, and Geoffrey A. Clayton
Washington State Department of Natural Resources Division of Geology and Earth Resources Olympia, Washington 98504
Open File Report 81-3
1980
Prepared Under U.S. Department of Energy Contract No. DE-AC03-79ET27014
CONTENTS Page I.
Introduction Temperature-gradient and heat-flow investigations Geochemistry of thermal and mineral springs Geologic mapping Resistivity Gravity Geothermal resource maps
II.
Geothermal Project Publications References Cited
III.
Heat flow and geothermal gradient measurements in Washington through 1979 by David D. Blackwell Introduction Data format Discussion References
c
Additions and comments: IV.
i
t
e
d
8
by Michael A. Korosec
Thermal and mineral spring investigations, 1978-1979 (surveys and analyses) by Michael A. Korosec Methods Results Individual spring system investigations Baker Hot Springs Geothermal features Geology Comments Bonneville Hot Springs-Moffett's Hot Springs Geothermal features
60
Page
Individual spring system Bonneville Hot
investigations-Continued Springs-Continued
Geology Comments Collins Hot Springs Geothermal
f
e
Geology Comments Goose Egg Soda Spring Geothermal features Geology Comments Lester Hot Springs Geothermal features Geology Comments Longmire Mineral Springs Geothermal features Geology Comments Reference Medicine Creek Mineral Spring Geothermal features Geology Comments Reference
a
t
u
r
e
s
4
Page Individual spring system
investigations-Continued
Ohanapecosh Hot Springs Geothermal features Geology Comments Orr Creek Warm Springs Geothermal features Geology Comments Sol Duc Hot Springs Geothermal features Geology Comments Sulphur Creek Hot Springs Geothermal features Geology Comments Reference Summit Creek Soda Spring Geothermal features Geology Comments V.
Regional gravity survey of the southern Cascades, Washington by Z. F. Danes Introduction Research Additions and Comments:
by Michael A. Korosec
Page VI.
Geology of the White Pass-Tumac Mountain area, Washington by Geoffrey A. Clayton Abstract Introduction: the structure and stratigraphy of the Tertiary rocks in the Carlton Pass-White Pass-Rimrock Lake-Goat Rocks region Previous work Objectives and problems Quaternary volcanic rocks in the Tumac Mountain-White PassGoat Rocks area Results References cited Additions and comments:
VII.
by Michael A. Korosec
Geothermal investigations in the Camas area, Washington, 1979 by Michael A. Korosec and J. Eric Schuster Introduction The 1979 project Results Discussion Conclusions
VIII.
Geothermal assessment of Mount St. Helens, Washington, 1979 by Michael A. Korosec and J. Eric Schuster Introduction Results Discussion Conclusions
IX.
Bibliography of Geothermal Resource Information for the State of Washington by Michael A. Korosec
Page Appendix A —
Well temperature information and locations in the
State of Washington by Michael A. Korosec Appendix b —
Geology of White P a s s - T u m a c Mountain Area, Washington by Geoffrey Clayton
Appendix C —
Resistivity study of Camas, Washington: Final Report by F. A. Rigby and R. B. McEuen
Appendix D — Temperature versus depth logs for all available wells in Washington by D. D. Blackwell Note: Appendix D is part of special edition reports only. This section is available from the Division of Geology and Earth Resources as Open File Report 80-9.
List of Tables Page 3.1
Pre-1979 Geothermal Gradients and Heat Flow in Washington State
3.2
Washington - Heat Flow
3.3
1979 Geothermal Gradients and Heat Flow in Washington State
3.4
Results of Heat Flow Drilling, 1979, Southwest Cascades, Washington
4.1
Thermal and Mineral Springs of Washington State
4.2
Thermal and Mineral Spring Chemistry (DGER)
4.3
Thermal and Mineral Spring Chemistry (Battelle)
4.4
Water Identifier Codes
4.5
Thermal and Mineral Spring Data
(Pre-1979)
List of Figures
3.1
Heat Flow and Temperature Gradient Map of Washington (Pre-1979 Data)
3.2
Preliminary Heat Flow Region Map of Washington
3.3
Anomalous Temperature Gradient areas of Washington
3.4
Preliminary Heat Flow Map of Southwestern Washington
8.1
Temperature vs Depth Profile for Mount St. Helens Drill Holes
8.2
Earthquake hypocenters near Mount St. Helens from 1971 through 1978
I.
INTRODUCTION
Geothermal resource assessment activities during 1979 have included
temperature-
gradient and heat-flow investigations, geochemical investigation of mineral and thermal springs, geologic mapping, a resistivity survey, regional gravity measurements, and preparation of geothermal resource maps for Washington. The State of Washington thus far has received very little attention from prospective geothermal developers.
Consequently, the geologic, geochemical, and geophysical
data base with respect to geothermal has been either scattered or nonexistent.
Our
assessment efforts have, therefore, been primarily directed toward synthesizing and interpreting existing data, and providing regional geophysical and geochemical data bases where none have previously existed.
Attention was focused on the southwestern
Cascades of Washington during 1979. The work was carried out by both subcontractors and in-house geologists.
The
findings of each of the project investigators working on the geothermal assessment program are presented as separate chapters in this report.
Some of the individual
projects are more complete than others and therefore appear as more detailed presentations. At the end of each chapter report, the principle investigators, J. Eric Schuster and Michael A. Korosec, have added further information, including comments on project status, how it relates to other projects, usefulness, work yet to be completed, future directions, and interpretations of the data.
The interpretations
are occasionally made with little data or background information and may not represent the beliefs of the project Investigator, but are presented anyway so as to help shape future investigations in the areas affected.
Temperature-Gradient and Heat-Flow Investigations Shallow drilling and measurements of temperature gradients in existing wells were
accomplished in the following areas:
(1) the Cowlitz River valley between Interstate 5
on the west and White Pass on the east, (2) the Mount St. Helens area, and (3) the Camas area, located in Clark County east of Vancouver, Washington. In the Cowlitz River valley, usable temperature gradients were measured in about 22 water wells located in the western portion of the valley, generally between Interstate 5 on the west and the City of Morton on the east.
Temperature gradients
in these wells are generally 30°C/km or less. Two gradients measured in existing wells located to the east of the City of Morton and gradients measured in five of the six 500-foot-deep gradient wells drilled during 1979 between the town of Randle and White Pass (both to the east from Morton) are 46°C/km and higher.
This suggests that the transition between "Puget Lowland
type" temperature gradients of about 30-40°C/km or less (with associated heat flow values of less than 40 mWatts/m2) and "High Cascade type" gradients of about 45°C/km or more (with associated heat flow values of 60 to 80 mWatts/m2 or higher) occurs between the City of Morton and the town of Randle.
The transition appears to be
fairly sharp (perhaps 8 kilometers or less in width) and seems to occur closer to Morton than to Randle. In the Mount St. Helens area, there are no existing wells except for three holes drilled during 1979 by the Division.
The temperature gradient from St. Helens No. 1
drill hole, to the north-northwest of Mount St. Helens, is very low at 19°C/km, and appears to be affected by local hydrologic conditions.
In St. Helens No. 2 drill
hole, to the west of Mount St. Helens, the gradient is 38°C/km.
The third drill
hole, to the east-southeast of Mount St. Helens, is isothermal. In the Camas area, several gradients measured in existing water wells located to the west of 122°20'W. (about the longitude of the City of Camas) yielded
temperature
gradients of less than 40°C/km, but two water wells located to the east of 122°10'W. produced gradients of about 53° and 69°C/km.
Two gradient wells drilled by the
Division near Camas produced gradients of 31.5°C/km and 37°C/km.
The former well
was drilled in Tertiary volcanics and sediments and the latter entirely in late(?) Tertiary sediments.
All heat flow values calculated for the Camas area fall in the
range of 40 to 60 mWatts/m2.
Geochemistry of Thermal and Mineral Springs During the 1979 field season, 46 springs, representing 15 different spring systems located in the Cascade and Olympic Mountains, were surveyed for temperature, flow, conductivity, and pH.
Of these springs, 38 were sampled and analyzed by the
Division of Geology and Earth Resources.
Chemical species measured include specific
conductivity, pH, Na, K, Ca, Mg, Li, SiO2, alkalinity, Cl, CO2, Br, and I. Tables 4.1 through 4.5 present a listing of the springs, their temperatures, specific conductivities, and reservoir temperatures as predicted by the SiO 2 -Quartz and Na-K-Ca geothermometers.
Detailed descriptions, analyses, and discussions of
observed chemistry for these springs are presented in Chapter IV.
Geologic Mapping Geoff Clayton, from the University of Washington, mapped the volcanic geology of the Tumac Mountain-White Pass area, located to the south and east of Mount Rainier National Park.
Field studies have been completed and a geologic map has been
prepared.
Resistivity A resistivity study was conducted in the Camas area by F. A. Rigby of Science Applications, Inc., and R. B. McEuen of Exploration Geothermics.
Two regions of
relatively low resistivity were found, and drill sites were recommended to test these two areas.
The two Camas drill holes were located at or within a short distance of
the drill sites recommended by Rigby and McEuen.
Gravity During 1979, Z. F. Danes of the University of Puget Sound measured gravity at
743 stations in the south Cascades.
The area covered extends from 121°W. on the
east to 122°30'W. on the west, and from the Columbia River on the south to the Cowlitz River valley on the north.
Computations have continued well into 1980.
It is expected that a south Cascades gravity map and report will be ready for distribution by early 1981.
Dr. Danes has also produced relatively detailed gravity
maps for the Camas and North Bonneville areas, located near the Columbia River in southwestern Washington.
Geothermal Resource Maps Data acquisition, reduction, and plotting for public and scientific geothermal resource maps of Washington were a large part of the 1979-1980 program.
This work
was carried out with the assistance and cooperation of personnel from Oregon Institute of Technology, National Oceanic and Atmospheric Administration, and University of Utah Research Institute.
Information compiled for the two maps inclu-
des well water temperatures, temperature gradients, heat flow, thermal and mineral springs, water geochemistry, faults, Quaternary volcanic rocks and volcanic centers, National Parks, wilderness areas, federal reservations, Indian reservations, lease status, and current and potential geothermal uses.
II.
GEOTHERMAL PROGRAM PUBLICATIONS
The 1979 Geothermal Assessment Program led to the release of the following publications by the Division of Geology and Earth Resources.
Portions of this report
are taken directly from these publications.
References Cited
Danes, Z. F., 1979, Bouguer gravity map of the Camas area, Washington and Oregon: Washington Division of Geology and Earth Resources Open-File Report 79-6, scale 1:62,500.
Blackwell, D. D., 1980, Heat flow and geothermal gradient measurements in Washington to 1979 and temperature-depth data collected during 1979:
Washington Division of
Geology and Earth Resources Open-File Report 80-9, 524 p.
Bloomquist, R. G., 1980, Geothermal leasing status, January 1980, Washington: Division of Geology and Earth Resources Open-File Report 80-10, scale 1:126,730, (in preparation).
Clayton, G. A., 1980, Geology of White Pass-Tumac Mountain area, Washington: Washington Division of Geology and Earth Resources Open-File Report 80-8, 1 map, scale 1:24,000.
Korosec, M. A., 1980, Bibliography of geothermal resource information for the State of Washington:
Washington Division of Geology and Earth Resources Open-File
Report 80-4, 16 p.
Korosec, M. A.; Kaler, Keith, 1980, Well temperature information for the State of Washington:
Washington Division of Geology and Earth Resources Open-File
Report 80-7, 87 p.
Korosec, M. A.; Kaler, Keith; Schuster, J. E.; Bloomquist, R. G.; Simpson, S., 1980, Geothermal resource map of Washington State, Nontechnical edition:
Washington
Division of Geology and Earth Resources, Geologic Map 25, 1 sheet, scale 1:500,000.
Korosec, M. A.; McLucas, G. B., 1980, Quaternary volcanics in the State of Washington:
Washington Division of Geology and Earth Resources Open-File
Report 80-6, scale 1:500,000.
McLucas, G. B., 1980, Fault map of Washington, with references:
Washington Division
of Geology and Earth Resources Open-File Report 80-2, scale 1:100,000.
Schuster, J. E.; Korosec, M. A., 1980, Geothermal resource assessment in Washington. In Resource Assessment/Commercialization Planning Meeting, Salt Lake City, Utah, January 21-24, 1980:
U.S. Department of Energy, p. 146-152.
III.
HEAT FLOW AND GEOTHERMAL GRADIENT MEASUREMENTS IN WASHINGTON THROUGH 1979
by David D. Blackwell
Department of Geological Sciences Southern Methodist University Dallas, Texas 75275
III.
HEAT FLOW AND GEOTHERMAL GRADIENT MEASUREMENTS IN WASHINGTON THROUGH 1979
Introduction This chapter presents a summary of all published and unpublished heat flow and geothermal gradient measurements made in the State of Washington prior to 1979, and held in the files of the Geothermal Laboratory at Southern Methodist University, and a preliminary list of temperature gradient information collected in 1979.
The data
in the files include published heat flow values and temperature-depth data with accompanying pertinent information from the publications of Roy (1963), Roy and others (1968), Blackwell (1969, 1974), Sass and others (1971), Steele (1975) and Schuster and others (1978).
Also included are temperature data from Spicer (1964)
and Sass and Monroe (1974).
A few unpublished temperature logs made by the U.S.
Geological Survey Water Resources Division in Tacoma, Washington, and by the U.S. Geological Survey Geothermal Group in Menlo Park, California, are also included. This chapter is divided into two sections:
in the first section, a summary of
the geothermal gradient data and well locations Is presented in tabular form and plotted on a map.
In the second section of the report (Appendix D), listings for
individual drill holes of temperature versus depth for all wells available in Washington are included. available.
In some cases, more than one temperature logging is
Each temperature-depth log has been plotted on a graph accompanying the
temperature listings. The history of geothermal measurements in Washington began in the 1930's when U.S. Geological Survey personnel directed by VanOstrand made temperature measurements in several oil wells in the State of Washington. on open file in 1964 (Spicer, 1964).
These data became available
Temperature data from two of these wells
(20N/12W-8 and 11N/26E-20CC) are included in the data set in this report and estimated heat flow values have been calculated for these two holes based upon thermal conductivity values estimated from the lithologic units encountered in the holes. Following these studies there was a long hiatus until the early 1960's, when R. F. Roy
made heat flow measurements in the Metaline mining district in northeastern Washington and measured temperatures in a deep oil well drilled in the Columbia Plateau (Development Associates Basalt Explorer No. 1, 21N/31E-10CB).
The heat flow
values in the Metaline district were published in 1963 (Roy, 1963; Roy and others, 1968).
In the mid-1960's investigations were started by the author of this chapter.
The first results of these studies were published in 1969 (Blackwell, 1969). Continued investigations were supported by NSF Grant No. GA11351. results were published in 1974 (Blackwell, 1974).
The preliminary
The most up-to-date summary of
heat flow and geothermal gradient from a state-wide point of view Is the 1974 report. In that paper several preliminary heat flow values were discussed. flow values for those sites are included in this report.
The final heat
In the 1960's, measurements
were made at several localities in the state by the U.S. Geological Survey Geothermal Group in Menlo Park, California.
These results were published by Sass and others
(1971). All pertinent facts dealing with the measurements made in .the 1960's (Roy and others, 1968; Blackwell, 1969; and Sass and others, 1971) are listed in Sass and Monroe (1974).
Temperature-depth data, individual thermal conductivity measurements,
and terrain correction information for each hole are included here.
The temperature
data have been abstracted from Sass and Monroe for inclusion in this report. Subsequent to these studies, detailed studies of more localized areas were made in the Turtle Lake quadrangle of northeastern Washington (Steele, 1975) and in the Indian Heaven area in the southern Washington Cascade Range (Schuster and others, 1978).
In 1978 a reconnaissance study of the southern Columbia Plateau was carried
out to investigate the regional heat flow.
Preliminary water chemistry studies indi-
cated the possibility of anomalous heat flow values in the area, (C. A. Swanberg, personal communication, 1977).
The studies were part of a regional geothermal analysis
of the Pacific Northwest supported by NSF Grant No. AER-76-00108 (see Blackwell, 1978). In the 1970's, a few temperature logs were made by the U.S. Geological Survey Geothermal
Group at Menlo Park (holes 3N/5E-4CAB and 3N/5E-4BDC1, John Sass, personal communication, 1977).
These data are included in this report.
In addition
miscellaneous data, mostly temperature data from holes for which no heat flow determinations were made, either because of lack of thermal conductivity information or poor quality gradients are included for completeness. In addition to the data included in this report, there are two extensive sets of temperature logs available for the Columbia Plateau region.
One set was obtained by
investigators from the U.S. Geological Survey Water Resources Division in Tacoma, Washington and one set by the Washington State University Hydrologic Program at Pullman, Washington.
These data are now on file at the Washington Department of Natural
Resources and are in the process of being prepared for release.
Data Format Geothermal gradient information from the State of Washington is summarized in tables 3.1, 3.2, and 3.3.
Included in table 3.1 are location, hole name, elevation,
geothermal gradient, depth interval, thermal conductivity (where available), heat flow (where available), a summary of the rocks encountered in the drill hole, and a quality indicator for all holes.
These data have been taken from the publications
discussed above, and from the files of the Geothermal Laboratory at Southern Methodist University.
More recent studies (1979) by Southern Methodist University
and the State of Washington supported by the U.S. Department of Energy, are reported in preliminary form in table 3.3.
The individual holes are located by latitude and
longitude to the nearest 0.1' if possible. and range.
The holes are also located by township
Location within the section is by a letter code where A = NE, B = NW,
C = SW, D = SE.
The first letter represents the quarter-section, the second the
quarter-quarter-section, and the third (if listed) represents the quarter-quarterquarter-section.
The designation 16 N 22 E 13 ABD, for example, represents a well
In the southeast quarter of the northwest quarter of the northeast quarter of
Table 3.1
Pre-1979 Geothermal G r a d i e n t s and Heat Flow in Washington
State.
Geothermal data for the State of Washington available up to 1979. T C is thermal conductivity in watts per meter per °K (Wm-1K-1). Uncorrected and (terrain) corrected gradient and terrain corrected heat flow are shown. Significance of heat flow quality number is explained in text. Locations of data taken from the literature are listed at the end of the table.
section
13,
values are lithology decimal
t o w n s h i p 16 N. and from measurements
(values
places.
The q u a l i t y heat
r a n g e 22 E . ,
on c o r e o r c u t t i n g s
in p a r e n t h e s e s ) . Note, however,
indicators
are
as
respectively.
flow or g e o t h e r m a l
gradient
in the measurements.
The h e a t
that
of
a quality
error
A quality
samples
the values are discussed number of 1 , 6 ,
value
of 30 i n d i c a t e s
can be c a l c u l a t e d
from the data
quality
a hole
shown h a s an e s t i m a t e d respectively. because there
Heat
they are
is
f l o w v a l u e s have not
conductivity
summarized
holes
in very c l o s e
a map.
proximity
two
a
no r e l i a b l e
b e c a u s e of
some
heat problem
water
and u n g r o u t e d .
±25
and
flow
A gradient
percent,
for these holes,
either
or b e c a u s e
available. Shown on t h i s
as l i s t e d
in table
map a r e
3.1.
flow values
for holes
A g a i n m u l t i p l e h o l e s may h a v e b e e n i n c l u d e d
locations
I n some c a s e s ,
t o one a n o t h e r h a v e b e e n i n c l u d e d
A l s o shown on t h e map a r e h e a t
quality.
that
flow data are already a v a i l a b l e ,
in figure 3 . 1 .
f o r which d a t a a r e a v a i l a b l e ,
or
been c a l c u l a t e d
information
holes
to
below.
f o r which the g e o t h e r m a l
of ±5 p e r c e n t , ±10 p e r c e n t ,
i n an a r e a w h e r e h e a t
no t h e r m a l
The d a t a a r e
o r 20 i n d i c a t e s
error
on
o r 16 i m p l i e s
i s due t o i n t r a d r i l l - h o l e
thus a r e uncased
10,
based
of a p p r o x i m a t e l y ±5 p e r c e n t , ±10 p e r c e n t
U s u a l l y t h e poor q u a l i t y
of 5 ,
conductivity
are g e n e r a l l y given
i n h o l e s w h i c h w e r e u s e d a s w a t e r w e l l s and Indicator
Thermal
or e s t i m a t e d
flow values
the e r r o r s
follows:
f l o w v a l u e w i t h an e s t i m a t e d
±25 p e r c e n t ,
Willamette Meridian.
as a s i n g l e
of 1 , 6 ,
on t h i s map a s a
of several symbol on
o r 16 single
locality. The e q u i p m e n t w h i c h h a s been u s e d described is
by Roy and o t h e r s
the measurements
maximum r e a d i n g
for almost
all
of
these measurements
( 1 9 6 8 ) and by S a s s and o t h e r s
obtained
thermometers.
by V a n O s t r a n d . In g e n e r a l ,
a p p r o x i m a t e l y ± 0 . 0 2 ° C and t h e a c c u r a c y
26
(1971).
The o n l y
is exception
T h e s e were m e a s u r e m e n t s made w i t h the
precision
is approximately
of
the
±0.2°C.
instruments
is
FIGURE 3 . 1 . - H e a t - f l o w arid t e m p e r a t u r e g r a d i e n t map of W a s h i n g t o n ( p r e 1979 d a t a )
Discussion The r e s u l t s of t h e s e s t u d i e s have been d i s c u s s e d ( 1 9 7 4 ) f r o m a s t a t e - w i d e p o i n t of v i e w .
i n p r e l i m i n a r y form by B l a c k w e l l
These e a r l y d a t a have been supplemented
b e g i n n i n g i n 1978 and 1979 by e x t e n s i v e new i n f o r m a t i o n , w i t h t h e 1979 d a t a shown on t h e i n c l u d e d map ( f i g u r e 3 . 1 ) ,
i n t a b l e 3 . 3 , and l i s t e d i n Appendix D.
Brief
d e s c r i p t i o n s of t h e d a t a and r e s u l t s w i l l be found i n B l a c k w e l l (1978) and S a s s and others (1980).
The 1979 d a t a t o g e t h e r w i t h t h e e a r l i e r d a t a , w i l l be d i s c u s s e d by
B l a c k w e l l and o t h e r s i n t e c h n i c a l r e p o r t s to be i s s u e d i n t h e n e a r
future.
References Cited B l a c k w e l l , D. D . , 1969, Heat f l o w d e t e r m i n a t i o n s J o u r n a l of G e o p h y s i c a l R e s e a r c h , v . 7 4 , p .
in the northwestern United
992-1007.
B l a c k w e l l , D. D . , 1974, T e r r e s t r i a l h e a t f l o w and i t s geothermal r e s e r v o i r s
in Washington:
Resources I n f o r m a t i o n C i r c u l a r 50, p.
States:
i m p l i c a t i o n s on t h e l o c a t i o n of
Washington D i v i s i o n of Geology and E a r t h 21-33.
B l a c k w e l l , D. D . , 1978, Heat f l o w and e n e r g y l o s s i n t h e w e s t e r n U n i t e d S t a t e s .
In
S m i t h , R. B . ; E a t o n , G. P . , e d i t o r s , C e n o z o i c T e c t o n i c s and R e g i o n a l G e o p h y s i c s of t h e Western C o r d i l l e r a :
Roy, R. F . , Ph.D.
G e o l o g i c a l S o c i e t y of America Memoir 152, p.
1963, Heat f l o w m e a s u r e m e n t s i n t h e U n i t e d S t a t e s : thesis,
175-208.
Harvard U n i v e r s i t y
76 p .
Roy, R. F . , D e c k e r , E. R . ; B l a c k w e l l , D. D . ; B i r c h , F . , 1968, Heat f l o w determinations No. 16, p .
in the United S t a t e s :
5207-5221.
J o u r n a l of G e o p h y s i c a l R e s e a r c h , v .
73,
S a s s , J . H . ; L a c h e n b r u c h , A. H.; Munroe, R. J . ; Heat f l o w i n t h e w e s t e r n U n i t e d S t a t e s : 76, p.
G r e e n e , G. W.; Moses, T. H.,
1971,
J o u r n a l of G e o p h y s i c a l R e s e a r c h ,
v.
6379-6413.
S a s s , J . H.; Munroe, R. J . ,
1974, B a s i c h e a t - f l o w d a t a from the United S t a t e s ;
U.S.
G e o l o g i c a lSurveyO p e n - F i l e Report 7 4 - 9 , 456 p .
S a s s , J . H . ; B l a c k w e l l , D. D.; Chapman, D. S . ; C o s t a i n , J . K.; D e c k e r , E. R . ; Lawver L . A . ; Swanberg, C. A . , 1980, Heat f l o w from t h e c r u s t of the U n i t e d I n T o u l o u k i n a , Y. W.; J u d d , W. R . ; Roy R. F . , e d i t o r s , P h y s i c a l of Rocks and M i n e r a l s ( C h a p t e r 1 3 ) :
McGraw-Hill ( i n
States.
Properties
press).
S c h u s t e r , J . E . ; B l a c k w e l l , D. D.; Hammond, P . E . ; H u n t t i n g , M. T. , 1978, Heat Flow s t u d i e s i n t h e Steamboat Mountain-Lemei Rock a r e a , Skamania County,
Washington:
Washington D i v i s i o n of Geology and E a r t h R e s o u r c e s I n f o r m a t i o n C i r c u l a r 62, 56 p .
S p i c e r , H. C . , 1964, A c o m p i l a t i o n of deep e a r t h t e m p e r a t u r e d a t a , U . S . A . ,
1910-1945
U . S . G e o l o g i c a l Survey O p e n - F i l e R e p o r t 147, 74 p .
S t e e l e , J . L . , 1975, A h e a t f l o w s t u d y i n t h e T u r t l e Lake q u a d r a n g l e , Southern Methodist University M . S .
t h e s i s , 60 p .
Washington:
A d d i t i o n s and Comments By Michael A. Korosec
S t a t e w i d e R e g i o n a l Heat Flow
t o g e t h e r w i t h p r e - 1 9 7 9 d a t a ( t a b l e 3 . 1 ) , have begun t o d e l i n e a t e wide r e g i o n s
within
t h e s t a t e which d e m o n s t r a t e s i m i l a r t e m p e r a t u r e g r a d i e n t and h e a t f l o w c h a r a c teristics.
Since these a r e a s roughly correspond to the physiographic p r o v i n c e s ,
a
v a r i a t i o n of t h e s e s t a n d a r d p r o v i n c e s w i l l be used h e r e to d i s c u s s t h e d e n s i t y of c o v e r a g e and our p r e s e n t s t a t e of knowledge f o r r e g i o n a l h e a t f l o w . p r e l i m i n a r y s t a t e w i d e h e a t f l o w map, based on o n l y s c a t t e r e d s t a t e h a s been d i v i d e d i n t o f i v e " h e a t f l o w r e g i o n s " ; r e g i o n , which i n c l u d e s Hills,
Figure 3.2 i s a
data.
On t h i s m a p , t h e
1) t h e Western Washington
t h e p h y s i o g r a p h i c p r o v i n c e s of t h e P u g e t Lowland,
Willapa
and Olympic P e n i n s u l a , 2 ) t h e N o r t h C e n t r a l r e g i o n which i n c l u d e s
and c e n t r a l C a s c a d e s , 3 ) t h e N o r t h e a s t
r e g i o n , which i n c l u d e s Okanogan,
S t e v e n s , and Pend O r e i l l e C o u n t i e s in t h e Okanogan H i g h l a n d s , 4 ) t h e r e g i o n , which e x t e n d s f r o m t h e s o u t h e r n C a s c a d e s ,
the north Ferry,
Southeast
t h r o u g h t h e Columbia B a s i n , t o
I d a h o b o r d e r , and 5) t h e South C e n t r a l r e g i o n , which i n c l u d e s t h e s o u t h
the
Cascades
( f r o m r o u g h l y Snoqualmie P a s s s o u t h t o t h e Columbia R i v e r ) and t h e Simcoe M o u n t a i n s . For t h e most p a r t , poorly defined.
t h e b o u n d a r i e s between t h e s e h e a t f l o w r e g i o n s a r e
For l a c k of b e t t e r e v i d e n c e , many of t h e s e b o u n d a r i e s have been
sketched in to correspond to the p h y s i o g r a p h i c province boundary. imply t h a t h e a t f l o w t r a n s i t i o n s flow t r a n s i t i o n
only
occur a t these boundaries.
T h i s i s not
In f a c t , a few h e a t
zones have been shown t o o c c u r many 1 0 ' s of m i l e s o f f s e t from
physiographic province boundaries, as discussed 1) W e s t e r n W a s h i n g t o n :
later.
The h i g h e s t number of t e m p e r a t u r e g r a d i e n t s and h e a t
v a l u e s have been o b t a i n e d from w i t h i n t h i s h e a t f l o w r e g i o n , but v a s t a r e a s still
to
flow are
p o o r l y d e f i n e d , e s p e c i a l l y t h e W i l l a p a H i l l s and c e n t r a l Olympic P e n i n s u l a ,
where v i r t u a l l y no d a t a e x i s t .
Because t h e r e a r e o n l y a few p r e - e x i s t i n g w e l l s
in
FIGURE 3 . 2 . — P r e l i m i n a r y h e a t - f l o w r e g i o n map of W a s h i n g t o n .
these areas,
it
is
that
suspected
thus
i s not
the s t a t e
these
likely
temperature
geothermal
provinces.
that
gradients
I n a d d i t i o n , m o s t of
heat
flow values
are usually
the
(It
f l o w s a r e low i n t h e s e a r e a s ,
no p l a n s
to d r i l l
t h e Olympic P e n i n s u l a
to e x p l o r a t i o n . )
heat
flow holes
is part
of
Within the Western
r a n g e f r o m 20 t o 45 m W a t t s / m 2 ,
and t e m p e r a t u r e
T h e r e a r e o n l y two d a t a p o i n t s w i t h i n
i n King County,
increased
heat
at
and in
t h e Olympic Washington gradients
this
region,
the r e g i o n .
It
and b o t h
and n o r t h e r n C a s c a d e s .
are
is suspected
t h e C a s c a d e m o u n t a i n s of Oregon and
within the c e n t r a l
the Quaternary volcanic province
t h e f a r s o u t h e r n end of
flow a s s o c i a t e d with
Washington a l s o e x i s t s
this
in the near f u t u r e .
15 t o 35° C/km.
2) North C e n t r a l : located
be a v a i l a b l e
and h e a t
program i n c l u d e s
N a t i o n a l P a r k and t h e r e f o r e c l o s e d region,
data will
that
southern
The e x i s t e n c e
of
c e n t e r s Mount B a k e r and G l a c i e r P e a k f u r t h e r s u g g e s t s
should have a t
least
moderate heat
flow, with values higher
that
than
those
2 of w e s t e r n W a s h i n g t o n .
Values are suspected
p o s s i b l y h i g h e r anomalous v a l u e s 3) N o r t h e a s t
Washington:
good s c a t t e r i n g gradients
associated
t o r a n g e f r o m 50 t o 80 mWatts/m , w i t h with
t h e two
This region corresponds
of w e l l l o c a t i o n s w h i c h p r o v i d e
a r e low o r n o r m a l ,
t o t h e Okanogan H i g h l a n d and h a s a
consistent
f r o m 20 t o 3 0 ° C/km,
the heat
t o be a m o d e r a t e l y h i g h 70 t o 105 mWatts/m 2 b e c a u s e of rocks
in the
region.
4) Southeast
region:
c o n t a i n many s m a l l e r values.
This r e l a t i v e l y "sub-regions",
b u t o n l y a f e w of
poorly cased,
partially
holes produces
cased,
own c h a r a c t e r i s t i c
stair-step
these gradients
determined
heat
f o r t h e Columbia
these have c a l c u l a t e d h e a t or completely uncased,
temperature
flow has been
t h e l a r g e number of m o d e r a t e l y d e e p i r r i g a t i o n w e l l s d r i l l e d
early 1900's,
s e g m e n t s of
While
of
the
t h e s t a t e may a c t u a l l y
A t r e m e n d o u s number of w e l l l o g s a r e a v a i l a b l e
b e c a u s e of
drill
its
data.
the high c o n d u c t i v i t y
l a r g e s e c t i o n of
each with
volcanoes.
flows.
and w a t e r
temperature vs. depth p l o t s .
a r e most l i k e l y m e a n i n g l e s s .
flow Basin,
since
the
Many w e l l s
are
f l o w up and down t h e
The
straight-line
For t h e s e h o l e s ,
only
the
bottom h o l e t e m p e r a t u r e can be r e l i a b l y r e p o r t e d .
The h e a t f l o w v a l u e s t h a t have
been r e p o r t e d f o r " w e l l behaved" h o l e s f a l l m o s t l y i n t h e range of 55 t o 70 mWatts/m 2 , b u t some v a l u e s r a n g e a s h i g h a s 93 and 112 m W a t t s / m 2 , e s p e c i a l l y around t h e Walla Walla a r e a .
G r a d i e n t s from t h e s e w e l l s range from 35 t o 45° C/km, w i t h
v a l u e s of 70, 8 2 , and 107° C/km f o r t h e anomalous h o l e s n e a r Walla W a l l a . I f t h e d a t a s e t s r e p o r t e d i n Appendix A a r e u s e d , e s p e c i a l l y t h e w e l l log i n f o r m a t i o n from Washington S t a t e U n i v e r s i t y , r e l a t i v e l y h i g h bottom h o l e t e m p e r a t u r e s .
a number of w e l l s a r e found to have
Roughly 300 w e l l s have bottom h o l e
t e m p e r a t u r e s g r e a t e r t h a n 20° C, b u t w a t e r f l o w w i t h i n t h e s e w e l l s p r e v e n t s d i r e c t measurement of t e m p e r a t u r e g r a d i e n t s .
the
However, assuming a v a l u e f o r the mean
a n n u a l s u r f a c e t e m p e r a t u r e , a t e m p e r a t u r e g r a d i e n t can be c a l c u l a t e d u s i n g t h e two t e m p e r a t u r e end p o i n t s and t h e known d e p t h of t h e w e l l .
Throughout the Columbia
B a s i n , t h e mean a n n u a l s u r f a c e t e m p e r a t u r e i s known t o r a n g e p r i m a r i l y between 10° and 14° C; c o n t r o l l e d by e l e v a t i o n , cover.
For s i m p l i c i t y ,
gradient calculations.
s l o p e a n g l e , s l o p e o r i e n t a t i o n , and
t h e a v e r a g e v a l u e of 12° C was chosen as a s t a n d a r d
for
( T h i s might have i n t r o d u c e d a l a r g e e r r o r f o r many w e l l s ,
e s p e c i a l l y t h e s h a l l o w or low b o t t o m - h o l e - t e m p e r a t u r e w e l l s . when examining s p e c i f i c w e l l s . )
T h i s was k e p t i n mind
Most c a l c u l a t e d g r a d i e n t s f e l l i n t h e range of 3 5 °
t o 45° C/km, w i t h many a s h i g h a s 65° C/km or h i g h e r .
Some of t h e "anomalous
a r e s c a t t e r e d t h r o u g h o u t t h e Columbia B a s i n , b u t most a r e c l u s t e r e d areas.
vegetative
Using t h e c a l c u l a t e d g r a d i e n t s from a l l w e l l s ,
wells"
in specific
i n c l u d i n g c o l d deep w e l l s ,
two t y p e s of anomalous a r e a s ( m o d e r a t e p o t e n t i a l and h i g h p o t e n t i a l ) have been I d e n t i f i e d on the map of f i g u r e 3 . 3 .
These a r e a s c o r r e s p o n d to the
anomalies
i d e n t i f i e d on the Washington S t a t e G e o t h e r m a l R e s o u r c e Map (Korosec and 1981).
(The l i g h t g r a y a r e a s of t h e r e s o u r c e map a r e t h e m o d e r a t e
others,
potential
a n o m a l i e s of f i g u r e 3 . 3 , and t h e d a r k g r a y r e s o u r c e map a r e a s c o r r e s p o n d to t h e h i g h p o t e n t i a l a r e a s of f i g u r e 3 . 3 . )
Moderate p o t e n t i a l a r e a s a r e d e f i n e d a s
where s e v e r a l w e l l s have c a l c u l a t e d
regions
t e m p e r a t u r e g r a d i e n t s h i g h e r t h a n 4 5 ° C/km,
FIGURE 3 . 3 . — Anomalous t e m p e r a t u r e g r a d i e n t areas of Dark G r a y A r e a s .
In t h e Cascade Range, t h e d a r k g r a y shaded areas at t h e
Hachured Areas.
Washington.
In t h e Cascade Range p r o v i n c e , the areas d e p i c t r e g i o n s of
f i v e major Q u a t e r n a r y stratovolcanoes indicate h i g h p o t e n t i a l f o r low- to h i g h -
volcanic a c t i v i t y d u r i n g t h e past 1 million y e a r s .
t e m p e r a t u r e geothermal r e s o u r c e s .
even h i g h - t e m p e r a t u r e r e s o u r c e s may u n d e r l i e these a r e a s .
F a v o r a b l e i n d i c a t o r s a r e y o u n g igneous r o c k s ,
hot s p r i n g s , a n d fumaroles.
g r a d i e n t s are in t h e r a n g e o f 15° to
I n s o u t h e a s t e r n Washington, d a r k g r a y shaded areas d e p i c t r e g i o n s w h i c h
Low- to moderate- a n d p e r h a p s Typical
temperature
55°C/km.
In s o u t h e a s t e r n W a s h i n g t o n , h a c h u r e d areas indicate regions where several
h a v e a s i g n i f i c a n t number of wells w i t h c a l c u l a t e d t e m p e r a t u r e g r a d i e n t s g r e a t e r
wells have c a l c u l a t e d t e m p e r a t u r e g r a d i e n t s h i g h e r t h a n 4 5 ° C / k m , a l t h o u g h t h e r e
than 50°C/km.
are also c o l d e r wells w i t h i n these a r e a s .
Warm water is l i k e l y t o be e n c o u n t e r e d at r e l a t i v e l y
d e p t h s , a l t h o u g h t h e r e are c o l d wells w i t h i n t h e d a r k g r a y
areas.
shallow
Low- to m o d e r a t e - t e m p e r a t u r e
may u n d e r l i e l a r g e p o r t i o n s of these r e g i o n s .
resources
F u r t h e r e x p l o r a t i o n is needed to
delineate t h e r e s o u r c e s .
Potential G e o t h e r m a l Resource Areas in W a s h i n g t o n
a l t h o u g h c o l d e r w e l l s a r e o f t e n found w i t h i n t h e s e r e g i o n s .
The h i g h
potential
a r e a s a r e d e f i n e d a s r e g i o n s which have a s i g n i f i c a n t number of w e l l s w i t h calculated temperature gradients greater c o l d e r w e l l s i n the s u r r o u n d i n g a r e a .
t h a n 50° C/km, w i t h r e l a t i v e l y fewer or no
The b o u n d a r i e s of t h e s e d i f f e r e n t anomalous
a r e a s a r e i n d e f i n i t e , e s p e c i a l l y where t h e d e n s i t y of w e l l s i s
low.
I t i s suspected t h a t the heat flow within these areas i s a l s o r e l a t i v e l y
higher
t h a n t h e r e g i o n a l h e a t f l o w f o r t h e Columbia Basin ( g r e a t e r t h a n 50 t o 70
m W a t t s / m 2 ) , but not enough i n f o r m a t i o n i s a v a i l a b l e t o d e t e r m i n e q u a l i t a t i v e
heat
flow values. 5) South C e n t r a l W a s h i n g t o n :
The G e o t h e r m a l D r i l l i n g P r o j e c t s of 1975
Heaven a r e a , S c h u s t e r and o t h e r s ,
(Indian
1978) and 1979, by t h e D i v i s i o n of Geology
and E a r t h R e s o u r c e s ( s e e t a b l e 3 . 4 ) , have begun to c h a r a c t e r i z e t h e r e g i o n a l f l o w regime of t h e South Cascades ( s e e f i g u r e 3 . 4 ) .
Heat f l o w v a l u e s
t o 90 mWatts/m 2 , w i t h t e m p e r a t u r e g r a d i e n t s of 45° t o 55° C/km.
range from 60
Large r e g i o n s
t h i s p r o v i n c e have no w e l l s or d r i l l h o l e s , such a s the C e n t r a l C a s c a d e s
i n c l u d i n g t h e Mount R a i n i e r r e g i o n .
within
extending
f r o m t h e C o w l i t z R i v e r n o r t h t o t h e N o r t h C e n t r a l r e g i o n (Snoqualmie P a s s , Batholith area),
heat
Snoqualmie
The Tumac P l a t e a u t o Bumping
Lake a r e a , t h e Mount Adams a r e a , and t h e Cascade Mountains s o u t h of t h e b a s a l t of I n d i a n Heaven a r e a l s o w i t h o u t h e a t f l o w or t e m p e r a t u r e g r a d i e n t
fields
determinations.
The w e s t e r n boundary of t h e South C e n t r a l r e g i o n i s d e f i n e d by a r e l a t i v e l y sharp heat flow t r a n s i t i o n
( c l o s e l y spaced c o n t o u r s on t h e map In f i g u r e 3 . 4 ) .
Heat
f l o w i n c r e a s e s from l e s s t h a n 40 mWatts/m 2 t o g r e a t e r t h a n 60 mWatts/m 2 from west e a s t o v e r a d i s t a n c e of l e s s
t h a n 12 km, r o u g h l y a l o n g a n o r t h - s o u t h l i n e
Washougal and Skamania on t h e s o u t h , t h r o u g h Mount S t . H e l e n s , c o n t i n u i n g between t h e towns of Morton and R a n d l e , and e x t e n d i n g f u r t h e r n o r t h between t h e E a t o n v i l l e and Mount R a i n i e r - L o n g m i r e
to
between north
somewhere
area.
The e a s t e r n boundary of t h e South C e n t r a l h e a t f l o w r e g i o n i s v e r y p o o r l y known, b u t may c o r r e s p o n d t o t h e t o p o g r a p h i c change moving from t h e Q u a t e r n a r y v o l c a n i c s of t h e s o u t h Cascades t o t h e Miocene Yakima B a s a l t p l a i n s f u r t h e r e a s t (Columbia
River
Table 3.4
RESULTS OF HEAT-FLOW DRILLING, 1 9 7 9 , SOUTHWEST CASCADES, WASHINGTON
Basalts).
To t h e s o u t h , t h e p r e l i m i n a r y h e a t flow c o n t o u r s i n d i c a t e d
in figure 3.4
l i n e up w i t h c o n t o u r s drawn f o r t h e Oregon Cascades by D.D. B l a c k w e l l and o t h e r s earlier
in
reports.
Because of the e x i s t e n c e of a l a r g e number of Q u a t e r n a r y v o l c a n i c c e n t e r s
i n the
s o u t h C a s c a d e s , i n c l u d i n g t h e t h r e e l a r g e s t r a t o v o l c a n o e s Mt. R a i n i e r , Mount Adams, and Mount S t . H e l e n s , i t
i s not u n r e a s o n a b l e t o s u s p e c t t h a t h e a t f l o w a n o m a l i e s may
be a s s o c i a t e d w i t h a few of t h e s e v o l c a n i c s y s t e m s .
U n f o r t u n a t e l y , no a n o m a l i e s have
t h u s f a r been d e t e c t e d , b u t nor have t h e s e s p e c i f i c a r e a s been a d e q u a t e l y
examined.
A s s e s s m e n t of Heat Flow P r o j e c t s The h e a t f l o w d r i l l i n g which w i l l be c a r r i e d out under t h e 1980-1981 g e o t h e r m a l assessment
p r o j e c t w i l l p r o v i d e two new h e a t f l o w v a l u e s f o r the North
Central
r e g i o n ( S c e n i c , n e a r S t e v e n s P a s s , and Snoqualmie Summit on Snoqualmie P a s s ) .
The
p r o j e c t w i l l a l s o add one d r i l l h o l e n o r t h of Mount R a i n i e r , two to f o u r d r i l l
holes
a l o n g t h e Wind R i v e r n e a r t h e Columbia G o r g e , and t h r e e h o l e s between White P a s s and t h e Naches a r e a , a l l of which a r e p a r t of t h e South C e n t r a l h e a t f l o w r e g i o n .
The
t h r e e h o l e s e a s t of White P a s s w i l l b e t t e r d e f i n e the t r a n s i t i o n zone between the South C e n t r a l and t h e S o u t h e a s t
regions.
The d r i l l h o l e s a l o n g t h e Wind R i v e r ,
t o g e t h e r w i t h h o l e s p l a n n e d n e a r N o r t h B o n n e v i l l e , by t h e U . S . Department of Energy Region X C o m m e r c i a l i z a t i o n P r o g r a m , may i d e n t i f y h e a t f l o w a n o m a l i e s ,
(a
suspicion
based on t h e e x i s t e n c e of a r e l a t i v e l y l a r g e number of warm and hot s p r i n g s in the area).
At t h e v e r y l e a s t
the p r o j e c t w i l l provide r e g i o n a l i n f o r m a t i o n for a
p r e v i o u s l y unexamined p o r t i o n of t h e s o u t h C a s c a d e s . measurements i n w e l l s t h r o u g h o u t
In a d d i t i o n ,
temperature
t h e Columbia Basin d u r i n g t h e 1980-81 a s s e s s m e n t
project will help further delineate
t h e anomalous a r e a s i n t h e s o u t h e a s t
t h e s t a t e , and may l e a d t o t h e e s t a b l i s h m e n t
of new anomalous
areas.
Beyond t h e 1980-81 g e o t h e r m a l a s s e s s m e n t e f f o r t , a l o t of work w i l l t h e North C e n t r a l ,
S o u t h e a s t e r n , and S o u t h C e n t r a l r e g i o n s .
s e c t i o n of
be needed
F u t u r e work w i l l
d e f i n e t h e t r a n s i t i o n b o u n d a r i e s and t h e p o t e n t i a l f o r a n o m a l i e s w i t h i n t h e
in
better
regions.
Figure 3.4 Preliminary
Heat-Flow Map of S o u t h w e s t e r n Washington
For t h e North C e n t r a l
r e g i o n , where no d e e p w e l l s e x i s t ,
mineral exploration holes,
any h e a t
flow d r i l l
except
h o l e s w i l l g r e a t l y add t o t h e
p o o r u n d e r s t a n d i n g we now h a v e f o r t h i s a r e a .
Large p o r t i o n s
studied
in
closures
l a c k of
road access.
t h e n e a r f u t u r e , due t o e x p l o r a t i o n These a r e a s
include
f o r a few
of
this
present
a r e a cannot
b e c a u s e of l a n d s t a t u s
the North Cascades N a t i o n a l P a r k ,
or
the
P a s a y t e n W i l d e r n e s s A r e a , Mount S h u k s a n a r e a , G l a c i e r Peak W i l d e r n e s s A r e a , and Alpine Lakes Wilderness Area. accessible west
Areas needing heat
and a r e of g e o t h e r m a l
interest
include
f l o w e x p l o r a t i o n which t h e Mount Baker a r e a ,
of G l a c i e r P e a k W i l d e r n e s s A r e a , and t h e Skykomish and S n o q u a l m i e
valleys, River,
be
the
are the
region
River
e s p e c i a l l y n e a r t h e G a r l a n d Warm S p r i n g s on t h e N o r t h Fork of
the
Skykomish
and t h e Skykomish R i v e r v a l l e y b e t w e e n I n d e x and S c e n i c where a f e w m i n e r a l
s p r i n g s h a v e been
reported.
In the Southeast temperature
gradients
region,
there
s h o u l d be a c o n t i n u i n g e f f o r t
in a l l a v a i l a b l e w e l l s ,
but e s p e c i a l l y w i t h i n
t h e a n o m a l o u s a r e a s which h a v e a l r e a d y b e e n p r e l i m i n a r i l y flow c a l c u l a t i o n s
logged, and/or m a t e r i a l s
thermal conductivity measurements. t o r e l y on c a l c u l a t e d
temperature
A more c o n c e r t e d e f f o r t temperature
f o r e a c h of
calculations,
Until
and w i l l g i v e more c r e d e n c e
In the South C e n t r a l unexamined a f t e r
region
lead
Areas w i l l
prevent heat
r e g i o n i s p a r t of
The l a n d s t a t u s flow d r i l l i n g
of
from depth
for
we w i l l
be f o r c e d
wells. surface
temperature
large areas will t h e Goat Rocks
A r e a , and c o n t i n u i n g
heat are
temperature gradient
One s u c h a r e a i s
A r e a s o u t h t h r o u g h t h e Mount Adams W i l d e r n e s s
Actual
t h e a c t u a l mean a n n u a l
t o more a c c u r a t e
to the
around
the wells
f r o m t h e deep i r r i g a t i o n
(the south Cascades),
the 1980-81 p r o j e c t .
t h e Simcoe M o u n t a i n s .
h a v e been c o l l e c t e d
to a c c u r a t e l y d e t e r m i n e
these holes w i l l
unless
such a hole i s d r i l l e d ,
gradients
or
identified.
f o r t h e s e a n o m a l i e s w i l l n o t be p o s s i b l e ,
cased, geophysically
to measure
gradient
anomalies. remain Wilderness
southeast
through
t h e Goat Rocks and Mount Adams W i l d e r n e s s
in the
future.
t h e Yakima I n d i a n R e s e r v a t i o n .
The f a r e a s t e r n
Any d r i l l i n g
in this
p o r t i o n of region
this
would
have t o be done i n c o o p e r a t i o n w i t h t h e Yakima I n d i a n N a t i o n , and i t
is doubtful that
t h e D i v i s i o n of Geology and E a r t h R e s o u r c e s w i l l c o n d u c t such a v e n t u r e i n t h e n e a r future. The r e g i o n between Goat Rocks and Mount Adams i s p a r t of t h e G i f f o r d P i n c h o t N a t i o n a l F o r e s t and i s e a s i l y a c c e s s i b l e
by l o g g i n g r o a d s .
A l a r g e number of
young Q u a t e r n a r y v o l c a n i c c e n t e r s o c c u r i n t h i s a r e a , and b e c a u s e of t h e
very
relatively
c l o s e p r o x i m i t y t o t h e Q u a t e r n a r y s t r a t o v o l c a n o Mount Adams and t h e Goat Rocks Miocene t o Q u a t e r n a r y v o l c a n i c complex, t h i s r e g i o n s h o u l d be a prime t a r g e t flow d r i l l i n g in the near
for heat
future.
A n o t h e r l a r g e unexamined a r e a e x t e n d s t o t h e s o u t h from t h e C o w l i t z R i v e r V a l l e y between t h e l o n g i t u d e s of Mount S t . Helens and Mount Adams to t h e e x i s t i n g h e a t
flow
d r i l l h o l e s i n t h e Steamboat Mountain-Lemei Rock a r e a .
is
p a r t of t h e G i f f o r d P i n c h o t N a t i o n a l F o r e s t .
N e a r l y a l l of t h i s land
Heat f l o w a n o m a l i e s nay H e w i t h i n
a r e a , b u t e x c e p t f o r a few s c a t t e r e d Q u a t e r n a r y v o l c a n i c c e n t e r s , little
evidence a v a i l a b l e
there is
this
presently
t o s u g g e s t t h a t h e a t f l o w e x c e e d s 80 t o 90 mWatt/m 2 .
O t h e r b l a n k s w i t h i n t h e South C e n t r a l h e a t f l o w r e g i o n i n c l u d e t h e a r e a Bumping Lake and White P a s s ,
between
t h e w e s t e r n s i d e of t h e Cascades between t h e Snoqualmie
R i v e r and G r e e n w a t e r R i v e r s (which i n c l u d e s t h e L e s t e r Hot S p r i n g s a r e a i n t h e Green River V a l l e y ) ,
t h e Big Lava Bed a r e a between Wind R i v e r and White Salmon R i v e r , and
t h e Simcoe Mountains s o u t h of t h e Yakima I n d i a n R e s e r v a t i o n and n o r t h of Klickitat
and L i t t l e K l i c k i t a t
Rivers.
In t h e f o r e s e e a b l e f u t u r e , t h e D i v i s i o n
most l i k e l y c o n s i d e r d r i l l i n g h e a t f l o w h o l e s i n a number of t h e s e a r e a s the K l i c k i t a t ,
the
(including
T r o u t L a k e , Walupt L a k e , t h e Bumping Lake-Tumac P l a t e a u a r e a s ) ,
d e f i n i t e p l a n s have been made t o
will
but no
date.
A d d i t i o n a l s p e c i f i c h e a t f l o w d r i l l i n g t a r g e t s of i n t e r e s t which s h o u l d be c o n s i d e r e d by o t h e r s e n g a g i n g i n h e a t f l o w s t u d i e s f o r g e o t h e r m a l e x p l o r a t i o n
include
Government M i n e r a l S p r i n g s on the Wind R i v e r (where t h e D i v i s i o n of Geology hopes to d r i l l a hole in Spring, Soda S p r i n g s a r e a ) ,
1 9 8 1 ) , Ahtanum C r e e k w e s t of Tampico ( i n c l u d i n g t h e Ahtanum
the K l i c k i t a t
Yakima I n d i a n R e s e r v a t i o n ) ,
R i v e r v a l l e y e a s t of Mount Adams ( p a r t of
the
and t h e Lookout Mountain a r e a s o u t h of t h e E a s t Fork of
t h e Lewis R i v e r and n o r t h of t h e B o n n e v i l l e - S t e v e n s o n
area.
IV.
THERMAL AND MINERAL SPRING INVESTIGATIONS ( S u r v e y s and A n a l y s e s ,
1978-1979)
by M i c h a e l A. K o r o s e c D i v i s i o n of G e o l o g y and E a r t h R e s o u r c e s O l y m p i a , Washington
IV.
THERMAL AND MINERAL SPRING INVESTIGATIONS ( S u r v e y s and A n a l y s e s
1978-1979)
by M i c h a e l A. K o r o s e c D i v i s i o n of Geology and E a r t h
The l o c a t i o n s ,
Resources
t e m p e r a t u r e s , and c o n d u c t i v i t i e s
of a l l known t h e r m a l and m i n e r a l
s p r i n g s in t h e S t a t e of Washington a r e found i n t a b l e 4 . 1 . a v a r i e t y of s o u r c e s ,
The i n f o r m a t i o n comes from
i n c l u d i n g Washington D i v i s i o n of Geology and E a r t h
Resources
f i l e s , Washington D i v i s i o n of Water R e s o u r c e s Water Supply B u l l e t i n s , U . S .
Geological
Survey O p e n - F i l e R e p o r t s , and U . S . G e o l o g i c a l Survey T o p o g r a p h i c Maps. D u r i n g t h e 1978 and 1979 f i e l d s e a s o n s , 20 s p r i n g s y s t e m s were v i s i t e d sampled f o r c h e m i c a l a n a l y s i s .
and
Many of t h e s e s p r i n g s have n e v e r been a n a l y z e d
b e f o r e , and t h e e x i s t e n c e of a few a r e r e p o r t e d h e r e f o r t h e f i r s t
time.
Of t h e s e s p r i n g s y s t e m s , 13 h a v e been s u r v e y e d I n g r e a t e r d e t a i l , e x a m i n a t i o n s of s e v e r a l i n d i v i d u a l s p r i n g s w i t h i n each s y s t e m .
including
S e p a r a t e r e p o r t s on
e a c h of t h e s e s y s t e m s a r e found i n t h e s e c t i o n f o l l o w i n g R e s u l t s .
Methods At most s p r i n g s , a s e t of t h r e e w a t e r samples were c o l l e c t e d : f i l t e r e d , and f i l t e r e d a c i d i f i e d .
Filtered
samples were c o l l e c t e d by t a k i n g up
s p r i n g w a t e r i n a 50 ml p l a s t i c s y r i n g e and p a s s i n g i t
through a 0 . 4 micron Nuclepore
f i l t e r , h e l d i n a 47 mm Swin-Lok membrane h o l d e r , i n t o a 1 l i t e r container
(Cubi-tainer).
unfiltered,
collapsible
plastic
The a c i d i f i e d s a m p l e s were t r e a t e d by a d d i n g a b o u t 3 ml of
c o n c e n t r a t e d n i t r i c a c i d to about 1 l i t e r Temperature, conductivity,
of f i l t e r e d
water.
c h l o r i d e , and pH were measured i n t h e
field.
T e m p e r a t u r e s were measured w i t h a p o r t a b l e d i g i t a l Markson 7 0 1 , which was found to be
a c c u r a t e t o 0.05°C o v e r the r a n g e of 5° t o 90°C.
C o n d u c t i v i t y was measured w i t h a
Hach Mini C o n d u c t i v i t y Meter model 17250, w i t h b u i l t - i n t e m p e r a t u r e
compensator.
C h l o r i d e c o n c e n t r a t i o n s were e s t i m a t e d u s i n g t h e Hach C h l o r i d e T e s t K i t 7 - P which employs a d r o p - t i t r a t i o n m e t h o d . Sticks.
I n many c a s e s ,
The pH was d e t e c t e d w i t h C o l o r p H a s t
t h e c h l o r i d e and pH were not measured i n t h e
Indicator field.
B a t t e l l e N o r t h w e s t L a b o r a t o r i e s a n a l y z e d a l l samples c o l l e c t e d d u r i n g t h e 1978 f i e l d season.
The f o l l o w i n g methods were u s e d : Cl-
AgNO3
HCO 3 - ,
Titration
CO3-2
Alkalinity
Titration
F-
Ion Chromatography
SiO 2
Molybdosilicate
SO4-2
Turbidimetric
All other
cations
Colorimetric
I n d u c t i v e l y Coupled Argon Plasma Emission Spectroscopy
Samples c o l l e c t e d d u r i n g t h e 1979 f i e l d s e a s o n were a n a l y z e d a t t h e D i v i s i o n ' s water chemistry l a b o r a t o r y .
The f o l l o w i n g methods were u s e d :
C I - , B r - , I-
S p e c i f i c Ion E l e c t r o d e s and Orion S p e c i f i c I o n Meter 901
Alk
Hach Model AL-DT D i g i t a l
SO4-2
Hach Model SF-1 T u b i m e t r i c T e s t K i t Molybdosilicate C o l o r i m e t r i c with S u l f i t e R e d u c t i o n ; Bausch and Lomb S p e c t r o n i c 710
SiO 2 All other
Titration
cations
V a r i a n AA575 ABQ Atomic A b s o r p t i o n photometer
Spectro-
Results S p r i n g c h e m i s t r y d a t a have been d i v i d e d i n t o two t a b l e s , d i f f e r e n t l a b o r a t o r i e s which a n a l y z e d t h e w a t e r s .
r e f l e c t i n g t h e two
Table 4 . 2 c o n t a i n s analyses
for
s p r i n g s c o l l e c t e d by the a u t h o r d u r i n g t h e 1979 f i e l d s e a s o n , and a n a l y z e d by the
author at contains
t h e D i v i s i o n of G e o l o g y and E a r t h R e s o u r c e s analyses
for springs
collected
during
lab f a c i l i t i e s .
t h e 1978 f i e l d
Table
4.3
s e a s o n by D i v i s i o n
s o n n e l and a n a l y z e d by B a t t e l l e N o r t h w e s t L a b o r a t o r i e s .
Table 4 . 5 summarizes
location,
i n f o r m a t i o n on many of
springs.
temperature,
conductivity,
and g e o t h e r m o m e t r i c
per-
the the
T a b l e 4 . 1 - T h e r m a l a n d M i n e r a l S p r i n g s of W a s h i n g t o n
Chelan L i t t l e Wenatchee Soda Medicine
Spring
Spring
Clallam Olympic Hot
Springs
Piedmont S u l f u r S o l Duc Hot
Spring
Springs
Cowlitz Green R i v e r Soda Pigeon
Grays
Springs
Springs
Harbor Newskah M i n e r a l
Springs
Diamond M i n e r a l
Spring
Flaming Geyser
Springs
King
State
Goldmeyer Hot L e s t e r Hot
Springs
Springs
Money C r e e k Soda
Springs
Ravenna P a r k S u l f u r S c e n i c Hot
Spring
Springs
Skykomish Soda
Springs
Kitsap Bremerton Sulphur
Spring
Kittitas Medicine Creek Mineral
Spring
Klickitat Blockhouse Mineral
Springs
F i s h H a t c h Warm S p r i n g Klickitat
Mineral
Klickitat
Soda
Springs
Springs
Lewis Alpha M i n e r a l
Spring
O h a n a p e c o s h Hot Packwood Hot
Springs
Spring
Packwood M i n e r a l Well ( S p r i n g ) Summit C r e e k Soda Vance M i n e r a l
Springs
Spring
Okanogan Hot L a k e P o i s o n Lake
Pierce Longmire M i n e r a l Mt. R a i n i e r
Springs
Fumaroles
S t . Andrews Soda
Spring
Skamania B o n n e v i l l e Hot C o l l i n s Hot
Springs
Springs
Skamania Government M i n e r a l L i t t l e Soda
Springs
Spring
L i t t l e Wind R i v e r M i n e r a l Mount
S t . Helens
Seep
Fumaroles
O r r C r e e k Warm S p r i n g s Rock C r e e k Hot S h i p e r d s Hot
Springs
Springs
S t . M a r t i n Hot
Springs
Snohomish Gamma Hot
Springs
Garland Mineral Kennedy Hot
Springs
Springs
S u i a t t l e River Mineral S u l p h u r C r e e k Hot
Seep
Springs
Walla Walla Warm S p r i n g s Canyon Warm S p r i n g
Whatcom B a k e r Hot
Springs
Dorr Fumarole
Field
Sherman C r a t e r
Fumaroles
Yakima Ahtanum Soda
Springs
Bumping R i v e r Soda
Springs
Goose Egg Soda
Spring
Indian Mineral
Springs
Klickitat
Meadow Soda
Springs
L i t t l e R a t t l e s n a k e Soda McCormick Meadow Soda
Springs
Springs
M t . Adams F u m a r o l e s Simcoe Soda
Springs
Soda S p r i n g C r e e k Soda
Spring
T a b l e 4 . 2 - THERMAL AND MINERAL SPRING CHEMISTRY ( A n a l y s e s by D i v i s i o n of G e o l o g y and E a r t h R e s o u r c e s l a b )
T a b l e 4 . 2 - THERMAL AND MINERAL SPRING CHEMISTRY ( A n a l y s e s by D i v i s i o n of Geology and E a r t h Resources l a b ) ( C o n t . )
T a b l e 4 . 3 - THERMAL AND MINERAL SPRING CHEMISTRY ( b y B a t t e l l e
Northwest
Lab)
T a b l e 4 . 4 - Water I d e n t i f i e r Codes
OH
Ohanapecosh Hot S p r i n g s
GE
Goose Egg Soda S p r i n g s
OC
Orr Creek Warm S p r i n g s
SC
Summit Creek Soda S p r i n g s
LS
L e s t e r Hot S p r i n g s
CS
C o r b e t t S t a t i o n Warm S p r i n g s
YM
YMCA Warm Well
NS
Newskah Warm S p r i n g s
MC
M e d i c i n e Creek M i n e r a l
LM
Longmire M i n e r a l
BV
B o n n e v i l l e Hot
SB
Studebaker Mineral
SD
Sol Duc Hot
SM
S t . M a r t i n Hot
BK
Baker Hot
KN
Kennedy Hot S p r i n g s
OL
Olympic Hot
SF
S u l f u r Hot
SR
S u i a t t l e R i v e r M i n e r a l Seeps
Springs
Springs
Springs Springs
Springs Springs
Springs
Springs Springs
53
TABLE 4 . 5 - THERMAL AND MINERAL SPRING DATA
Baker Hot
Springs
B o n n e v i l l e Hot Springs
Goose Egg Soda Spring Kennedy Hot Springs
L e s t e r Hot Springs
Longmire M i n e r a l Springs
MedicineCreekMineralSpring Newskah Warm S p r s .
Ohanapecosh Hot Springs
Olympic Hot Springs
OrrCreekWarm Springs Sol
Duc Hot Springs
S t . M a r t i n Hot S p r s . S u i a t t l eRiverMineralSeep S u l p h u rCreekHot Springs SummitCreekSoda Spring
I n d i v i d u a l S p r i n g System
Investigations
T h i s s e c t i o n c o n t a i n s 12 r e p o r t s on i n d i v i d u a l s p r i n g s y s t e m s . been d i v i d e d i n t o f o u r s e c t i o n s : reach the a r e a ;
bedrock u n i t s ,
an I n t r o d u c t i o n , which d e s c r i b e s d i r e c t i o n s
G e o t h e r m a l F e a t u r e s , where s p r i n g s t a t i s t i c s ,
mometers a r e d i s c u s s e d ;
Each r e p o r t
c h e m i s t r y and
has
to geother-
Geology, where a v a i l a b l e g e o l o g i c i n f o r m a t i o n such as mapped
p r o x i m i t y of Q u a t e r n a r y v o l c a n i c and T e r t i a r y i n t r u s i v e r o c k s ,
and
h e a t - f l o w i n f o r m a t i o n a r e p r e s e n t e d ; and Comments, i n which t h e a u t h o r examines available
i n f o r m a t i o n and p r e s e n t s c o n j e c t u r e s and
interpretations.
A t h r e e l e t t e r and one number i d e n t i f i c a t i o n s y s t e m h a s been c o n t r i v e d and used i n t h e t a b l e s . The t h i r d l e t t e r etc.), Table
The f i r s t
the
is
two l e t t e r s a r e an a b b r e v i a t i o n of t h e s p r i n g name.
r e f e r s t o a s p e c i f i c s p r i n g w i t h i n a f a m i l y of s p r i n g s (A, B, C,
and t h e number k e y s t o t h e time d u r i n g which t h e sample was c o l l e c t e d
...
(see
4.4).
Several springs are described in g r e a t e r d e t a i l than o t h e r s .
This i s a r e s u l t
t h e a v a i l a b i l i t y of p u b l i s h e d i n f o r m a t i o n and t h e r e l a t i v e t i m e s p e n t i n t h e of t h e s p r i n g
of
vicinity
systems.
A few s p r i n g s were v i s i t e d
j u s t long enough t o c o l l e c t w a t e r s a m p l e s .
Individual
r e p o r t s have n o t been w r i t t e n f o r t h e s e s p r i n g s , b u t t h e r e s u l t s of c h e m i c a l a r e p r e s e n t e d in t h e t a b l e s .
They i n c l u d e Kennedy Hot S p r i n g s (KN), S u i a t t l e
analyses River
M i n e r a l Seep ( S R ) , S a i n t M a r t i n Hot S p r i n g s (SM), Newskah Warm S p r i n g s (NS) and Olympic Hot S p r i n g s
(OL).
Baker Hot S p r i n g s Whatcom County T. 38 N., R. 9 E . , SW1/4 S e c . 20 Mt. Shuksan 1953, 1 5 ' USGS Quad. Baker Hot S p r i n g s , a l s o known a s Morovitz Hot S p r i n g s , a r e l o c a t e d on a h i l l s i d e i n t h e S w i f t Creek V a l l e y , n e a r Morovitz C r e e k , w i t h i n t h e Mount Baker R e c r e a t i o n They a r e found by f o l l o w i n g a t r a i l
1/2 m i l e from a p a r k i n g a r e a on F o r e s t Road 3816,
which i s r e a c h e d by f o l l o w i n g S t a t e Route 20 e a s t 385 (Baker Lake R o a d ) .
area
from S e d r o Woolley to F o r e s t Road
Use of a Mount B a k e r - S n o q u a l m i e N a t i o n a l F o r e s t Map i s
recommended.
Geothermal
Features
One main s p r i n g and s e v e r a l s m a l l e r s e e p s i s s u e from a h e a v i l y v e g e t a t e d
hillside
w i t h a t o t a l f l o w of 8 t o 10 gpm.
The immediate a r e a h a s been c l e a r e d and
picnic
f a c i l i t i e s have been c o n s t r u c t e d .
A wooden t u b which once c o l l e c t e d w a t e r s from t h e
main s p r i n g was removed by t h e N a t i o n a l F o r e s t S e r v i c e i n September 1978. Waters c o l l e c t e d from t h e main pool (BAK-1) and from a s m a l l e r s p r i n g (BKB-1) i n August 1978 were a n a l y z e d by B a t t e l l e N o r t h w e s t L a b o r a t o r y . are presented in table
R e s u l t s of t h e
analyses
4.3.
Both w a t e r s had h i g h S i O 2 , L i , F, and B c o n c e n t r a t i o n s , c o n c e n t r a t i o n s , and a r e l a t i v e l y h i g h K/Na r a t i o . dominant a n i o n s , but a s i g n i f i c a n t amount of SO4
low Ca and Mg
C h l o r i d e and b i c a r b o n a t e a r e is present.
The main s p r i n g
a b o u t 10 p e r c e n t t o 20 p e r c e n t h i g h e r c o n c e n t r a t i o n s f o r most s p e c i e s e x c e p t f o r Ca and Mg, which a r e s l i g h t l y h i g h e r f o r t h e s m a l l e r
When g e o t h e r m o m e t e r s a r e a p p l i e d ,
the has
measured,
spring.
p r e d i c t e d r e s e r v o i r t e m p e r a t u r e s a r e a b o u t 150°C
f o r t h e S i - Q u a r t z g e o t h e r m o m e t e r and 171°C w i t h t h e Na-K-Ca g e o t h e r m o m e t e r .
The
d i f f e r e n c e may be due t o m i x i n g w i t h ground w a t e r n e a r t h e s u r f a c e , or l o s s of SIO2 due t o p r e c i p i t a t i o n and r e - e q u i l i b r a t i o n w i t h i n t h e s y s t e m , a s s u g g e s t e d f l o w of w a t e r o b s e r v e d a t t h e
surface.
by t h e slow
Geology Baker Hot S p r i n g s i s l o c a t e d t h e summit.
j u s t e a s t of t h e f l a n k s of Mount B a k e r , 7 m i l e s from
Mount Baker i s a Q u a t e r n a r y a n d e s i t i c
show s i g n s of a c t i v i t y
s t r a t o v o l c a n o which c o n t i n u e s
to
i n t h e form of e x t e n s i v e s t e a m i n g f u m a r o l e s i n Sherman
C r a t e r and w i t h i n t h e D o r r Fumarole F i e l d on t h e n o r t h e a s t
slope.
G e o l o g i c r e p o r t s on Mount Baker i n c l u d e Coombs ( 1 9 3 9 ) , and S t a v e r t summary i s p r o v i d e d by B l o o m q u i s t ( 1 9 7 9 ) . o t h e r s ( 1 9 7 3 ) , Hyde and C r a n d e l l
( 1 9 7 1 ) , and a
H a z a r d s have been s t u d i e d by C r a n d e l l and
(1975, 1 9 7 8 ) , and e r u p t i v e s e q u e n c e s a r e r e p o r t e d by
E a s t e r b r o o k ( 1 9 7 5 , 1 9 7 6 ) , and Swan ( 1 9 7 8 ) .
Thermal a c t i v i t y h a s been examined by
McLane and o t h e r s ( 1 9 7 6 ) , S a t o and o t h e r s ( 1 9 7 6 ) , Frank and o t h e r s ( 1 9 7 5 , Malone ( 1 9 7 6 ) , and K i v e r There i s v e r y l i t t l e
1977),
(1978). p u b l i s h e d g e o l o g i c mapping t h a t c o v e r s t h e f a r e a s t
flanks
of Mount Baker and t h e S w i f t Creek v a l l e y between Mount Shuksan and Mount B a k e r . From u n p u b l i s h e d s k e t c h maps, i t a p p e a r s t h e h o t s p r i n g s f l o w from g l a c i a l
drift.
Somewhere below t h e u n c o n s o l i d a t e d m a t e r i a l , a Q u a t e r n a r y v o l c a n i c f l o w from t h e west t e r m i n a t e s a g a i n s t C a r b o n i f e r o u s - P e r m i a n v o l c a n i c s and s e d i m e n t s .
The o l d e r
unit,
which i s e x t e n s i v e l y exposed e a s t of S w i f t C r e e k , i s t h o u g h t to u n d e r l i e a s i g n i f i c a n t p o r t i o n of t h e
stratovolcano.
No h e a t - f l o w d a t a or t e m p e r a t u r e g r a d i e n t i n f o r m a t i o n is a v a i l a b l e d i a t e a r e a or f o r t h i s r e g i o n of t h e North
f o r t h e imme-
Cascades.
Comments
Because of t h e p r o x i m i t y of Baker Hot S p r i n g s t o t h e s t r a t o v o l c a n o and c h e m i c a l c o m p o s i t i o n of i t s w a t e r s , t h e r e i s l i t t l e d i r e c t l y r e l a t e d to the v o l c a n i c system.
doubt t h a t t h i s s p r i n g
the is
The p r e d i c t e d r e s e r v o i r t e m p e r a t u r e
is
h i g h , a t l e a s t 150° t o 170°C, and may be h i g h e r if mixing i s o c c u r r i n g .
A mixing
model h a s been c o n s t r u c t e d which assumes t h e c h e m i c a l c o n c e n t r a t i o n s and
temperature
of t h e ground w a t e r (10 t o 20 ppm S i O 2 , 2 t o 20 ppm Na, 0 t o 3 ppm K, and 5 t o 8 ppm
Ca, a t water. cools
10° t o 1 2 ° C ) . The r e s e r v o i r
T h i s model p r e d i c t s m i x i n g of a b o u t 2 / 3 t h e r m a l and 1 / 3 g r o u n d temperature
is predicted
through conductive or convective heat
t h e ground
loss
t o a b o u t 60°C b e f o r e i t
but
mixes w i t h
water.
Another hot spring i s
reported
m i l e s n o r t h of B a k e r Hot S p r i n g s ,
t o f l o w f r o m t h e c r e e k bed of S w i f t C r e e k , 3 t o 4 between the e l e v a t i o n s
s p r i n g may be p a r t i a l l y w i t h i n t h e c r e e k , water.
t o h a v e b e e n a b o u t 1 7 0 ° t o 175°C,
of 1 , 8 0 0 t o 2 , 2 0 0 f e e t .
completely covered during
t i m e s of
high
The
B o n n e v i l l e Hot S p r i n g s - M o f f e t t ' s Hot S p r i n g s Skamania County T . 2 N . , R. 7 E . , S e c . 16, SWl/4 B o n n e v i l l e Dam 1957, 1 5 ' USGS Quad. T h i s p r i v a t e l y owned r e s o r t ,
f o r m e r l y known a s M o f f e t t ' s Hot S p r i n g s ,
n o r t h e a s t of t h e town of North B o n n e v i l l e , a l o n g G r e e n l e a f C r e e k .
is
located
Two d r i l l e d
wells
s u p p l y w a t e r f o r a swimming p o o l and t u b s w i t h i n t h e main r e c r e a t i o n b u i l d i n g . facilities
i n c l u d e an o f f i c e , r e n t a l c a b i n s , and c a m p e r - t r a i l e r p a r k i n g
Geothermal
Features
I n 1971, b o t h w e l l s were i n u s e .
The w e l l was pumped f o r
y i e l d , b u t t h e owners r e p o r t e d i t would f l o w a r t e s i a n . s u p p l y m i n e r a l b a t h s and d r i n k i n g w a t e r f o r t h e c a b i n s . 82°F (28°C) and was d e f i n i t e l y n o t
BVA-).
I t s reported
r e l a t i v e to a l k a l i n i t y ,
temperature
(sample
The w a t e r s a r e v e r y The v a r i o u s
estimates:
NA-K-Ca
B = 1/3
T = 6 2 . 6 °C
Na-K-Ca
B = 4/3
T = 27.9
SiO 2
Quartz
T = 102.1
SiO 2
Alpha C r i s t o b a l i t e
T = 51.7
t e m p e r a t u r e s may not be t o o much h i g h e r t h a n t h e
o b s e r v e d w e l l head t e m p e r a t u r e , u n l e s s c h e m i c a l r e - e q u i l i b r a t i o n The s p r i n g w a t e r s a r e f l o w i n g t h r o u g h u n c o n s o l i d a t e d t i v e l y slow r a t e .
t e m p e r a t u r e was
w e l l head
low K/Na, and low L i / N a .
g e o t h e r m o m e t e r s produce t h e f o l l o w i n g r e s e r v o i r
R e s u l t s suggest the r e s e r v o i r
to
A r t e s i a n f l o w was p r o d u c i n g a b o u t 20
Waters were sampled from a s p i g o t n e a r t h e
Cl-
greater
The second w e l l was used
R e s u l t s of t h e a n a l y s e s a r e p r e s e n t e d i n t a b l e 4 . 2 .
b a s i c , have h i g h
flowing
artesian.
I n 1979, o n l y t h e main w e l l was b e i n g u s e d . gpm of 36°C w a t e r .
areas.
The main w e l l , r e p o r t e d l y 25 f e e t d e e p ,
90°F ( 3 2 ° C ) , was used t o s u p p l y t h e swimming p o o l .
Other
is taking
landslide debris at a rela-
S e v e r a l f r e s h - w a t e r c o l d s p r i n g s a r e found t h r o u g h o u t
and n e a r s u r f a c e mixing may c o n s e q u e n t l y be
place.
occurring.
the a r e a ,
About 50 m e t e r s n o r t h of t h e w e l l h e a d s a t B o n n e v i l l e Hot S p r i n g s , a gas l i n e u n d e r g r o u n d , r o u g h l y NE-SW t h r o u g h a c l e a r e d c o r r i d o r . the h i l l
By f o l l o w i n g t h i s l i n e up
(SW), a warm s p r i n g i s f o u n d , f o r m i n g a warm w a t e r d r a i n a g e f l o w i n g a c r o s s
the clearing.
The s p r i n g comes o u t a l o n g t h e h i l l s i d e on t h e n o r t h s i d e of
clearing,
10 t o 15 m e t e r s from t h e o l d r e s o r t
just
c i s t e r n (11.5°C).
The warm s p r i n g ,
v a r i e s f l o w f r o m 0 t o 10 gpm.
the
road which l e a d s t o a c o l d
over a 5-minute time i n t e r v a l .
spring
r e f e r r e d t o a s P i p e l i n e Warm S p r i n g o r BVB,
I t a p p e a r s t o be a s s o c i a t e d w i t h a c o l d w a t e r
where i t b r e a k s t h r o u g h a l l u v i u m .
spring,
The s p r i n g t e m p e r a t u r e r a n g e s from 17°C to 31.6°C
By d i g g i n g a r o u n d and d i v e r t i n g t h e c o l d w a t e r
f l o w from t h e warm w a t e r f l o w , t h e c o l d s p r i n g was found t o be 12.0°C a t c o l d e s t , b u t I t f l u c t u a t e d by a b o u t 4°C, s u g g e s t i n g s e p a r a t i o n was not
its
complete.
Warm w a t e r f l o w was accompanied by p e r i o d i c b u b b l i n g , p o s s i b l y CO2 g a s .
The t o t a l
c o n d u c t i v i t y and c h e m i c a l c o m p o s i t i o n of t h i s w a t e r i s v e r y s i m i l a r t o t h a t of main h o t w e l l and p r o b a b l y r e p r e s e n t s a s i m i l a r s o u r c e which h a s been s l i g h t l y more t h a n t h e h o t w e l l
H a m i l t o n Creek Warm S p r i n g and Bass Lake Hot S p r i n g s .
w a t e r a t 10 t o 20 gpm on t h e e a s t bank of t h e c r e e k . At t h a t
diluted
including
The b u i l d i n g of t h e new S t a t e
Hwy. 14 b r i d g e o v e r H a m i l t o n Creek c o v e r e d up a s p r i n g r e p o r t e d
f o u n d i n August 1979.
t o f l o w 2 5 ° t o 30°C
No t r a c e of t h i s s p r i n g was
t i m e , t h e c r e e k w a t e r s and a i r t e m p e r a t u r e were warm
a t 20°C and would have masked any t h e r m a l w a t e r s coming up w i t h i n t h e c r e e k Bass Lake Hot S p r i n g s , t h e e n t i r e a r e a around i t s
(SE1/4SE1/4 s e c . 16, T. 2 N . , R. 7 E . ) may s t i l l
bed.
exist,
but
r e p o r t e d s i t e h a s been d i s t u r b e d by t h e c o n s t r u c t i o n of
t h e second powerhouse a t B o n n e v i l l e Dam, and t h e s u b s e q u e n t r e r o u t i n g of railroad.
the
water.
S e v e r a l o t h e r warm t o h o t s p r i n g s h a v e been r e p o r t e d i n t h e a r e a ,
resort,
runs
the
The s p r i n g s , which a r e r e p o r t e d l y a s warm a s t h e s p r i n g s a t t h e
Bonneville
form p o o l s on t h e n o r t h s i d e of Bass Lake on p r o p e r t y once owned by
Mr. Z i e g l e r of North B o n n e v i l l e .
The s p r i n g s may o c c u r on t h e n o r t h end of a s m a l l
c l e a r i n g , r e a c h e d by f o l l o w i n g t h e r a i l r o a d t r a c k s e a s t t o t h e p o i n t where t h e c l e a r i n g and s l o u g h meet and t h e old- l a k e b a s i n
ends.
Warm s p r i n g s a r e a l s o r e p o r t e d t o o c c u r t h r o u g h o u t t h e a r e a w i t h i n a m i l e , and e a s t of B o n n e v i l l e
north
resort.
Geology The e n t i r e a r e a i s covered by a l a r g e r e c e n t l a n d s l i d e .
The m a t e r i a l
is
p r i m a r i l y Yakima B a s a l t and E a g l e Creek F o r m a t i o n (Miocene v o l c a n i c s ,
conglomerates,
and s e d i m e n t s ) which o v e r l i e h e a v i l y z e o l i t i z e d Ohanapecosh F o r m a t i o n
(Eocene
volcanics).
Waters ( 1 9 7 3 ) p r o v i d e s a g e o l o g i c map of t h e s l i d e and s u r r o u n d i n g
and p r e s e n t s a s i m p l e mechanism t o e x p l a i n t h e s l i d e , O h a n a p e c o s h - E a g l e Creek c o n t a c t due t o s a p r o l i t e
i n v o l v i n g f a i l u r e along
area,
the
clay.
W i t h i n a m i l e due n o r t h of t h e h o t w e l l s a t B o n n e v i l l e , Waters ( 1 9 7 3 ) h a s mapped two Q u a t e r n a r y i n t r u s i o n s of o l i v i n e b a s a l t i n t o t h e Yakima B a s a l t v e r y n e a r t h e head of t h e s l i d e (NEl/4 s e c . 17 and SEl/4 s e c . 8 , T. 2 N . , R. 7 E . ) .
Two o t h e r Q u a t e r n a r y
I n t r u s i o n s a r e mapped 3 m i l e s due n o r t h of t h e r e s o r t above t h e Red B l u f f s s c a r p (SE1/4 s e c . 3 2 , T. 3 N . , R. 7 E . ) .
These f e a t u r e s a r e not d i s c u s s e d w i t h i n t h e
H e a t - f l o w s t u d i e s i n t h e a r e a i n c l u d e t h e t e m p e r a t u r e l o g g i n g of t e s t d r i l l e d a s p a r t of t h e B o n n e v i l l e Dam powerhouse p r o j e c t .
Temperature
holes
gradients
r a n g e from 25° t o 70°C/km f o r h o l e s 50 t o 85 m e t e r s deep which have been d r i l l e d marily through sedimentary u n i t s (unconsolidated b u t bottom I n b e d r o c k .
text.
l a n d s l i d e d e b r i s and s l i d e
pri-
blocks),
Most g r a d i e n t s a r e 40° t o 50°C/km.
Comments: Thermal w a t e r s t h r o u g h o u t t h e a r e a may r e p r e s e n t a s i n g l e t h e r m a l s o u r c e f l o w i n g below t h e s l i d e and mixing w i t h ground w a t e r w i t h i n t h e s l i d e .
The mixed w a t e r s
s u r f a c i n g a l o n g c o n t a c t s or w e a k n e s s e s w i t h i n t h e s l i d e b l o c k .
The u l t i m a t e
are
thermal
s o u r c e s may be r e l a t e d t o t h e s o u r c e f o r Rock Creek Hot S p r i n g to t h e n o r t h and
the
v a r i o u s h o t s p r i n g s a l o n g t h e Wind R i v e r w i t h a n y d e g r e e of c e r t a i n t y springs.
to the n o r t h e a s t ,
due t o t h e l a c k of c h e m i c a l
B a s s L a k e , Rock C r e e k ,
but
this
c a n n o t be
stated
i n f o r m a t i o n on many of
and S h i p e r d s Hot S p r i n g s w i l l
be e x a m i n e d i n
the
1980.
C o l l i n s Hot S p r i n g s Skamania County T . 3 N . , R. 9 E . , S e c . 31 Hood R i v e r 1957, 15' USGS Quad.
L o c a t e d n e a r t h e j u n c t i o n of C o l l i n s Creek w i t h t h e Columbia R i v e r along Hwy. 14, a b o u t 8 m i l e s e a s t of
State
Stevenson.
A n a t u r a l h o t s p r i n g was c a s e d o f f f o r a r e s o r t h o t e l i n 1860. b u i l d i n g and a s i n g l e s t o r y b a t h h o u s e were t o r n down i n 1916.
The t w o - s t o r y
The s i t e has
been f l o o d e d by w a t e r s of t h e Columbia R i v e r behind B o n n e v i l l e Dam.
since
The s p r i n g
is
r e p o r t e d l y capped and v a l v e d i n a s q u a r e s t e e l h o u s i n g which i s 3 f e e t by 3 f e e t t h e t o p and 5 f e e t by 5 f e e t a t t h e b a s e . w a t e r , a b o u t 30 f e e t from t h e
at
The s t r u c t u r e s t a n d s i n a b o u t 12 f e e t of
shore.
The a c r e a g e a l o n g t h i s p o r t i o n of t h e Columbia R i v e r and C o l l i n s Creek was p r i v a t e l y owned, a s of 1971 (Merle B u r g e s s F a m i l y , Tacoma, WA), b u t t h e G i f f o r d P i n c h o t N a t i o n a l F o r e s t Map of 1975 shows t h i s a r e a a s N a t i o n a l
Geothermal
Forest.
Features
No s p e c i f i c t e m p e r a t u r e or c h e m i c a l d a t a a r e a v a i l a b l e
on t h e h o t
spring.
E a r l i e r r e p o r t s seem t o i n d i c a t e t h a t t h e a r t e s i a n p r e s s u r e was s u f f i c i e n t to s p o u t i n g to 6 meters through a r e s t r i c t e d v a l v e .
create
The t e m p e r a t u r e i s t h o u g h t to have
been between 40°C and 50°C. Geology The a r e a i s l o c a t e d on the lower p o r t i o n of t h e Wind R i v e r L a n d s l i d e . i s p r o b a b l y Yakima B a s a l t ( M i o c e n e ) . immediate v i c i n i t y ,
There a r e s e v e r a l T e r t i a r y i n t r u s i v e s
The d e b r i s in the
and t h e T r o u t Creek H i l l Q u a t e r n a r y b a s a l t f l o w e x t e n d s down t h e
Wind R i v e r v a l l e y 2 m i l e s to t h e e a s t ( W i s e , 1 9 7 0 ) . C e n t e r s a r e mapped 5 t o 8 m i l e s n o r t h e a s t
of the a r e a (Hammond, P . E . ,
map). No h e a t - f l o w d a t a a r e a v a i l a b l e
Several Quaternary
f o r the
area.
Volcanic unpublished
Comments: This thermal f e a t u r e i s very l i k e l y r e l a t e d p r o d u c e h o t s p r i n g s a l o n g t h e Wind R i v e r , Springs.
t o t h e t h e r m a l s y s t e m s working
to
i n c l u d i n g S t . M a r t i n and S h i p e r d s Hot
S i n c e t h i s s p r i n g i s in or n e a r a s l i d e ,
t h e t h e r m a l w a t e r s may be
f r o m some s o u r c e b e n e a t h t h e s l i d e , a s was s u g g e s t e d f o r B o n n e v i l l e Hot
issuing
Springs.
Goose Egg Soda S p r i n g Yakima County T. 14 N . , R. 14 E . , SWl/4, SWl/4 S e c . 33 T i e t o n B a s i n , 1967, 7-1/2' USGS Quad. The s p r i n g i s l o c a t e d a l o n g F o r e s t Road 1430 i n t h e T i e t o n Ranger D i s t r i c t of Wenatchee N a t i o n a l F o r e s t .
I t i s r e a c h e d by t a k i n g t h e White P a s s Highway
Route 12) t o T i e t o n R i v e r Road, a b o u t 1-1/2 m i l e s e a s t of Rlmrock V i l l a g e .
the
(State The road
is
f o l l o w e d s o u t h , a l o n g Milk Creek f o r 1-1/2 m i l e s , where a g r a v e l road t a k e s off to t h e southeast.
The l e f t f o r k of t h e g r a v e l road t u r n s n o r t h e a s t and p a s s e s e a s t of
spring shelter,
1/4 m i l e up t h e r o a d .
the
The a r e a i s used a s a cow p a s t u r e , and i s
a p r i v a t e l n - h o l d i n g o r i s l e a s e d from t h e N a t i o n a l
either
Forest.
Geothermal F e a t u r e s Under t h e s h e l t e r , a s i n g l e s p r i n g f l o w s 15 t o 20 gpm c o l d CO2 c h a r g e d w a t e r from an i r o n - s t a i n e d c o n c r e t e c i s t e r n .
During a s u r v e y and s a m p l i n g t r i p i n J u n e 1979,
t h e w a t e r had a t e m p e r a t u r e of 9 . 5 ° C , 2 , 7 0 0 umhos/cm c o n d u c t i v i t y ,
and a pH of
6.0.
R e s u l t s of c h e m i c a l a n a l y s e s a r e p r e s e n t e d i n t a b l e 4 . 2 ( s e e GEA-1). The s p r i n g w a t e r h a s a h i g h a l k a l i n i t y and and shows a s i g n i f i c a n t Br
concentration.
Cl
c o n t e n t , with very l i t t l e
SO4-,
C a t i o n s a r e dominated by Na and Ca, w i t h
a h i g h Ca/Na r a t i o and o n l y a m o d e r a t e K/Na r a t i o .
Both t h e SiO 2 and Mg con-
c e n t r a t i o n s a r e r e l a t i v e l y h i g h , b u t o n l y a t r a c e of Li was d e t e c t e d . The Q u a r t z - S i l i c a g e o t h e r m o m e t e r p r e d i c t s a r e s e r v o i r w h i l e t h e Na-K-Ca g e o t h e r m o m e t e r g i v e s 124°C.
t e m p e r a t u r e of
137°C,
The Mg c o r r e c t i o n to t h e Na-K-Ca t e m -
p e r a t u r e I s dT Mg = 75°C, p r o d u c i n g a p r e d i c t e d r e s e r v o i r
t e m p e r a t u r e of 49°C.
Geology The r e g i o n a l g e o l o g y around Goose Egg Soda S p r i n g h a s been mapped by B e c r a f t ( 1 9 5 0 ) and Swanson ( 1 9 6 4 , 1966, 1 9 7 8 ) .
The T i e t o n b a s i n i s covered by a l a r g e
landslide,
B l o c k s of upper Miocene Yakima B a s a l t
s t i l l a c t i v e i n some a r e a s .
recent are
g l i d i n g n o r t h w e s t from D i v i d e Ridge o v e r c l a y e y t i l l and b e n t o n i t e s of t h e S p e n c e r
C r e e k and W i l d c a t Creek F o r m a t i o n s ( O l i g o c e n e - M i o c e n e )
(Swanson, 1 9 6 4 ) .
It
is
b e l i e v e d t h a t t h e s l i d e h a s changed t h e c o u r s e of t h e T i e t o n R i v e r , which may have once f l o w e d between Goose Egg Mountain and Kloochman Rock, a l o n g what i s now Milk Creek. S e v e r a l a n d e s i t e i n t r u s i v e s p r o t r u d e above t h e l a n d s l i d e d e b r i s , Egg M o u n t a i n , Chimney P e a k s , and Kloochman Rock. of a u g i t e - h y p e r s t h e n e
composition
(Swanson,
i n c l u d i n g Goose
They a r e middle Miocene i n a g e , and
1978).
About 1/2 m i l e due n o r t h of t h e s p r i n g , a P l e i s t o c e n e o l i v i n e b a s a l t h a s been mapped by Swanson.
S e v e r a l o t h e r s a r e found t h r o u g h o u t
n o r t h of t h e T i e t o n R i v e r .
t h e a r e a , i n c l u d i n g two a r e a s
These r o c k s a r e most l i k e l y r e m n a n t s of f l o w s
on t h e Cascade Ridge t o t h e west (Swanson,
1964).
No h e a t f l o w o r t e m p e r a t u r e g r a d i e n t i n f o r m a t i o n i s a v a i l a b l e f o r t h e area.
originating
immediate
The W a s h i n g t o n D i v i s i o n of Geology and E a r t h R e s o u r c e s G e o t h e r m a l A s s e s s m e n t
Project will d r i l l
s e v e r a l h e a t - f l o w h o l e s a l o n g t h e White P a s s highway between
Cascade C r e s t and Yakima V a l l e y d u r i n g f a l l 1 9 8 0 .
the
This w i l l probably include a
s i t e w i t h i n a few m i l e s of Goose Egg Soda S p r i n g , n e a r Goose Egg M o u n t a i n .
Comments: A v e r y o l d r e p o r t by F . G. Plummer, 1900, (USGS 2 1 s t Annual R e p o r t , p t . 5 ) ment i o n s a hot spring In t h i s r e g i o n .
The s p r i n g , whose t e m p e r a t u r e was r e p o r t e d
to be
a b o u t 100°F, was l o c a t e d s o u t h of the T i e t o n R i v e r , i n s e c . 3 4 , T. 14 N . , R. 14 E. F o r e s t Rangers f a m i l i a r with the r e g i o n r e p o r t s p r i n g s in the
t h e y have n e v e r found any t h e r m a l
vicinity.
There a r e s e v e r a l c o l d - w a t e r soda s p r i n g s t h r o u g h o u t t h e s o u t h e a s t and C a s c a d e s , many i n c l o s e p r o x i m i t y t o a r e a s of Q u a t e r n a r y v o l c a n i c s . of t h e s e s p r i n g s y s t e m s w i l l be d i f f i c u l t u n t i l e a c h of them.
Interpretation
f u r t h e r information i s gathered
T h e i r o r i g i n may or may n o t be t i e d t o t h e r m a l s y s t e m s a t d e p t h ,
the s p r i n g s could have a g r e a t e r p o t e n t i a l peratures
central
suggest.
than t h e i r discouraging s u r f a c e
tem-
on and
L e s t e r Hot S p r i n g s King County T. 20 N . , R. 10 E . , S e c . 21 G r e e n w a t e r 1956, 15' USGS Quad.
The s p r i n g s a r e l o c a t e d a l o n g Green R i v e r Road (Road Number 2 1 2 ) a b o u t 25 m i l e s e a s t of Palmer J u n c t i o n , 2 m i l e s west of L e s t e r , and a b o u t 13 m i l e s west of Stampede Pass.
The s p r i n g s f l o w from t h e h i l l s i d e above t h e r i v e r ( n o r t h s i d e ) ,
the road.
just
below
In 1900, t h e Green R i v e r Hot S p r i n g s H o t e l and s a n i t a r i u m were b u i l t
t h e f l a t f i e l d which l i e s between t h e r a i l r o a d t r a c k s and t h e r i v e r bank, the hot s p r i n g s .
opposite
T h i s grew i n t o a p r o m i n e n t r e s o r t , b u t was abandoned and
sometime b e f o r e 1935.
on
destroyed
The l a n d i s p r e s e n t l y p a r t of t h e C i t y of Tacoma W a t e r s h e d .
Geothermal F e a t u r e s A s u r v e y and s a m p l i n g t r i p t o L e s t e r Hot S p r i n g s was c o n d u c t e d i n August 1979. R e s u l t s of a n a l y s e s a r e p r e s e n t e d i n t a b l e 4 . 2 .
The main s p r i n g
(LSA) f l o w s a t a b o u t
20 gpm, 4 8 . 4 ° C , from a cave which r u n s back 3 t o 4 m e t e r s i n t o t h e h i l l s i d e .
The
c a v e is a b o u t 1-1/2 m e t e r s h i g h and c o n t a i n s w a t e r a b o u t 3 / 4 m e t e r s d e e p , dammed by a p i l e of r o c k s and a s h e e t of p l a s t i c j u s t beyond t h e mouth of t h e c a v e .
The w a t e r
f l o w s from a h o l e r o u g h l y 8 cm i n d i a m e t e r n e a r t h e back c o r n e r of t h e c a v e ' s forming a small w a t e r f a l l .
The roof of t h e cave is c o v e r e d by w h i t e
s a l t s and s e v e r a l 2 t o 5 cm s t a l a c t i t e s .
roof,
crystalline
The w a t e r was v e r y c l e a r , w i t h a c o n d u c -
t i v i t y of 520 umhos/cm and pH of 7 . 6 ( s e e a n a l y s i s f o r sample LSA-1). About 6 m e t e r s a l o n g t h e t r a i l i m m e d i a t e l y west of t h e c a v e , a s m a l l e r (LSB) f l o w s a t a b o u t 4 t o 5 gpm.
spring
I t s t e m p e r a t u r e was measured a t 4 4 . 5 ° C i n August
1979. S p r i n g LSC i s l o c a t e d and s l i g h t l y d o w n s l o p e .
I m m e d i a t e l y e a s t of t h e c a v e , a b o u t 3 m e t e r s o f f
the
A moderate s i z e d o r i f i c e with s e v e r a l smaller seeps
a f l o w of a b o u t 5 t o 10 gpm of 4 8 . 4 ° C w a t e r . t h e r i v e r , a b o u t 10 v e r t i c a l m e t e r s
below.
trail
produce
The w a t e r f l o w s d i r e c t l y downslope
to
LSD e n c o m p a s s e s many s m a l l a r e a s of s e e p s w i t h t e m p e r a t u r e s r a n g i n g up t o 45°C w i t h a combined f l o w of a b o u t 5 gpm.
The a r e a i s l o c a t e d a t a b o u t t h e same l e v e l on
t h e h i l l s i d e a s t h e c a v e , and e x t e n d s f o r a b o u t 6 m e t e r s e a s t of t h e
cave.
LSE has s e v e r a l h o t s p r i n g s f l o w i n g d i r e c t l y o u t of t h e b e d r o c k f r a c t u r e s on a s t e e p s l o p e a b o u t 3 m e t e r s above t h e r i v e r .
These s p r i n g s l i e w e s t of t h e main
a r e a , on t h e f a r s i d e of a c r e e k d r a i n a g e , and a r e e a s i l y found by w a l k i n g a l o n g r i v e r a t low w a t e r . highest
The t o t a l f l o w was e s t i m a t e d
t o be a b o u t 10 gpm, w i t h
the
the
t e m p e r a t u r e r e a c h i n g 45°C ( s e e a n a l y s i s f o r L S E - 1 ) .
F o l l o w i n g t h e c r e e k d r a i n a g e u p s l o p e f r o m a r e a E, a n o t h e r s p r i n g i s found a b o u t 2 / 3 of t h e way t o t h e r o a d .
The p a t h from t h e road p a s s e s v e r y c l o s e t o
l o c a t i o n , and game t r a i l s l e a d d i r e c t l y to the s p r i n g .
this
Water f l o w s a t a b o u t 5 gpm
f r o m under a l a r g e b o u l d e r i n t h e d r a i n a g e a t 45°C ( s e e a n a l y s i s f o r L S F - 1 ) . R e s i d e n t s from t h e town of L e s t e r have i n d i c a t e d
t h a t s e v e r a l a r e a s i n t h e meadow
a c r o s s t h e r i v e r from t h e main s p r i n g s ( a t t h e s i t e of t h e o l d r e s o r t ) r e m a i n snow f r e e in t h e w i n t e r .
These a r e a s a r e rumored t o be b u r i e d h o t s p r i n g s .
The most
p r o m i n e n t a r e a i s l o c a t e d on t h e e x t r e m e e a s t end of t h e meadow. L e s t e r Hot S p r i n g s w a t e r s a r e r e l a t i v e l y low in t o t a l d i s s o l v e d s o l i d s d e t e r m i n e d by c o n d u c t i v i t y ) , w i t h
l i n i t y and S O 4 ( - 2 ) . and Mg. Li/Na
Cl-
dominating the a n i o n s ,
(as
and r e l a t i v e l y low a l k a -
The K/Na r a t i o i s f a i r l y low, as a r e t h e c o n c e n t r a t i o n s of Ca
A s i g n i f i c a n t L i c o n c e n t r a t i o n was d e t e c t e d ,
r e s u l t i n g in a r e l a t i v e l y
ratio.
The S i - Q u a r t z and Na-K-Ca g e o t h e r m o m e t e r s p r e d i c t o n l y m o d e r a t e temperatures,
b u t do d e m o n s t r a t e f a i r l y good a g r e e m e n t .
reservoir
high
Geology P . E. Hammond (1963) p r o v i d e s a g e o l o g i c map f o r t h i s r e g i o n i n t h e Cascades.
west-central
The a l l u v i a l - f i l l e d v a l l e y c u t s t h e H u c k l e b e r r y Mountain F o r m a t i o n of
K e e c h e l u s V o l c a n i c Group (Ohanapecosh F o r m a t i o n ) ( O l i g o c e n e ) .
The h o t s p r i n g s
the
are
l o c a t e d on t h e c o n t a c t of a T e r t i a r y i n t r u s i v e which forms t h e m o u n t a i n t o the n o r t h . The m a t e r i a l i s h o r n b l e n d e d a c i t e p o r p h y r y of l a t e Miocene or P l i o c e n e a g e .
About 1/4
m i l e w e s t , on t h e n o r t h s i d e of t h e r i v e r , a s m a l l e r i n t r u s i v e h a s been mapped by Hammond, c o n s i s t i n g of p y r o x e n e - h o r n b l e n d e a n d e s i t e b e l i e v e d to be e a r l y Miocene. The c l o s e s t exposed Q u a t e r n a r y v o l c a n i c s a r e found a b o u t 10 m i l e s s o u t h of the on D a l l e R i d g e . a r e a or the
area,
No h e a t f l o w or measured t e m p e r a t u r e g r a d i e n t s a r e a v a i l a b l e f o r
the
region.
Comments: The good agreement between S i - Q u a r t z and Na-K-Ca g e o t h e r m o m e t e r s s u g g e s t s v a l u e s r e p r e s e n t t h e a c t u a l r e s e r v o i r t e m p e r a t u r e , w i t h h e a t l o s s due t o and minimal mixing w i t h ground w a t e r .
these
conduction
However, i t h a s a l s o been s u g g e s t e d by o t h e r
g e o l o g i s t s working i n t h e a r e a t h a t t h e s p r i n g w a t e r s a r e r e - e q u i l i b r a t i n g w i t h b e d r o c k a n d / o r s u r f i c i a l d e b r i s and o b s e r v e d c h e m i s t r y may not r e p r e s e n t r e s e r v o i r e q u i l i b r i u m c h e m i s t r y (Dan V i c e , B u r l i n g t o n N o r t h e r n , communication,
1979).
personal
actual
the
Longmire M i n e r a l
Springs
P i e r c e County T. 15 N . , R. 8 E . , SEl/4 S e c . 29 Mt. R a i n i e r West, 1 9 7 1 , 7 . 5 ' USGS Quad.
Longmire M i n e r a l S p r i n g s a r e s c a t t e r e d Rainier within the National Park.
t h r o u g h o u t a meadow s o u t h w e s t of Mount
The a r e a i s r e a c h e d by f o l l o w i n g S t a t e Highway 706
f r o m E l b e , 6 m i l e s beyond t h e L o n g m i r e .
The meadow i s n o r t h of t h e r o a d , a c r o s s from
the National Park Headquarters,
s t o r e , and gas s t a t i o n .
a hotel,
Park s e r v i c e
per-
s o n n e l c o n d u c t g u i d e d walks t h r o u g h t h e meadow, w i t h an e m p h a s i s on b i o l o g i c a l a s p e c t s of the
area.
The s p r i n g s were d i s c o v e r e d i n 1883 by James L o n g m i r e . and s e v e r a l b a t h h o u s e s were a p o p u l a r a t t r a c t i o n , v a l u e of t h e m i n e r a l w a t e r s .
By t h e 1 8 9 0 ' s , a h o t e l
owing to t h e p r o c l a i m e d
The P a r k S e r v i c e h a s r e s t o r e d
the area to a n a t u r a l
s t a t e , and v e r y few s i g n s of t h i s d e v e l o p m e n t can be d e t e c t e d Geothermal
medicinal
today.
Features
On a s u r v e y i n g and s a m p l i n g t r i p i n J u l y 1979, t h e numerous t h e r m a l and m i n e r a l s p r i n g s a t Longmire were o b s e r v e d u s i n g H a r r y M. M a j o r s '
" S p r i n g s of L a s s e n and Mt.
R a i n i e r N a t i o n a l Parks" (1964, unpublished) as a g u i d e .
Using a numbering s y s t e m s e t
up i n 1919, an a t t e m p t was made t o l o c a t e each of t h e 50 l i s t e d
springs.
This goal
was soon abandoned b e c a u s e much of t h e marsh has been i n u n d a t e d o v e r t h e l a s t d e c a d e s by i n c r e a s e d b e a v e r a c t i v i t y . ponds.
two
The e n t i r e upper marsh is now c o v e r e d by
Gas b u b b l i n g and i r o n s t a i n i n g c o n t i n u e s in t h e s e a r e a s but w a t e r s a m p l i n g
extremely
is
difficult.
Many of t h e s p r i n g s i n t h e s o u t h e a s t b u b b l e , b u t do n o t seem t o be f l o w i n g .
c o r n e r of t h e meadow a r e s m a l l p o o l s which Some a r e c o m p l e t e l y d r i e d u p , b u t commence to
f l o w a g a i n i n t h e l a t e f a l l , a c c o r d i n g t o park
rangers.
Springs 1, l a , several air
and 2 a r e f i l l e d
in.
The a r e a a r o u n d s p r i n g s 3 t h r o u g h 11 h a s
small bubbling springs with temperatures
t e m p e r a t u r e was 2 7 ° C , on a p a r t l y c l o u d y
ranging from 21.5°C to 25°C.
(The
day).
S p r i n g s 1 3 , 1 4 , and 15 f o r m s m a l l p o o l s w i t h t e m p e r a t u r e s a r o u n d 2 5 . 1 ° C , 6.2,
and c o n d u c t i v i t y
of 6550 u m h o s / c m .
Marsh S p r i n g o r Rim S p r i n g
A s a m p l e was c o l l e c t e d
(see analysis
f o r LMC i n t a b l e
S p r i n g s 16 t h r o u g h 18 had t e m p e r a t u r e s 5070 umhos/cm t o 5400 u m h o s / c m . with a conductivity
S p r i n g 16,
of
t h e meadow.
springs,
Its
4.2).
f o r LMA i n t a b l e
1 1 . 2 ° C w i t h a pH of 5 . 8 and c o n d u c t i v i t y
t o be 5 . 2
(see
of 1 o r 2 gpm.
is
Several
but
fir
of 1 , 9 2 0 u m h o s / c m .
tree.
cabin).
per minute
(see analysis
S p r i n g 4 7 , known a s L i t t l e
t h e v a l u e s were v e r y s i m i l a r
for
at
sample
flowing
I r o n Mike,
information for this
t o t h o s e of I r o n Mike s p r i n g .
flows
spring A partial
f o u n d i n t a b l e 4 . 2 u n d e r LME. s m a l l warm s p r i n g s w i t h m o d e r a t e f l o w s a r e f o u n d a r o u n d
p o o l s which form h o l e s were 2 4 . 1 ° , 2 6 . 7 ° ,
tial
water a few g a l l o n s
T e m p e r a t u r e and c o n d u c t i v i t y
a t u f a p l a t f o r m in the northwest
terrace,
analysis
s p r i n g was f o u n d b e l o w t h e p a t h a c r o s s f r o m t h e c a b i n
f r o m n e a r t h e b a s e of a l a r g e
analysis
other
4.2).
A smaller iron-soda
were l o s t ,
t h e edge
4.3).
The s p r i n g , known a s I r o n M i k e , f l o w s i r o n - s t a i n e d
a rate
22.0°C
a r e s i g n i f i c a n t l y lower than
S p r i n g 46 f l o w s f r o m a s t o n e c i s t e r n n e a r an o l d l o g c a b i n ( h o m e s t e a d
at
of
4.2).
b u b b l e s and f l o w s f r o m a s t o n e b a s i n a t
a t 1 3 . 3 ° C and 600 u m h o s / c m , and t h e pH was m e a s u r e d
LMD i n t a b l e
called
c a l l e d P o s t S p r i n g , was s a m p l e d a t
t e m p e r a t u r e and c o n d u c t i v i t y
f o r LUM i n t a b l e s 4 . 2 and
a t s p r i n g 15,
f r o m 22°C t o 2 6 ° C , w i t h a c o n d u c t i v i t y
of 5 , 4 0 0 umhos/cm ( s e e a n a l y s i s
S p r i n g 1 9 , c a l l e d Soda S p r i n g ,
pH of
in the
28.3°,
c o r n e r of
terrace.
and 2 9 . 2 ° C .
flowed a t 23.1° t o 26.2°C.
analysis
is presented
in table
t h e meadow.
Various
No. 2 6 ,
Sample LMG was c o l l e c t e d 4.2.
Terrace,
They f l o w f r o m a l g a e
temperatures
Ledge S p r i n g ,
the Iron
measured
in
these
filled pools
on t h e e a s t e r n edge of in the a r e a ,
and a
the
par-
Sand S p r i n g ,
t h e s p r i n g which p r e v i o u s l y had been measured to be t h e warmest
L o n g m i r e , r e p o r t e d l y 4° t o 5°C warmer t h a n s p r i n g s i n t h e s o u t h e a s t c o r n e r of m a r s h , was l o c a t e d on t h e n o r t h e a s t latest
trip,
beaver
activity.
s i d e of t h e I r o n T e r r a c e i n t h e 1 9 6 0 ! s .
t h e s p r i n g c o u l d n o t be d i s c e r n e d ,
the On t h i s
p r o b a b l y b e c a u s e of f l o o d i n g due t o
At t r a i l marker No. 1 6 , s p r i n g s 29 and 30 were found a l o n g w i t h s e v e r a l s p r i n g s f l o w i n g 5 t o 8 gpm a t 1 9 . 1 ° C , and b u i l d i n g up a new i r o n - s t a i n e d terrace.
at
newer
tufa
Pronounced b u b b l i n g o c c u r s i n t h e main p o o l n e x t t o t h e b o a r d w a l k .
This
s p r i n g , c a l l e d M e d i c i n e S p r i n g , had a c o n d u c t i v i t y of 6 , 0 0 0 umhos/cm and a pH of
6.6.
An a n a l y s i s of t h e s e w a t e r s i s found i n t a b l e 4 . 2 a s LMF. A n a l y s e s of w a t e r s c o l l e c t e d a t Longmire show l a r g e v a r i a t i o n s between v a r i o u s s p r i n g s in the a r e a . m i x i n g w i t h c o l d e r ground
the
P a r t of t h e v a r i a t i o n can be e x p l a i n e d by t h e d e g r e e of
water.
The f o l l o w i n g t a b l e summarizes some of t h e g e o c h e m i c a l i n f o r m a t i o n on t h e s p r i n g s sampled i n 1979. table
4.2.
A more c o m p l e t e a n a l y s i s of t h e s e w a t e r s
is presented
in
Geology
The s p r i n g s a t Longmire a r e l o c a t e d o n l y 8 m i l e s from t h e c r e s t of s t r a t o v o l c a n o Mount R a i n i e r , and a b o u t 2 m i l e s from t h e b a s e . t h e g e o l o g y of t h e p a r k a r e a i s p r o v i d e d by F i s k e and o t h e r s Longmire Meadow i s a l a r g e a l l u v i a l
flat situated
of t h e g l a c i a t e d v a l l e y of the N i s q u a l l y R i v e r . t h e Ohanapecosh F o r m a t i o n .
the
A detailed
s t u d y of
(1963).
in a s l i g h t l y elevated
The b e d r o c k i s Eocene v o l c a n i c s of
Rampart Ridge i m m e d i a t e l y n o r t h and west of t h e meadow
r e p r e s e n t s a Q u a t e r n a r y h y p e r s t h e n e - a u g i t e a n d e s i t e f l o w from Mount R a i n i e r and o t h e r s ,
portion
(Fiske
1963).
Several intrusives
i n v a d e t h e r o c k s of t h e Ohanapecosh and S t e v e n s
F o r m a t i o n s i n t h i s a r e a of the p a r k . d i a t e l y n o r t h of t h e meadow. s o u t h e a s t of t h e a r e a .
Ridge
Three s i l l s of d i a b a s e and b a s a l t o u t c r o p imme-
S e v e r a l l a r g e r s i l l s a r e found about 1 m i l e e a s t
These s i l l s a r e c o n s i d e r e d t o be p r e - T a t o o s h I n t r u s i v e
O l i g o c e n e t o Miocene i n a g e .
( F i s k e and o t h e r s ,
I n t h e same a r e a n o r t h of t h e s e s i l l s ,
rocks,
1963).
s e v e r a l d i o r i t e and q u a r t z d i o r i t e
s i v e s a s s o c i a t e d w i t h the. T a t o o s h P l u t o n a r e mapped by F i s k e and o t h e r s , r o c k s a r e of Miocene t o P l i o c e n e
to
intru-
1963.
These
age.
The c l o s e s t Q u a t e r n a r y v o l c a n i c c e n t e r s a r e t h e c r a t e r s and p l u g s a t o p Mount Rainier. During t h e summer of 1979, a h e a t f l o w h o l e was d r i l l e d R i v e r , a b o u t 2-1/4 m i l e s s o u t h w e s t of L o n g m i r e .
s o u t h of t h e N i s q u a l l y
The 1 0 0 - m e t e r - d e e p h o l e had a bottom
h o l e t e m p e r a t u r e of o n l y 8 . 5 ° C , but t h e t e m p e r a t u r e change measured over t h e bottom 20 m e t e r s i n d i c a t e d a t e m p e r a t u r e g r a d i e n t of 69°C/km, w e l l above t h e
regional
g r a d i e n t s which r a n g e from 45° t o 55°C/km, b u t t h i s might not be a t r u e gradient.
equilibrium
Comments: The s p r i n g s a t Longmire p r o b a b l y r e p r e s e n t h o t , h i g h s a l i n i t y w a t e r s l e a k i n g from a h y d r o t h e r m a l s y s t e m a s s o c i a t e d w i t h Mount R a i n i e r ' s v o l c a n i c s y s t e m , which m i x i n g w i t h c o l d ground w a t e r n e a r t h e s u r f a c e . quite high. this
The r e l a t i v e l y h i g h c o n c e n t r a t i o n s
are
The r e s e r v o i r t e m p e r a t u r e s might be of c a l c i u m and magnesium c o m p l i c a t e
interpretation. Because Longmire i s ( w i t h i n ) a N a t i o n a l P a r k , any f u r t h e r
h a v e t o be c o n s i d e r e d a s a c a d e m i c s t u d i e s
r a t h e r than d i r e c t
investigations commercial
exploration.
Reference
T a b o r , R. W.; W a i t e , R. B . , J r . ;
F r i z z e l l , V. A . , J r . ;
Swanson, D. A . ;
B y e r l y , G. R . , 1977, P r e l i m i n a r y map of Wenatchee 1 : 1 0 0 , 0 0 0 q u a d r a n g l e , Washington:
U.S. G e o l o g i c a l Survey Open-File Report
77-531.
will
M e d i c i n e Creek M i n e r a l
Spring
K i t t i t a s County T. 21 N . , R. 17 E . , SE1/4SW1/4 S e c . 22 L i b e r t y 1961, 15' USGS Quad. T h i s c o l d m i n e r a l s p r i n g i s r e a c h e d by t a k i n g S t a t e Route 97 f r o m Cle Elum n o r t h t o M i n e r a l S p r i n g s R e s o r t , l o c a t e d a l o n g Swauk C r e e k , a few m i l e s s o u t h of and Swauk P a s s e s .
The s p r i n g i s found a l o n g a s h o r t d i r t p a t h which f o l l o w s Mineral
Creek west from t h e campground. of t h e Wenatchee N a t i o n a l
Geothermal
Blewett
The a r e a I s p a r t of t h e E l l e n s b u r g Ranger D i s t r i c t
Forest.
Features
T h i s s p r i n g h a s a v e r y c o l d , f e e b l e f l o w of m i n e r a l w a t e r , e m i t t i n g a b o u t 1 t o 2 gpm from a packed d i r t bank on t h e n o r t h s i d e of t h e c r e e k .
There i s a s l i g h t
H 2 S o d o r p r e s e n t , and w h i t e f i l a m e n t o u s b a c t e r i a grow a l o n g s i d e t h e s m a l l pool formed by t h e s p r i n g .
A s m a l l c o n c r e t e c i s t e r n was dug o u t from around t h e s p r i n g i n 1979.
D u r i n g a s a m p l i n g t r i p i n September 1979, t h e w a t e r was measured a t 8 . 7 ° C w i t h a c o n d u c t i v i t y of 300 umhos/cm and pH of 7 . 4 .
A p a r t i a l a n a l y s i s of t h e s e w a t e r s
is
f o u n d i n t a b l e 4 . 2 , u n d e r MCA.
Geology The s p r i n g i s l o c a t e d i n an a r e a u n d e r l a i n by t h e Swauk F o r m a t i o n , a lower Eocene c o n t i n e n t a l u n i t c o m p r i s i n g t h i n t o t h i c k l y bedded z e o l i t i c , m i c a c e o u s , l i t h o f e l d s p a t h i c s a n d s t o n e (Tabor and o t h e r , 1 9 7 7 ) . Eocene Teanaway B a s a l t ,
The c l o s e s t v o l c a n i c s a r e t h e lower to m i d d l e
found i n a broad band 3 m i l e s west of t h e s p r i n g .
b a s a l t s a r e c u t by r h y o l i t i c d i k e s of middle t o upper Eocene a g e .
The e n t i r e a r e a
u n d e r l a i n by t h e J u r a s s i c I n g a l l s complex, which i n c l u d e s u l t r a m a f i c s , massive s e r p e n t i n i t e s ,
and s e r p e n t i n i z e d
p e r i d o t i t e , and s i l i c a
sium c a r b o n a t e s d e r i v e d from a l t e r a t i o n of s e r p e n t i n i t e s
The is
foliated
c a r b o n a t e s and magne-
( T a b o r and o t h e r s ,
1977).
Comments:
,
Not enough i n f o r m a t i o n i s a v a i l a b l e t o a p p l y g e o t h e r m o m e t e r s .
Further
chemical
a n a l y s i s i s needed t o b e t t e r u n d e r s t a n d t h i s s y s t e m , b u t t h e v e r y low f l o w , temperatures,
low c o n d u c t i v i t y ( c o n s e q u e n t
cold
low t o t a l d i s s o l v e d s o l i d s ) and t h e
and r e g i o n a l g e o l o g y v i r t u a l l y remove t h i s a r e a f r o m g e o t h e r m a l
local
consideration.
Reference
T a b o r , R. W.; W a i t e , R. B . , J r . ;
F r i z z e l l , V. A . , J r . ;
Swanson, D. A . ; B y e r l y , G. R . ,
1977, P r e l i m i n a r y map of Wenatchee 1 : 1 0 0 , 0 0 0 q u a d r a n g l e , W a s h i n g t o n : G e o l o g i c a l Survey Open-File Report
77-531.
U.S.
Ohanapecosh Hot S p r i n g s Lewis County T . 14 N., R. 10 E . , NWl/4 S e c . 4 Packwood 1962, 1 5 ' USGS Quad. Ohanapecosh Hot S p r i n g s a r e l o c a t e d w i t h i n t h e s o u t h e a s t s e c t i o n of Mount R a i n i e r N a t i o n a l P a r k a l o n g t h e Ohanapecosh R i v e r .
The campground i s l o c a t e d a b o u t 12 m i l e s
n o r t h of Packwood, 4 m i l e s n o r t h of U . S . Route 12 on S t a t e Route 123, and about m i l e s beyond t h e p a r k b o u n d a r y . the 1 9 2 0 ' s .
A s m a l l h e a l t h r e s o r t was o p e r a t i n g i n t h i s a r e a
to a natural s t a t e ,
The N a t i o n a l P a r k S e r v i c e h a s r e s t o r e d
e x c e p t f o r a s e l f - g u i d e d n a t u r e t r a i l which c i r c l e s
the area
the hot
area.
Geothermal F e a t u r e s
,
Ohanapecosh i s a complex s y s t e m of warm t o h o t s p r i n g s , w i t h a t o t a l e s t i m a t e d t o be 100 t o 120 l i t e r s
per m i n u t e .
flow
The s p r i n g s a r e s c a t t e r e d over an
a r e a of a b o u t 40 a c r e s between t h e Ohanapecosh R i v e r on t h e west and a r i d g e to east.
in
By t h e 1 9 4 0 ' s i t had grown t o i n c l u d e a l o d g e , b a t h h o u s e , and 30 c a b i n s ,
b u t t h e r e s o r t c l o s e d down i n 1961.
springs
1.5
the
The v e g e t a t i v e c o v e r t h r o u g h o u t t h e r e g i o n i s v e r y t h i c k and may c o n c e a l
additional
springs.
During two t r i p s i n J u l y and August 1979, t h e f o l l o w i n g i n f o r m a t i o n and w a t e r s a m p l e s were c o l l e c t e d .
By f o l l o w i n g t h e e s t a b l i s h e d n a t u r e t r a i l
w i s e ( o p p o s i t e of t h e recommended r o u t e i n t h e t r a i l
pamphlet),
loop
counterclock-
t h e f i r s t group of
s p r i n g s was found j u s t e a s t of t h e p a t h , p a r t way up a s l o p e , (Area A ) .
Several
s m a l l o r i f i c e s , p r o d u c i n g a t o t a l f l o w of 5 t o 10 gpm of 39.5°C w a t e r , have b u i l t a t e r r a c e of i r o n - s t a i n e d
tufa.
A m o d e r a t e H 2 S o d o r was d e t e c t e d , and t h e w a t e r was
measured to have a c o n d u c t i v i t y of 4 , 4 0 0 umhos/cm. point.
up
Sample OHA was c o l l e c t e d a t
this
I m m e d i a t e l y n o r t h a l o n g t h e p a t h , a second g r o u p of s p r i n g s was f l o w i n g w i t h a t o t a l p r o d u c t i o n of a b o u t 566 gpm w i t h an a v e r a g e c o n d u c t i v i t y of 4 , 5 0 0 umhos/cm, (area B). across,
W i t h i n t h e p o o l formed by t h e s p r i n g s , m e a s u r i n g r o u g h l y 2 t o 3 m e t e r s
t h r e e s e p a r a t e s p r i n g s were b u b b l i n g away, a b o u t 3 / 4 m e t e r s a p a r t ,
t e m p e r a t u r e s of 4 5 . 6 ° and 4 5 . 2 ° C ( f r o m w e s t to e a s t ) . f r o m above t h e warmest
with
Sample OHB was c o l l e c t e d
spring.
Next t o a r e a B, t o t h e n o r t h , a p o o l w i t h a d i a m e t e r of about 1 m e t e r was f i l l e d w i t h a l g a e and s u r r o u n d e d by t r e e r o o t s ( a r e a C ) . f l o w of 3 gpm was d r a i n i n g t h e p o o l .
No b u b b l i n g was o b s e r v e d but a
Sample OHC was c o l l e c t e d d i r e c t l y from t h e
p o o l , where a t e m p e r a t u r e of 4 3 . 6 ° C was m e a s u r e d . About 8 m e t e r s f a r t h e r n o r t h , a t o t a l f l o w of 15 t o 20 gpm.
t h e main s p r i n g s form a s e r i e s of p o o l s ,
producing
B u b b l i n g o c c u r r e d a t s e v e r a l p o i n t s a l o n g t h e sandy
b o t t o m of t h e p o o l , and a m o d e r a t e l y s t r o n g H 2 S o d o r was d e t e c t e d .
The maximum
t e m p e r a t u r e r e c o r d e d was 5 0 . 1 ° C , b u t a r e l i a b l e c o n d u c t i v i t y c o u l d n o t be measured b e c a u s e of t h e t e m p e r a t u r e l i m i t a t i o n s
of t h e p o r t a b l e c o n d u c t i v i t y m e t e r . .
Area E was found s e v e r a l m e t e r s f a r t h e r up t h e t r a i l
j u s t e a s t of t h e p a t h .
Warm
i r o n - s t a i n e d w a t e r was s l o w l y s e e p i n g o u t from two s m a l l s e e p s i n a s h a l l o w e r o s i o n c h a n n e l , d r a i n i n g i n t o a s m a l l c r e e k formed by a n e a r b y c o l d s p r i n g . s e e p s had t e m p e r a t u r e s of 3 6 . 2 ° C and 3 7 . 1 ° C . b u t had been r e d u c e d to a t r i c k l e
The f l o w in J u l y 1979 was a b o u t 1/2 gpm,
by A u g u s t .
Area F i s west of t h e main s p r i n g a r e a , where t h e t r a i l t h e camping a r e a .
The two warm
l o o p s around back t o w a r d s
A l a r g e t u f a t e r r a c e h a s been b u i l t u p , o v e r which f l o w s h o t
f r o m t h e main s p r i n g s of a r e a s A, B, C and D. d i s t a n c e of a b o u t 4 t o 5 m e t e r s ,
water
The c a s c a d i n g w a t e r s f a l l a v e r t i c a l
t h e n s p r e a d o u t i n t o a marshy a r e a b e l o w .
addition,
s e v e r a l s m a l l s p r i n g s f l o w d i r e c t l y out of t h e t u f a t e r r a c e ,
measuring
44.3°C.
In
t h e warmest
Near t h e t o p of t h e l a r g e t u f a t e r r a c e , 4 7 . 8 ° C w a t e r was f l o w i n g o u t of a c r u s t e d o v e r p i p e a t a b o u t 5 t o 8 gpm.
Sample OHG was c o l l e c t e d
d i r e c t l y from t h e
pipe.
On t h e f a r n o r t h w e s t c o r n e r of t h e campground, a b o u t 1/4 km from t h e o t h e r a s m a l l warm s p r i n g was f o u n d , which measured a b o u t 1/2 m e t e r i n d i a m e t e r .
springs,
The pool
had a maximum t e m p e r a t u r e of 3 0 . 6 ° C n e a r i t s n o r t h e r n s i d e , where b u b b l e s were p e r i o d i c a l l y produced.
Sample OHH was c o l l e c t e d from t h e p o o l .
surround the a r e a , suggesting t h a t spring a c t i v i t y
S e v e r a l old t u f a s
i n t h e a r e a was a t one time much
greater. The t a b l e below summarizes some of t h e d a t a c o l l e c t e d f o r t h e Ohanapecosh Hot S p r i n g s and t h e r e s u l t s of g e o t h e r m o m e t e r s
applied.
B e s i d e s t h e r e l a t i v e l y h i g h s i l i c a and p o t a s s i u m c o n t e n t , in lithium,
producing a high lithium/sodium
t h e w a t e r s were
rich
ratio.
Geology A d e t a i l e d s t u d y of t h e g e o l o g y of Mount R a i n i e r N a t i o n a l P a r k i s p r o v i d e d by F i s k e and o t h e r s ( 1 9 6 3 ) . Ohanapecosh f o r m a t i o n .
The s p r i n g s f l o w from O l i g o c e n e - E o c e n e v o l c a n i c s of S e v e r a l d i o r i t e s i l l s and d i k e s of t h e
the
Miocene-Pliocene
T a t o o s h p l u t o n o u t c r o p w i t h i n a few m i l e s s u r r o u n d i n g t h e s p r i n g s .
The Q u a t e r n a r y
v e n t s a t t h e c r e s t of Mount R a i n i e r a r e a b o u t 12 m i l e s away, but a n d e s i t e f l o w s from
t h e s e v e n t s e x t e n d t o w i t h i n 5 m i l e s of t h e a r e a .
No s i g n i f i c a n t s t r u c t u r a l
features
have been mapped i n t h e immediate v i c i n i t y of t h e s p r i n g s , b u t t h i s may be due t o heavy v e g e t a t i v e
the
cover.
A h e a t f l o w h o l e was d r i l l e d i n 1979 w i t h i n t h e Ohanapecosh R i v e r v a l l e y , s o u t h of t h e p a r k boundary and a b o u t 1 . 5 m i l e s s o u t h - s o u t h w e s t from t h e
just
springs.
The h o l e , completed t o a d e p t h of 115 m e t e r s , had a bottom h o l e t e m p e r a t u r e of and a g r a d i e n t of 4 6 . 5 ° C / k m .
T h i s i s t h o u g h t to r e p r e s e n t t h e r e g i o n a l
g r a d i e n t and t h e r e f o r e showed no anomalous
11.1°C
temperature
conditions.
Comments : Because of i t s p r o x i m i t y t o Mount R a i n i e r , h i g h l i t h i u m c o n t e n t , and h i g h geothermometer r e s u l t s ,
i t i s s u s p e c t e d t h a t Ohanapecosh Hot S p r i n g s a r e
r e l a t e d t o t h e t h e r m a l s y s t e m of t h e s t r a t o v o l c a n o .
The wide range i n
directly
temperatures
and s a l i n i t i e s o b s e r v e d from s p r i n g t o s p r i n g w i t h i n t h e s p r i n g s y s t e m s u g g e s t s mixing with cold water i s t a k i n g p l a c e , probably very close to the s u r f a c e .
that
The
v a l u e s do not f a l l a l o n g a s i m p l e mixing l i n e when t e m p e r a t u r e i s p l o t t e d a g a i n s t v a r i o u s chemical s p e c i e s ,
s u g g e s t i n g t h a t t h e r e may be s i g n i f i c a n t c o n d u c t i v e
l o s s a n d / o r t h e mixing i s v e r y complex.
heat
the
O r r Creek Warm S p r i n g s Skamania County T . 10 N . , R. 10 E . , NEl/4 S e c . 19 Green Mountain 1970, 71/2' USGS Quad. About 11 m i l e s n o r t h w e s t of t h e summit of Mount Adams, s m a l l warm s p r i n g s f l o w down t o Orr Creek from a c r e e k d r a i n a g e i n a l o g g i n g c l e a r c u t . l o c a t e d a b o u t 20 m i l e s s o u t h e a s t of R a n d l e , a b o u t 28 m i l e s by r o a d .
This area
is
I t i s found by
f o l l o w i n g F o r e s t Road 123 s o u t h from Randle to Road 101, which c r o s s e s t h e Cispus R i v e r and Orr C r e e k .
About 2 . 5 m i l e s e a s t and n o r t h on t h i s r o a d , Road 101 t u r n s
t o t h e s o u t h e a s t and c r o s s e s Orr Creek a g a i n . c r e e k , a t i m b e r s a l e a c c e s s road t a k e s o f f
S e v e r a l hundred y a r d s beyond
to t h e s o u t h w e s t .
T h i s road i s
f o r a b o u t 1 / 3 m i l e t h r o u g h a f i r s t c u t (which h a s been growing back f o r y e a r s ) and i n t o a second newer c l e a r c u t .
a c r o s s f i e l d cut to the
Geothermal
the followed
several
The s p r i n g i s found on t h e f a r west
of t h e c u t , a b o u t 1/2 of t h e way down t h e c l e a r e d s l o p e .
off
S e v e r a l game t r a i l s
side
lead
spring.
Features
The main s p r i n g f l o w s from u n d e r some l a r g e o v e r t u r n e d d e p r e s s i o n which forms a d r a i n a g e f o r t h e upper s l o p e . disturbed during logging o p e r a t i o n s .
stumps i n a s h a l l o w
The a r e a was o b v i o u s l y
During an August 1979 s a m p l i n g t r i p ,
the
spring
was p r o d u c i n g 21.8°C w a t e r a t 20 t o 30 gpm w i t h a c o n d u c t i v i t y of 175 umhos/cm ( s e e OCA-l i n t a b l e 4 . 2 f o r a c o m p l e t e a n a l y s i s of t h e w a t e r ) . was d e t e c t e d , and w h i t e f i l a m e n t o u s b a c t e r i a o b s e r v e d growing n e a r t h e
A s l i g h t H2S odor
(probably Sphaerotilus s p . ) ,
was
orifice.
T r e e s r e p l a n t e d i n t h e c l e a r c u t seem t o be growing much f a s t e r around t h e and i t s d r a i n a g e , i n a band r o u g h l y 7 m e t e r s w i d e . tial
spring
The f o r e s t e r who p r o v i d e d t h e
i n f o r m a t i o n on t h e r m a l w a t e r s i n t h e a r e a had c o n f i r m e d t h a t
warm y e a r r o u n d , p r o d u c i n g s n o w - f r e e ground d u r i n g t h e
winter.
the spring
ini-
remains
A q u i c k s u r v e y of t h e i m m e d i a t e a r e a showed a number of s m a l l warm s e e p s t h r o u g h o u t t h e a r e a , i n c l u d i n g a c o u p l e i n t h e woods i m m e d i a t e l y west of t h e C o n s i d e r i n g t h e r e l a t i v e l y warm t e m p e r a t u r e of t h i s s p r i n g ,
the t o t a l
area.
dissolved
s o l i d s , a s e s t i m a t e d by c o n d u c t i v i t y m e a s u r e m e n t s ,
i s q u i t e low.
low, w h i l e c a r b o n a t e and
The K/Na r a t i o i s h i g h , w h i l e Ca
Cl
dominate the a n i o n s .
and Mg c o n c e n t r a t i o n s a r e v e r y low.
Li c o u l d n o t be
The low c o n c e n t r a t i o n of SiO 2 r e s u l t s f o r the r e s e r v o i r , sharp contrast
i n a r e l a t i v e l y low t e m p e r a t u r e
mined by t h e Na-K-Ca
reservoir
extremely
detected.
a s d e t e r m i n e d by t h e S i - Q u a r t z g e o t h e r m o m e t e r
to the very high p r e d i c t e d
Sulfate is
(78° C ) .
predicted This i s
t e m p e r a t u r e of 231° C a s
in
deter-
geothermometer.
Geology The Orr Creek Warm S p r i n g s a r e a i s i n c l u d e d i n p r e l i m i n a r y g e o l o g i c maps of s o u t h Cascades by P . E. Hammond ( 1 9 7 3 , 1 9 7 5 ) .
The s p r i n g s f l o w from t h e lower
of Green M o u n t a i n , which i s mapped a s p a r t of t h e Eocene Ohanapecosh Green Mountain may be r e l a t e d by D. S. H a r l e ( 1 9 7 4 ) .
the slopes
Formation.
to t h e E a s t Canyon Ridge U n i t which h a s been d e s c r i b e d
The c l o s e s t Q u a t e r n a r y v o l c a n i c s a r e Mount Adams l a v a f l o w s
which c o v e r t h e v a l l e y f l o o r s of t h e C i s p u s R i v e r and O r r C r e e k .
About 5 t o 6 m i l e s
west of the s p r i n g s , Q u a t e r n a r y v o l c a n i c c e n t e r s a r e mapped on Spud H i l l and a t
the
j u n c t i o n of E a s t Canyon Creek w i t h t h e C i s p u s R i v e r .
the
springs,
s e v e r a l v e r y young v o l c a n i c c e n t e r s a r e mapped, i n c l u d i n g Two Lakes Volcano
( 3 0 , 0 0 0 y e a r s ) , Walupt Lake Volcano ( 1 5 , 0 0 0 y e a r s ) , miles east,
t h e P o t a t o H i l l Volcano ( 1 0 , 0 0 0 y e a r s
No h e a t f l o w or t e m p e r a t u r e g r a d i e n t region.
From 4 t o 6 m i l e s e a s t of
and t h e c l o s e s t c e n t e r , a b o u t 4 old).
i n f o r m a t i o n i s a v a i l a b l e f o r t h i s a r e a or
Comments: The p r o x i m i t y of t h i s s p r i n g s y s t e m to t h e l a t e Q u a t e r n a r y v o l c a n i c c e n t e r s
in
t h e r e g i o n s u g g e s t s t h e t h e r m a l w a t e r s may be d e r i v i n g t h e i r h e a t from magmatic sources.
The low t o t a l s a l t s and l a r g e d i s c r e p a n c y between t h e
geothermometers
s u g g e s t a h i g h d e g r e e of mixing w i t h ground w a t e r s i s o c c u r r i n g or t h e a q u i f e r b e i n g h e a t e d by c o n d u c t i v e h e a t t r a n s f e r . Li v a l u e s .
T h i s would e x p l a i n t h e low SiO 2 and
A more d e t a i l e d s u r v e y of t h e a r e a i s
recommended.
is
S o l Duc Hot S p r i n g s C l a l l a m County T . 29 N . , R 9 W., NWl/4 S e c . 32 B o g a c h i e l Peak 1950, 7-/2' USGS Quad. T h i s s p r i n g i s w i t h i n t h e Olympic N a t i o n a l P a r k , and i s l o c a t e d s o u t h w e s t of P o r t A n g e l e s on t h e n o r t h e r n m a r g i n of t h e Olympic M o u n t a i n s , a l o n g t h e Sol D u c R i v e r .
A l a r g e r e s o r t was b u i l t in 1912, c o n s i s t i n g of a 4 - s t o r y h o t e l , 3 - s t o r y 40 f e e t by 100 f e e t s a n a t o r i u m , 40 f e e t by 200 f e e t b a t h h o u s e , gymnasium, and smaller buildings.
A f i r e destroyed
1 9 2 0 ' s and 1 9 3 0 ' s , a l o d g e ,
the e n t i r e
resort
i n 1916.
several
During t h e
late
two p o o l s , and a b o u t 40 c a b i n s were c o n s t r u c t e d .
p r e s e n t - d a y f a c i l i t i e s i n c l u d e t h e newer m o t e l , h o t e l ,
p o o l s , s e v e r a l of t h e
and f a c i l i t i e s f o r camping and r e c r e a t i o n a l v e h i c l e p a r k i n g .
The cabins,
P l a n s to upgrade and
m o d e r n i z e t h e f a c i l i t i e s a r e now b e i n g c o n s i d e r e d by t h e N a t i o n a l P a r k
Service.
B l o o m q u i s t ( 1 9 7 9 ) p r o v i d e s a b a s e l i n e s t u d y of t h i s r e s o r t and i t s r e s o u r c e from t h e s t a n d p o i n t of g e o t h e r m a l d e v e l o p m e n t . geochemical, geological,
The s t u d y i n c l u d e s
land
classification;
and g e o p h y s i c a l d a t a s u m m a r i e s ; and d e t a i l s on development
status.
Geothermal
Features
The m a j o r s p r i n g s a t S o l Duc have been c a s e d o f f cisterns.
into concrete
Three c i s t e r n s a r e l o c a t e d a l o n g the west s i d e of t h e hot swimming pool
and a f o u r t h c o l l e c t s w a t e r s under t h e l o d g e b a s e m e n t . reports),
collecting
the southernmost
number 2 , t h e n o r t h e r n m o s t
By c o n v e n t i o n ( f r o m e a r l i e r
c i s t e r n i s i d e n t i f i e d a s number 1, t h e c e n t e r c i s t e r n i s number 3 , and t h e basement c i s t e r n i s number 4 .
C h e m i c a l a n a l y s e s d e t e r m i n e d f o r w a t e r s c o l l e c t e d from t h e s e c i s t e r n s are reported in table
in April,
1979,
4.2.
C i s t e r n 1 c o n s i s t s of a p i t e x c a v a t e d t o t h e e a s t w a r d s l o p i n g s u r f a c e of bedrock t h a t u n d e r l i e s
is
the a l l u v i a l g r a v e l
(K. L. W a l t e r s ,
1967, u n p u b l i s h e d
the report).
An e s t i m a t e d 20 gpm of 48°C w a t e r s e n t e r s from t h e s o u t h e a s t c o r n e r , a b o u t 20 gpm of 41°C e n t e r s from t h e s o u t h e a s t c o r n e r , and a b o u t 5 gpm of 31.5°C w a t e r f r o m a 4 - i n c h c o n c r e t e p i p e n e a r t h e c e n t e r base of t h e s o u t h w a l l .
discharges
An i r o n pipe
c o n n e c t s c i s t e r n 1 and 2 , p r o d u c i n g a f l o w of 2 gpm i n t o c i s t e r n 1 ( W a l t e r s , unpublished r e p o r t ) .
During an A p r i l s a m p l i n g t r i p ,
t h e c i s t e r n s were not
1969,
being
pumped, b u t were f l o w i n g a r t e s i a n and emptying i n t o a s t o r m d r a i n n o r t h of t h e
area.
The combined w a t e r s w i t h i n c i s t e r n 1 had a t e m p e r a t u r e of 40°C and c o n d u c t i v i t y of 345 umhos/cm ( s e e a n a l y s e s f o r sample SDC-1).
No o v e r f l o w d i s c h a r g e e x i s t s
for
t h i s c i s t e r n when n o t b e i n g pumped, s u g g e s t i n g h y d r o l o g i c e q u i l i b r i u m between s p r i n g i n f l o w and l e a k a g e t h r o u g h t h e w a l l s and a l o n g t h e bottom c o n t a c t of t h e C i s t e r n 2 i s s i m i l a r i n c o n s t r u c t i o n t o number 1 . e n t e r s t h e c i s t e r n from t h e n o r t h e a s t
cistern.
About 15 gpm of 48°C w a t e r
c o r n e r , and an a d d i t i o n a l 15 gpm of 48°C w a t e r
f l o w s from t h e r o c k n e a r t h e c e n t e r of t h e f l o o r ( W a l t e r s , 1969, u n p u b l i s h e d T h i s c i s t e r n i s f r e e of a pump, b u t h a s an o v e r f l o w p o r t a t t h e h i g h w a t e r which l e a d s t o c i s t e r n 3 .
report). line
I n A p r i l 1979 t h e s e w a t e r s were t h e c o l d e s t , a t 34°C,
but
had t h e h i g h e s t c o n d u c t i v i t y a t 355 umhos/cm ( s e e a n a l y s e s f o r sample SDA-1). C i s t e r n 3 , s i m i l a r t o number 2 , can be pumped a t a s u s t a i n e d pumping r a t e of 40 gpm a t 50°C w i t h o u t a drawdown.
The t e m p e r a t u r e i n A p r i l 1979 was a l s o 50°C,
with
a c o n d u c t i v i t y of 342 umhos/cm ( s e e a n a l y s e s f o r SDB-1). C i s t e r n 4 i s l o c a t e d below t h e basement f l o o r of t e m p e r a t u r e between 42°C and 44°C a r e r e p o r t e d pipe in the south w a l l .
the l o d g e .
Waters r a n g i n g
to f l o w i n t o t h i s c i s t e r n from a
T h i s may r e p r e s e n t a c o m b i n a t i o n of w a t e r s s e e p i n g from
u n d e r t h e p o o l and f r o m t h e o t h e r c i s t e r n s
(Walters,
1967, u n p u b l i s h e d r e p o r t ) .
s u b m e r s i b l e pump p r o d u c e s 20 gpm f o r use i n the pool and s u p p l i e s h o t w a t e r f o r l o d g e and i t s
tubs.
in
A the
In A p r i l 1979, t h e t e m p e r a t u r e was 46°C, w i t h a c o n d u c t i v i t y of
305 umhos/cm ( s e e a n a l y s i s
f o r SDD-1).
A f l u o r e s c e n t dye e x p e r i m e n t by N. P . Dion ( u n p u b l i s h e d
r e p o r t , USGS, 1978)
s u g g e s t s c i s t e r n s 2 and 3 a r e h y d r a u l i c a l l y c o n n e c t e d and s e e p i n t o c i s t e r n cistern
1 s e e p s i n t o c i s t e r n 4 , and c i s t e r n s 2 and 4 f l o w i n t o t h e s t o r m
T o t a l d i s c h a r g e from t h e s y s t e m i s e s t i m a t e d
drain.
t o be 150 t o 170 gpm.
F u r t h e r h y d r o l o g i c i n f o r m a t i o n i s r e p o r t e d by W a l t e r s and D i o n , hydrostatic
1,
l e v e l c o m p a r i s o n s and r e c o m m e n d a t i o n s f o r i n c r e a s i n g
including
t e m p e r a t u r e and
flow. D u r i n g t h e A p r i l 1979 s a m p l i n g t r i p , R i v e r i n t h e v i c i n i t y of t h e r e s o r t
a s u r v e y of t h e banks a l o n g t h e S o l Duc
l o c a t e d s e v e r a l a r e a s where t h e r m a l w a t e r s were
s e e p i n g o u t of t h e a l l u v i u m and i n t o t h e r i v e r .
They r a n g e i n t e m p e r a t u r e from 11°C
t o 45°C, w i t h f l o w s up t o 3 o r 4 gpm b u t t y p i c a l l y l e s s t h a n 1 gpm. d e s c r i p t i o n of t h e s e s e e p s i n c l u d i n g t h e i r
l o c a t i o n , t e m p e r a t u r e s , and
was made, and w i l l be p r e s e n t e d i n o t h e r r e p o r t s . d e t a i l e d chemical a n a l y s i s ,
conductivity
Waters were not c o l l e c t e d
for
t o w a t e r s c o l l e c t e d from t h e c i s t e r n s
are
however.
R e s u l t s of g e o t h e r m o m e t e r s a p p l i e d h i g h e r than observed t e m p e r a t u r e s ,
b u t r e p r e s e n t a r e l a t i v e l y low t e m p e r a t u r e
v o i r with r e s p e c t to other geothermal
SDC-1 C i s t e r n 1
A detailed
Measured T 40° C
reser-
systems.
SiO2-Quartz T 114
Na-K-Ca T 98
SDA-1 C i s t e r n 2
34° C
114
93
SDB-1 C i s t e r n 4
50° C
114
99
SDD-1 C i s t e r n 4
46° C
109
97
The w a t e r s have r e l a t i v e l y h i g h a l k a l i n i t y , m o d e r a t e s u l f a t e , and low c h l o r i d e , w i t h a r e l a t i v e l y low t o t a l s a l i n i t y ,
considering i t s
temperature.
The K/Na r a t i o
low, a s i s t h e L i c o n c e n t r a t i o n .
Campbell and o t h e r s ( 1 9 7 0 ) c l a s s i f y t h e w a t e r s
t h e r m a l m e t e o r i c u n d e r g o i n g deep
circulation.
as
is
Geology R e g i o n a l g e o l o g y of t h e a r e a is b e s t p r e s e n t e d by Tabor and Cady ( 1 9 7 8 ) . Duc R i v e r v a l l e y i s f i l l e d w i t h Olympic a l p i n e g l a c i a l d e b r i s . v a l l e y f i l l at the r e s o r t
The Sol
The bedrock below t h e
i s p r o j e c t e d t o be a c o n t a c t between two d i f f e r e n t
sandstone
u n i t s of t h e Western Olympic L i t h i c a s s e m b l a g e , upper Eocene to O l i g o c e n e . s a n d s t o n e s a r e t h i c k bedded t o t h e s o u t h w e s t , but more b r e c c i a t e d and conglomeratic to the n o r t h e a s t .
The
granular
The c l o s e s t v o l c a n i c s a r e Eocene b a s a l t s of
C r e s c e n t F o r m a t i o n , found 4 t o 10 m i l e s t o t h e
the
north.
Comments: Thermal w a t e r s a r e e a s i l y s p o t t e d i n t h e v i c i n i t y . the w a t e r , white filamentous b a c t e r i a
(probably
Because of t h e H 2 S c o n t e n t of
S p h a e r o t i l u s ) p r o l i f e r a t e s where t h e
t e m p e r a t u r e i s 13° t o 4 0 ° C . Because of t h e l a c k of P l e i s t o c e n e t o Recent v o l c a n i c s i n t h e a r e a ,
the
thermal
w a t e r s a r e most l i k e l y t h e r e s u l t of deep c i r c u l a t i o n of ground w a t e r s which a r e conv e c t i n g up a l o n g a m a j o r s t r u c t u r a l f e a t u r e , such a s a f a u l t p l a n e .
This i s
further
s u g g e s t e d by t h e low Cl and L i c o n c e n t r a t i o n s , low K/Na r a t i o , and r e l a t i v e l y low reservoir
t e m p e r a t u r e s s u g g e s t e d by g e o t h e r m o m e t e r s .
No i n f o r m a t i o n i s a v a i l a b l e on the t h e r m a l g r a d i e n t calculations dient
of d e p t h of c i r c u l a t i o n
purely speculative.
i n t h i s a r e a , making However, i f
an a v e r a g e
of 20° t o 30°/km I s u s e d , 2-1/2 t o 3 km deep c i r c u l a t i o n c o u l d p r o d u c e
p e r a t u r e s p r e d i c t e d by the The c h e m i s t r i e s ,
gra-
tem-
geothermometers.
surface temperatures,
and p r e d i c t e d r e s e r v o i r
v e r y s i m i l a r f o r Sol Duc and Olympic Hot S p r i n g s . o r i g i n , or g e n e t i c c o n d i t i o n s of
formation.
temperatures
are
These w a t e r s may s h a r e a common
S u l p h u r C r e e k Hot S p r i n g s Snohomish County T . 32 N . , R. 13 E . , NEl/4, S e c . 19 Downey Mtn. 1963, 7-1/2' USGS Quad. These s p r i n g s a r e l o c a t e d w i t h i n t h e G l a c i e r Peak W i l d e r n e s s A r e a . R i v e r Road i s f o l l o w e d n o r t h from D a r r i n g t o n o r s o u t h f r o m R o c k p o r t t o
The Sauk Forest
Road 3 4 5 , which i s f o l l o w e d e a s t a l o n g t h e S u i a t t l e R i v e r f o r 20 t o 25 m i l e s S u l p h u r C r e e k Campground.
A dirt
trail
l e a v e s t h e a r e a from t h e n o r t h e a s t
of t h e r o a d , r u n n i n g a l o n g t h e n o r t h s i d e of S u l p h u r C r e e k . trail,
a s i g n marks t h e W i l d e r n e s s b o u n d a r y .
b r i d g e c r o s s e s t h e c r e e k and j o i n s a d i r t creek.
side
About 1 . 5 km up t h e
A s h o r t d i s t a n c e beyond t h i s ,
a log
p a t h which c o n t i n u e s n o r t h e a s t a l o n g
The h o t s p r i n g s a r e found a b o u t 100 m e t e r s up t h e
Geothermal
to
the
trail.
Features
S e v e r a l warm and h o t s p r i n g s a r e f o u n d a l o n g a d r a i n a g e which s t e e p l y s l o p e s down t o the creek from the s o u t h . springs.
The t e m p e r a t u r e was a b o u t 37°C d u r i n g a s a m p l i n g t r i p i n A u g u s t ,
The h o t w a t e r was f l o w i n g t h r o u g h a s i n t e r - l i n e d
the creek bank. channel.
the
The main s p r i n g f l o w s from a f r a c t u r e i n t h e b e d r o c k exposed j u s t above t h e
bank of t h e c r e e k . 1978.
The a r e a i s h e a v i l y v e g e t a t e d and c o n c e a l s most of
White f i l a m e n t o u s b a c t e r i a
c h a n n e l i n t o a p o o l dug i n t o
formed a l o n g s t r i n g y masses w i t h i n
The s p r i n g s f a r t h e r up the d r a i n a g e were a few d e g r e e s c o o l e r .
p o o l s were f i l l e d w i t h d a r k g r e e n a l g a e , b u t no i n o r g a n i c d e p o s i t s were
Their
presented
small
detected.
The d r a i n a g e s l e a d i n g from t h e s e s p r i n g s c o n t a i n w h i t e f i l a m e n t o u s b a c t e r i a . a n a l y s i s of w a t e r c o l l e c t e d in August 1978 i s
the
An
i n t a b l e 4 . 3 , a s sample SFA.
The s p e c i f i c c o n d u c t i v i t y i s q u i t e low, a t a b o u t 480 umhos/cm, and t h e
relative
c o n c e n t r a t i o n of M, K, L i , and B a r e a l s o v e r y low.
When g e o t h e r m o m e t e r s
applied,
t e m p e r a t u r e s of 137°C by t h e
t h e s p r i n g s a r e p r e d i c t e d t o have r e s e r v o i r
Q u a r t z method and 131°C by t h e Na-K-Ca m e t h o d .
are Si-
Geology Very l i t t l e Creek.
d e t a i l e d g e o l o g i c mapping i s a v a i l a b l e
I n a l a r g e a r e a l s t u d y by Grant ( 1 9 6 6 ) ,
p r e - J u r a s s i c Cascade m e t a m o r p h i c s .
f o r t h e a r e a around S u l p h u r
t h e b e d r o c k was m a p p e d a s
The s p r i n g i s l o c a t e d a l o n g an i n f e r r e d f a u l t
which r u n s t h r o u g h t h e c r e e k N. 55° E. and c u t s t h e Green Mountain U n i t , a b i o t i t e biote hornblende s c h i s t . northwest. gneissose,
The f a u l t i s t h o u g h t to be a h i g h a n g l e , d i p p i n g 25° t o
the
S u l p h u r M o u n t a i n , s o u t h and e a s t of t h e s p r i n g s , was mapped a s a pyroxene-bearing
trondhjemite.
No h e a t f l o w or t e m p e r a t u r e g r a d i e n t i n f o r m a t i o n i s a v a i l a b l e f o r t h e a r e a or the
region.
Comments: S u l p h u r Creek Hot S p r i n g s may be t h e r e s u l t of deep c i r c u l a t i o n t h r o u g h a f a u l t or f r a c t u r e s y s t e m .
D e s p i t e i t s c l o s e p r o x i m i t y t o t h e Q u a t e r n a r y Cascade s t r a t o -
v o l c a n o G l a c i e r P e a k , t h e c h e m i s t r y of w a t e r s from t h e s p r i n g s do not s u g g e s t a v o l c a n i c o r i g i n ( r e l a t i v e l y low Li and B ) .
I t i s l i k e l y , however, t h a t the
w a t e r s have been d i l u t e d by s h a l l o w ground w a t e r .
spring
Some d e g r e e of mixing can be s e e n
t a k i n g p l a c e a t t h e s u r f a c e , c r e a t i n g d i f f e r e n t c o n d i t i o n s from s p r i n g t o s p r i n g . more c o m p l e t e s u r v e y i s recommended, w i t h c o m p l e t e a n a l y s e s f o r each of t h e in the
springs
system.
Reference G r a n t , A. R . , 1966, Bedrock g e o l o g y of t h e Dome Peak a r e a , C h e l a n , S k a g i t , Snohomish C o u n t i e s , n o r t h e r n C a s c a d e s , W a s h i n g t o n : Ph.D.
thesis.
U n i v e r s i t y of
A
and
Washington
Summit Creek Soda S p r i n g Lewis County T . 14 N . , R. 11 E . , NE1/4SW1/4, S e c . 18 White P a s s 1962, 1 5 ' USGS Quad. The a r e a i s r e a c h e d by t a k i n g t h e White P a s s Highway, S t a t e Route 1 2 , t o Road 1400, and f o l l o w i n g t h i s d i r t and g r a v e l road t o Creek Soda S p r i n g s
Geothermal
its
Forest
e a s t e r n t e r m i n u s , a t Summit
Campground.
Features
Along t h e n o r t h e a s t a large iron-stained
s i d e of Summit Creek a c o l d , CO2 c h a r g e d s p r i n g has b u i l t
t u f a t e r r a c e , a b o u t 7 m e t e r s above t h e r i v e r b e d .
up
The main soda
s p r i n g f l o w s f r o m a manmade r o c k and cement c i s t e r n which s t a n d s about 3 / 4 m e t e r s above ground
level.
On a J u l y 1979 s u r v e y and c o l l e c t i n g gpm a t 1 1 . 6 ° C .
trip,
t h e s p r i n g was f l o w i n g a b o u t 40 t o 50
Water s a m p l e s were c o l l e c t e d f r o m t h e c i s t e r n
(SCA) and f r o m a
s m a l l e r s p r i n g which f l o w s from t h e lower n o r t h s i d e of t h e l a r g e t u f a mounts (SCB). T h i s second s p r i n g had a t e m p e r a t u r e of 9 . 7 ° C and a c o n d u c t i v i t y of 2000 umhos/cm. The c h e m i c a l a n a l y s e s a r e p r e s e n t e d i n t a b l e 4 . 2 . reservoir
temperatures are c a l c u l a t e d as
When g e o t h e r m o m e t e r s a r e
follows:
T
T
Si-Quartz
Na-K-Ca
SCA
140
155
SCB
80
155
The Li c o n c e n t r a t i o n
applied,
i s q u i t e h i g h , as i s the r e s u l t i n g Li/Na r a t i o .
The w a t e r
is
c h a r g e d w i t h d i s s o l v e d CO2 which v i g o r o u s l y b u b b l e s out a t t h e s u r f a c e , b u t a l s o h a s a very high
Cl-
content.
SCB w a t e r a p p e a r s t o be d i l u t e d SCA w a t e r .
Geology Summit Creek v a l l e y h a s been c u t i n t o t h e P l i o c e n e Ridge Top a n d e s i t e .
The
P l e i s t o c e n e V a l l e y f l o w b a s a l t , which o r i g i n a t e d from v e n t s n e a r t h e Cascade Divide t o t h e e a s t of C o w l i t z P a s s , c o v e r s t h e v a l l e y f l o o r from t h e c r e s t west of the s p r i n g s .
I n t h e a r e a around t h e s p r i n g s ,
by t h e c r e e k ( E l l i n g s o n ,
1959).
c o v e r e d by Recent a l l u v i u m . Miocene J u g Lake d i o r i t e
to a few m i l e s
t h e b a s a l t f l o w h a s been eroded
The immediate a r e a s u r r o u n d i n g t h e s p r i n g s has been
About 1 . 5 km n o r t h e a s t and 2 . 5 km s o u t h of t h e a r e a ,
i n t r u s i v e i s exposed.
(Ellingson,
the
1959.)
Comments: S e v e r a l o t h e r c o l d soda s p r i n g s w i t h t u f a mounds a r e r e p o r t e d
to e x i s t
Summit Creek f a r t h e r up t h e v a l l e y t o t h e e a s t , w i t h i n a m i l e of t h e main Despite t h e i r very cold t e m p e r a t u r e s ,
t h e s e Soda S p r i n g s may be r e l a t e d
v o l c a n i c s y s t e m s which e x i s t i n t h e r e g i o n .
along spring.
to the
The r a t i o s of v a r i o u s c h e m i c a l
species
f o r w a t e r s from Summit Creek Soda S p r i n g , e s p e c i a l l y N a / L i , l o o k v e r y s i m i l a r
to
v a l u e s c a l c u l a t e d f o r Ohanapecosh Hot S p r i n g s which i s s o u t h e a s t of Mount R a i n i e r and o n l y a b o u t 7 km n o r t h w e s t of Summit Creek Soda S p r i n g .
V.
REGIONAL GRAVITY SURVEY OF THE SOUTHERN CASCADES, WASHINGTON
by
Z. Frank Danes U n i v e r s i t y of P u g e t Sound Tacoma, Washington
V.
REGIONAL GRAVITY SURVEY OF THE SOUTHERN CASCADES, WASHINGTON
by Z. F. Danes U n i v e r s i t y of Puget Sound Introduction I n numerous a r e a s of r e c e n t v o l c a n i s m t h r o u g h o u t t h e w o r l d , g e o t h e r m a l
systems
h a v e been d i s c o v e r e d , d e v e l o p e d , and a r e now making s i g n i f i c a n t c o n t r i b u t i o n s e n e r g y n e e d s of the r e s p e c t i v e a r e a s .
The S t a t e of W a s h i n g t o n , h a v i n g f i v e
to t h e strato-
v o l c a n o e s and numerous s m a l l e r v o l c a n i c c e n t e r s , a l l of Q u a t e r n a r y a g e , must a b u n d a n t , but as yet u n d i s c o v e r e d ,
commercially developable geothermal
contain
systems.
D i s c o v e r y and development of g e o t h e r m a l s y s t e m s i n o t h e r a r e a s of t h e world have o c c u r r e d b e c a u s e t h o s e a r e a s e x h i b i t abundant s u r f i c i a l m a n i f e s t a t i o n s g e y s e r s s u l f a t a r a s ) of t h e g e o t h e r m a l s y s t e m s . s u r f i c i a l manifestations are largely lacking.
(hot
In t h e S t a t e of W a s h i n g t o n ,
springs, these
Thermal s p r i n g s , w i t h t h e e x c e p t i o n of
t h o s e n e a r Mount R a i n i e r and Mount B a k e r , have c h e m i c a l c o m p o s i t i o n s
i n d i c a t i v e of
t e m p e r a t u r e g e o t h e r m a l s y s t e m s ( S c h u s t e r and o t h e r s , 1978 p . 2 0 - 2 1 ) .
The l a c k of
t h e r m a l s p r i n g s i n t h e Mount S t . Helens/Mount Adams a r e a may i n d i c a t e t h a t i f
low
high
temperature geothermal systems e x i s t
i n t h e a r e a , t h e y a r e b u r i e d by young v o l c a n i c s
( S c h u s t e r and o t h e r s ,
The few h e a t f l o w measurements made i n t h e
1978, p. 4 4 ) .
s o u t h e r n C a s c a d e s do not r e v e a l a r e a s h a v i n g r e q u i s i t e h i g h g e o t h e r m a l The a v a i l a b l e d a t a i n d i c a t e
gradients.
t h a t t h e s e a r c h f o r g e o t h e r m a l power i n the S t a t e of
Washington w i l l be d i f f i c u l t , and w i l l have t o r e l y upon e x p l o r a t i o n
techniques
c a p a b l e of d e t e c t i n g p o s s i b l e b u r l e d g e o t h e r m a l s y s t e m s which have no s u r f i c i a l manifestation. G r a v i t y s u r v e y s g i v e u s e f u l d a t a which can be i n t e r p r e t e d l o c a l s t r u c t u r e s and s u b s u r f a c e l i t h o l o g i e s .
to r e v e a l
regional
G r a v i t y s u r v e y s in t h e G e y s e r s
( 1 9 6 6 , C a l i f o r n i a D i v i s i o n of Mines and G e o l o g y ) ,
and
area
i n t h e B r o a d l a n d s a r e a of New Z e a l a n d
( 1 9 7 0 , H o c h s t e i n and H u n t ) ,
i n t h e R a f t R i v e r a r e a of I d a h o ( 1 9 7 8 , Maybe and
others),
and i n t h e R o o s e v e l t Hot S p r i n g s a r e a of Utah r e v e a l t h a t g r a v i t y a n o m a l i e s a r e a s s o c i a t e d with geothermal systems.
We make and e m p h a s i z e t h e p o i n t t h a t g r a v i t y
alone cannot r e v e a l geothermal s y s t e m s . i n f i n i t e c o m b i n a t i o n of v a r i a b l e s .
G r a v i t y a n o m a l i e s can be produced by an
However, g r a v i t y s u r v e y s c o u p l e d w i t h
bedrock
g e o l o g y and w a t e r g e o c h e m i s t r y can r e v e a l t a r g e t a r e a s which can be e x p l o r e d o t h e r more s i t e s p e c i f i c and e x p e n s i v e
data
with
techniques.
Research We have c o m p l e t e d a r e g i o n a l g r a v i t y s u r v e y of t h e s o u t h e r n C a s c a d e s of W a s h i n g t o n , w i t h t h e p u r p o s e of d e l i n e a t i n g r e g i o n a l g e o l o g i c a l a r e a s which can be e x p l o r e d w i t h more s i t e s p e c i f i c t e c h n i q u e s . a r e a comprised a p p r o x i m a t e l y twenty-two 15' q u a d r a n g l e s ,
s t r u c t u r e s and The i n i t i a l
target
study
bounded by t h e Columbia
R i v e r on t h e s o u t h , by 4 6 ° 3 0 ' on t h e n o r t h , by 1 2 2 ° 3 0 ' on t h e w e s t , and by 121° on the e a s t .
T h i s a r e a , h a v i n g t h e most i n t e n s i v e and e x t e n s i v e r e c e n t v o l c a n i s m of any
a r e a of c o m p a r a b l e s i z e i n t h e s t a t e must be c o n s i d e r e d a s t h e s t a t e ' s The p r o j e c t o b j e c t i v e s were a s
(Hammond, 1975; and C r a n d e l l and M u l l i n e a u x ) ,
prime t a r g e t a r e a f o r g e o t h e r m a l
power.
follows:
1.
Compile e x i s t i n g g r a v i t y d a t a f o r t h e map a r e a .
2.
O b t a i n s u f f i c i e n t new g r a v i t y d a t a t o c o m p l e t e u n i f o r m r e g i o n a l c o v e r a g e of a r e a w i t h a s t a t i o n d e n s i t y of 1 p e r 5 s q u a r e m i l e s .
3.
Reduce e x i s t i n g and new g r a v i t y d a t a u s i n g t h e s t a n d a r d i z e d g r a v i t y d a t a by t h e U . S . G e o l o g i c a l S u r v e y i n D e n v e r .
4.
Compile t h e r e d u c e d d a t a i n t o f r e e - a i r and Bouguer g r a v i t y maps a t a s c a l e of 1:100,000.
5.
E s t a b l i s h a c o m p u t e r i z e d f i l e of a l l raw and reduced g r a v i t y d a t a f o r t h e map a r e a t o f a c i l i t a t e d a t a e x c h a n g e and i n t e r p r e t a t i o n .
reductions applied
D u r i n g t h e p e r i o d of J u l y 1979 t h r o u g h J u n e 1980, g r a v i t y o b s e r v a t i o n s
were
c a r r i e d o u t i n the a r e a from 4 5 ° 3 0 ' N t o 4 6 ° 3 0 ' N and from 1 2 1 ° 4 5 ' E t o 122°30'W. A l s o s u r v e y e d was a s m a l l a r e a from 4 6 ° 3 0 ' N and
121°30'E.
the
to
A l t o g e t h e r , 877 g r a v i t y r e a d i n g s have been t a k e n ; of t h o s e , a b o u t 250 a r e base readings,
r e p e a t s , c a l i b r a t i o n s and t i e s ;
t h e r e s t a r e new v a l u e s .
A l l s t a t i o n s were i n c o r p o r a t e d i n t o our e x i s t i n g network and both new and old v a l u e s have been s u b m i t t e d t o t h e Denver O f f i c e of t h e U . S . G e o l o g i c a l Survey f o r terrain corrections.
A.
15'
These
comprise:
Quadrangles
B o n n e v i l l e Dam Bridal Veil Camas Cougar E l k Rock Husum Lookout Mtn.
118 S t a t i o n s 43 117
Mount S t . Helens S p i r i t Lake White P a s s
71 53 82 58
Willard Wind R i v e r Yacolt
TOTAL
B.
169 S t a t i o n s 65 20 46 61 62
965 S t a t i o n s
7-1/2' Q u a d r a n g l e s Blue Lake B u r n t Peak E a s t Canyon B u t t e French Butte
12 S t a t i o n s 11 14 10
L o s t Horse P l a t e a u McCoy Peak P i s c o e Meadows Q u a r t z Creek B u t t e
Glenwood Greenhorn Buttes Jennies Butte Lone B u t t e
51 12 11 45
S l e e p i n g Beauty Spencer Butte Twin B u t t e s W a l l u p t Lake
TOTAL
While i t be w a r r a n t e d , 1.
1219 S t a t i o n s
prepared.
i s always d a n g e r o u s to i n t e r p r e t but s h o u l d s t i l l
49 5 2 16
254 S t a t i o n s
GRAND TOTAL
Base maps on a s c a l e 1 : 6 2 , 5 0 0 have been
2 Stations 7 2 5
be t a k e n w i t h
p r e l i m i n a r y d a t a , a few c o n c l u s i o n s may caution.
The d o m i n a t i n g f e a t u r e i n t h e a r e a i s t h e r e g i o n a l w e s t e r l y g r a v i t y of a b o u t one mgal/km.
gradient
2.
S u p e r p o s e d o v e r t h i s g r a d i e n t a r e n u m e r o u s l o c a l a n o m a l i e s t h a t seem t o c l u s t e r a l o n g " t r e n d s " , m a r k e d r e d ( p o s i t i v e ) and y e l l o w ( n e g a t i v e ) on t h e p r e l i m i n a r y map. S u r p r i s i n g l y , t h o s e " t r e n d s " seem t o s t r i k e a t r i g h t a n g l e s t o t h e known t e c t o n i c t r e n d s i n t h e s o u t h C a s c a d e s .
3.
A r e a s of known r e c e n t v o l c a n i c a c t i v i t y ( t h a t i s , Mount S t . H e l e n s , 4 6 ° 1 0 ' N , 1 2 2 ° 1 0 ' W ; and G o a t R o c k s , 4 6 ° 2 5 ' N , 1 2 1 ° 2 0 ' W ) a r e a c c o m p a n i e d by w e l l e s t a b l i s h e d g r a v i t y m i n i m a , p o s s i b l y due t o l a r g e q u a n t i t i e s of low d e n s i t y i n t r u sive rocks at shallow c r u s t a l d e p t h s .
4.
A r e a s of s i m i l a r n e g a t i v e a n o m a l i e s , a n d , t h e r e f o r e , p r o s p e c t i v e g e o t h e r m a l e n e r g y r e s o u r c e s , a r e f o u n d i n s o u t h e r n E l k Rock d i s t r i c t ; e a s t of S p i r i t L a k e ; I n s o u t h e r n C o u g a r d i s t r i c t ; and n o r t h e r n L o o k o u t M o u n t a i n d i s t r i c t .
Again, all
those conclusions
the c o r r e c t i o n s
delineate
a r e b a s e d on p r e l i m i n a r y d a t a ,
have been a p p l i e d .
geothermal prospects
in this
Nevertheless, area,
and may be m o d i f i e d when
gravity
and t h e p r e s e n t
anomalies probably survey should
can
continue.
A d d i t i o n s and Comments by M i c h a e l A. Korosec
The 1979 g r a v i t y d a t a p r o v i d e a tremendous number of s t a t i o n s w i t h
sufficient
s t a t i o n d e n s i t y t o e n a b l e t h e c o n s t r u c t i o n of a r e l i a b l e r e g i o n a l g r a v i t y map f o r southern Cascades.
Work b e i n g c a r r i e d out i n 1980 w i l l a l l o w f o r t h e c o n s t r u c t i o n of
a s i m i l a r map f o r t h e c e n t r a l C a s c a d e s and p o r t i o n s of t h e n o r t h e r n e s p e c i a l l y around t h e Mount Baker a r e a . maps w i l l e x i s t north Cascades.
the
Cascades,
The o n l y " h o l e s " which w i l l remain on t h e
i n t h e c e n t r a l i n t e r i o r and t h e c e n t r a l and e a s t e r n p o r t i o n s of S i n c e t h e s e unmeasured r e g i o n s a r e a ) r e m o t e , w i t h d i f f i c u l t
the
access,
b ) w i t h i n N a t i o n a l P a r k s and W i l d e r n e s s A r e a s , and c ) not s u s p e c t e d t o be s i g n i f i c a n t g e o t h e r m a l p r o v i n c e s by t h e known g e o l o g y ( e x c e p t f o r t h e G l a c i e r Peak a r e a ) or open t o development even If
they a r e ,
t h e r e g i o n a l p o r t i o n of t h e g r a v i t y s u r v e y
can be c o n s i d e r e d n e a r l y c o m p l e t e . southeast
program
The o n l y e x c e p t i o n i s t h e a r e a s o u t h and
t o Mr. Baker (down t o t h e South Fork S t i l l a g u a m i s h and e a s t to t h e G l a c i e r
Peak W i l d e r n e s s A r e a ) .
T h i s r e g i o n w i l l l i k e l y be s u r v e y e d i n 1981.
F u t u r e work s h o u l d f o c u s on s p e c i f i c a r e a s of i n t e r e s t ,
either coinciding
with
g e o t h e r m a l p r o v i n c e s b e i n g examined by o t h e r p r o j e c t s of t h e D i v i s i o n ' s
geothermal
p r o g r a m , or on a r e a s which s u g g e s t
anomalies
f r o m t h e r e g i o n a l map.
t h e e x i s t e n c e of s i g n i f i c a n t g r a v i t y
For e x a m p l e , t h e r e g i o n a l g r a v i t y s u r v e y around t h e Mount
H e l e n s a r e a showed a pronounced g r a v i t y kilometers north-northwest
low i n the C o l d w a t e r Creek a r e a 10 t o 15
of t h e v o l c a n o .
The e x t e n t and s i g n i f i c a n c e of t h i s
can o n l y be g u e s s e d , b e c a u s e of t h e r e l a t i v e l y low s t a t i o n d e n s i t y i n t h e a r e a low i s d e f i n e d by o n l y a few g r a v i t y v a l u e s ) . north-northwest
it
low (the
S i n c e a f a u l t zone e x t e n d s
from t h e v o l c a n o t h r o u g h t h i s a r e a , and s i n c e t h e s h a l l o w ( o r
i n t e r m e d i a t e ) magma chamber i s s u s p e c t e d crater,
St.
Is p o s s i b l e
to be o f f s e t n o r t h w e s t of t h e
central
t h a t a s i g n i f i c a n t g e o t h e r m a l r e s e r v o i r may u n d e r l i e t h e
T i g h t e r g r a v i t y s t a t i o n d e n s i t y may p r o v i d e u s e f u l i n f o r m a t i o n which w i l l b e g i n answer some of t h e q u e s t i o n s which t h i s anomaly
generates.
area. to
I n t h e n e a r f u t u r e , a t h o r o u g h e x a m i n a t i o n of carried
o u t i n an e f f o r t
to i d e n t i f y a l l
of
the s i g n i f i c a n t
s o u t h and c e n t r a l C a s c a d e s ,
and t h e a r e a s
cannot
by known g e o l o g y ,
be r e a d i l y e x p l a i n e d
p o o r l y d e f i n e d , a program should possibly leading f u t u r e heat
flow d r i l l i n g ,
of
geochemical
detailed soil
g r a v i t y maps s h o u l d be
anomalies within
a r o u n d Mount B a k e r .
be d e v e l o p e d
to the p r o d u c t i o n
the regional
Where t h e
anomalies
and w h e r e t h e y a r e q u e s t i o n a b l e to s y s t e m a t i c a l l y
the
survey these
or areas,
g r a v i t y maps w h i c h c a n be used t o
surveys,
or o t h e r g e o p h y s i c a l
site
surveys.
VI.
GEOLOGY OF THE WHITE PASS - TUMAC MOUNTAIN AREA, WASHINGTON
by
G e o f f r e y A. C l a y t o n G e o l o g i s t - U n i v e r s i t y of Washington S e a t t l e , Washington
VI.
GEOLOGY OF THE WHITE PASS-TUMAC MOUNTAIN AREA, WASHINGTON by G e o f f r e y A. C l a y t o n
Abstract
The Tumac P l a t e a u - W h i t e P a s s - R i m r o c k L a k e - n o r t h e r n Goat Rocks r e g i o n i n
the
s o u t h e r n Cascade Range Washington l i e s a t t h e c r e s t and on t h e e a s t e r n s l o p e of C a s c a d e s 35 t o 45 km s o u t h e a s t
of Mount R a i n i e r .
on the 1 : 2 5 0 , 0 0 0 Yakima r a i s e d
relief
When viewed on t o p o g r a p h i c maps, or
map, t h e Tumac P l a t e a u a p p e a r s a s an anomalous
b u l g i n g a r e a , r e l a t i v e l y u n d i s s e c t e d by r i v e r s ,
and d o t t e d w i t h l a k e s .
This
morphology is due t o t h e e r u p t i o n of l a v a f r o m a t l e a s t 10 l a t e Q u a t e r n a r y d i s t r i b u t e d on and a r o u n d t h e Tumac P l a t e a u .
r a n g e i n c o m p o s i t i o n from o l i v i n e b a s a l t and h i g h - a l u m i n a b a s a l t t o Structurally
t h e a r e a may be a dome.
amphibolite,
t h e o n l y e x p o s u r e of p r e - T e r t i a r y
bulging
vents
To t h e s o u t h , Hogback Mountain and
Goat Rocks a r e more e r o s i o n a l l y d i s s e c t e d c e n t e r s of Q u a t e r n a r y v o l c a n i s m .
the
Lavas
rhyolite.
The R u s s e l l Ranch f o r m a t i o n and I n d i a n Creek r o c k s i n t h e s o u t h e r n C a s c a d e s of
Washington, crop out a t a l t i t u d e s as high as 6,000 f t .
T e r t i a r y f o r m a t i o n s tend
d i p away from t h e Tumac P l a t e a u .
The Ohanapecosh F o r m a t i o n ,
t o t h e west of t h e Cascade c r e s t ,
i s a b s e n t a t t h e c r e s t and i s not y e t
c o r r e l a t e d w i t h T e r t i a r y r o c k s on t h e e a s t faults paralleling
the
several kilometers
s i d e of t h e c r e s t .
to thick
definitely
The age and throw of
t h e C a r l t o n C r e e k , C l e a r F o r k , C o w l i t z R i v e r , and I n d i a n Creek
v a l l e y s a r e unknown.
Detailed
f i e l d mapping, p e t r o l o g i c and g e o c h e m i c a l s t u d i e s ,
r a d i o m e t r i c d a t i n g of rock u n i t s Quaternary volcanism,
i n t h e a r e a , was d e s i g n e d
to c l a r i f y t h e r e c o r d of
d e f i n e t h e m a j o r s t r u c t u r e s which c o n t r o l
h i g h - l e v e l s i l i c i c magma chamber i n f e r r e d
to e x i s t
beneath
and
t h e l o c a t i o n of a
the n o r t h w e s t e r n p o r t i o n of
t h e a r e a , and p e r m i t a b e t t e r u n d e r s t a n d i n g of s m a l l e r s c a l e s t r u c t u r e s which might c o n t r o l h y d r o t h e r m a l s y s t e m s and l o c a l i z a t i o n of
heat.
,
Introduction:
The S t r u c t u r e and S t r a t i g r a p h y of t h e T e r t i a r y Rocks i n
the
C a r l t o n P a s s - W h i t e P a s s - R i m r o c k Lake-Goat Rocks Region
The 1979 g e o l o g i c mapping was p a r t of a l a r g e r s t u d y by J o s e p h Vance and Geoffrey Clayton.
T h i s s t u d y of t h e s t r u c t u r e and s t r a t i g r a p h y of t h e
Tertiary
r o c k s of t h e C a r l t o n P a s s - W h i t e P a s s - R i m r o c k Lake-Goat Rocks r e g i o n f o c u s e s on a d e t a i l e d s u b d i v i s i o n and c h r o n o l o g y of t h e s t r a t i g r a p h i c
section, identifying
zones
of c r u s t a l w e a k n e s s , and e s t i m a t i n g d i s p l a c e m e n t a l o n g T e r t i a r y and Q u a t e r n a r y faults.
F i n d i n g s w i l l a l l o w c o r r e l a t i o n and c o m p a r i s o n of the v o l c a n i c h i s t o r y of
t h e s t u d y r e g i o n w i t h v o l c a n i c e p i s o d e s e l s e w h e r e i n t h e Cascade Range and w i l l clarify relationships
between d e f o r m a t i o n , v o l c a n i s m ,
and s u b d u c t i o n , and
help
regional
t e c t o n i c s in the Northwest. P r e v i o u s Work A b b o t t ( 1 9 5 3 ) s t u d i e d t h e r o c k s i n t h e n o r t h e a s t e r n p o r t i o n of C a r l t o n P a s s .
He
mapped v o l c a n i c r o c k s now a s s i g n e d t o t h e Ohanapecosh Formation ( F i s k e , Hopson, and W a t e r s , 1964) a s o v e r l y i n g Puget Group s a n d s t o n e s a l o n g t h e n o r t h w e s t s i d e of Bumping R i v e r v a l l e y .
the
Abbott a l s o mapped a f a u l t zone i n t h e upper C a r l t o n Creek -
u p p e r Bumping R i v e r v a l l e y s e p a r a t i n g u p l i f t e d lower T e r t i a r y r o c k s to t h e
northwest
from down-dropped m i d d l e T e r t i a r y Ohanapecosh F o r m a t i o n to t h e s o u t h e a s t .
Thus he
i n f e r r e d f a u l t i n g was younger t h a n m i d d l e T e r t i a r y .
The T e r t i a r y r o c k s of t h e White
Pass - T i e t o n P a s s - Goat Rocks a r e a were s t u d i e d i n r e c o n n a i s s a n c e (1968).
Ellingson
by E l l i n g s o n
( 1 9 6 8 ) a l s o d e s c r i b e d f a u l t zones a t C l e a r L a k e , a l o n g the
s i d e of Rimrock L a k e , a c r o s s C a r t r i g h t age and d i s p l a c e m e n t
south
C r e e k , and p a r a l l e l i n g I n d i a n C r e e k , but
of t h e s e f a u l t s i s u n c e r t a i n .
the
Swanson (1964) mapped and
d e s c r i b e d T e r t i a r y r o c k s around t h e e a s t e r n end of Rimrock Lake, but was u n a b l e d e f i n i t i v e l y c o r r e l a t e t h e s e r o c k s w i t h u n i t s west of the Cascade c r e s t .
to
Swanson's
1964 mapping and rock d e s c r i p t i o n s were f i e l d checked and found to be q u i t e
accurate,
s o i t was d e c i d e d n o t t o u n d e r t a k e f u r t h e r mapping i n t h i s a r e a .
Radiometric
dates
on t h e s e r o c k s of t h e e a s t e r n s l o p e of t h e C a s c a d e s a r e n e e d e d , h o w e v e r , to
test
l i t h o l o g i c c o r r e l a t i o n s w i t h u n i t s on t h e w e s t e r n s l o p e of t h e C a s c a d e s .
O b j e c t i v e s and P r o b l e m s The o b j e c t i v e s of t h i s s t u d y have been a s (1)
follows:
T e r t i a r y v o l c a n i c and p l u t o n i c r o c k s a r e b e i n g mapped and sampled i n f i e l d ; they s p e c i f i c a l l y included:
welded t u f f s a t Spencer C r e e k ,
the
crystal
t u f f s s o u t h of Kloochman Rock, W i l d c a t Creek F o r m a t i o n and o v e r l y i n g
ash
f l o w s and t u f f s , p y r o c l a s t i c f l o w s i n t h e F i f e s Peak of T i e t o n V o l c a n o , a n d e s i t e at Shellrock Peak, b r e c c i a a t Bootjack rock,
the m i c r o d i o r i t e of
Kloochman Rock, Goose Egg M o u n t a i n , W e s t f a l l Rocks and unnamed h i l l s
in
n o r t h w e s t - t r e n d i n g zone of i n t r u s i o n s
in
(Swanson, 1 9 6 4 ) , r h y o l i t i c a s h
I n d i a n C r e e k , i n t r u s i v e r o c k s a t J u g Lake and Twin P e a k s ,
this
silicified
b a s a l t s a t T i e t o n P a s s , o l i v i n e b a s a l t n e a r Conrad Meadows,
basal
Ohanapecosh F o r m a t i o n i n Summit Creek ( E l l i n g s o n , 1959, 1968, 1 9 7 2 ) , and C a r l t o n P a s s ( A b b o t t , 1 9 5 3 ) , Ohanapecosh F o r m a t i o n c r o p p i n g o u t on t h e s i d e of J o h n s o n P e a k , q u a r t z t u f f
i n t h e n o r t h e r n Tumac P l a t e a u ,
in
north
intrusive
r o c k s a t P e a r B u t t e and C a r l t o n R i d g e , h o r n b l e n d e p o r p h y r y a t McNiel P e a k , and p y r o c l a s t i c b r e c c i a a t t h e D e v i l s (2)
Horns.
D e t a i l e d mapping p r o j e c t s have been p l a n n e d f o r t h e C l e a r Lake f a u l t t h e I n d i a n Creek f a u l t zone and t h e f a u l t in C a r t w r i g h t Creek 1 9 7 2 ) , t h e C a r l t o n Creek f a u l t ( A b b o t t ,
zone,
(Ellingson,
1 9 5 3 ) , and f a u l t s i n l a t e
Pleistocene
l a k e s e d i m e n t s west of P e n o y e r Lake ( o b s e r v e d by C l a y t o n and P o r t e r of U n i v e r s i t y of (3)
Washington).
Rocks a r e b e i n g c o r r e l a t e d on t h e b a s i s of l i t h o l o g y , position,
petrographic similarity,
and K-Ar r a d i o m e t r i c d a t i n g
stratigraphic
and by a g e s o b t a i n e d by t h e
techniques.
fission-track
(4)
A map of t h e T e r t i a r y r o c k s h a s been d r a f t e d .
The p r o b l e m s t h i s s t u d y s e e k s to s o l v e i n c l u d e :
i d e n t i f y i n g and mapping T e r t i a r y
and younger f r a c t u r e zones and f a u l t s which may l o c a l i z e t h e c i r c u l a t i o n of mal f l u i d s ; d e t e r m i n i n g
t h e age and d i s p l a c e m e n t of f a u l t s which may have
geothercontrolled
t h e a s c e n t of magma; e v a l u a t i n g the T e r t i a r y s e c t i o n a s a cap rock which may f o c u s t h e g e o t h e r m a l r e s o u r c e a t t h e c r e s t of a n t i c l i n a l and domal s t r u c t u r e s , and d e f i n i t i o n of t h e age of T e r t i a r y v o l c a n i c e p i s o d e s i n t h i s p o r t i o n of t h e
the
Cascades,
and t h e i r i n t e r r e l a t i o n s w i t h movement of t h e P a c i f i c and J u a n de Fuca P l a t e s and with regional
tectonics.
E l l i n g s o n ( 1 9 7 2 ) c o n c l u d e s t h a t t h e White P a s s r e g i o n h a s been p o s i t i v e
relief
s i n c e t h e E o c e n e , and t h a t Q u a t e r n a r y f a u l t i n g h a s lowered t h e s o u t h e a s t e r n Tumac P l a t e a u 2 , 3 0 0 f e e t r e l a t i v e to R u s s e l l Ridge to t h e e a s t .
I f t h e doming and u p l i f t
of t h i s r e g i o n a r e i n d e p e n d e n t of t h e g e n e r a l p a t t e r n of t h e Cascade Orogeny, t h e n a h o t - s p o t model (Suppe and o t h e r s 1975) may be a p p l i c a b l e to t h e r e g i o n . the study,
As p a r t of
f i e l d work and r a d i o m e t r i c d a t i n g have been d e s i g n e d to p r o v i d e d a t a to
determine if
late Tertiary precursors
to t h e u n u s u a l l y time c o n t i n u o u s and com-
p o s i t i o n a l l y diverse Quaternary volcanic rocks e x i s t .
Although t h e p r e s e n t
sub-
c r u s t a l s t r u c t u r e and r a t e of p o s s i b l e s u b d u c t i o n b e n e a t h w e s t e r n Washington a r e uncertain,
t h e C e n o z o i c dynamics of o c e a n i c p l a t e s i n t h e P a c i f i c N o r t h w e s t a r e w e l l
known ( A t w a t e r 1970; S i l v e r 1971; Riddihough 1 9 7 8 ) . motions, spreading at others,
By comparing t h e s e
plate
t h e J u a n de Fuca R i s e (Vine and Mathews, 1963; Kennet and
1 9 7 7 ) , and t h e r e c o r d of v o l c a n i s m i n t h e s t u d y r e g i o n , t h e r e h a s been an
a t t e m p t to determine the r e l a t i o n s h i p s and t e c t o n i c s .
between r a t e of s u b d u c t i o n , v o l c a n i c
activity,
The Cenozoic r e c o r d of v o l c a n i s m and t e c t o n i c s of t h i s r e g i o n have
been compared w i t h d a t a from s t u d i e s by Armstrong ( 1 9 7 8 ) , C h r i s t i a n s e n and Lipman ( 1 9 7 2 ) , Hamilton and Myers ( 1 9 6 6 ) , Vance and N a e s e r
( 1 9 7 7 ) , Vance (1977 and
1979),
Vogt and o t h e r s
(1976),
to see
if
patterns
t o t h o s e of
the study
area.
Another
important
and u n i q u e a s p e c t
that
six important Tertiary
Eocene v o l c a n i c
rock u n i t s
rocks s i m i l a r
of
Columbia R i v e r B a s a l t between t h e s e nic units Vance
record
(Ellingson
F i f e s Peak F o r m a t i o n ,
crop out elsewhere
i n sympathy w i t h 1977).
similar
in the study region
1968,
is
it.
Stratigraphic
Radiometric
allow evaluation
t h e r o t a t i o n of
Puget
S t e v e n s Ridge Formation
In the r e g i o n .
studies
p . 2 8 ) and t h e
d a t i n g of
of
t h e C a s c a d e Range u n d e r w e n t a m a j o r c l o c k w i s e
by ( S i m p s o n and C o x ,
are
t o t h o s e mapped i n w e s t e r n m o s t W a s h i n g t o n by S n a v e l y
along with paleomagnetic
early Tertiary
the T e r t i a r y
rocks are being c a r e f u l l y s t u d i e d .
(1979) t h a t
by t h e a b o v e a u t h o r s
of w e s t e r n W a s h i n g t o n c r o p o u t w i t h i n
and Wagner ( 1 9 6 3 ) c r o p o u t a t T i e t o n P a s s Group, Ohanapecosh F o r m a t i o n ,
inferred
and,
relationships these
the suggestion rotation
t h e Oregon c o a s t a l
block
volcaby
during
the
recognized
Q u a t e r n a r y V o l c a n i c Rocks i n t h e Tumac P l a t e a u - White P a s s - Goat Rocks Area
The Tumac P l a t e a u - W h i t e P a s s - G o a t Rocks a r e a c o n t a i n s a r e c o r d of Q u a t e r n a r y v o l c a n i c r o c k s u n i q u e i n t h e S t a t e of W a s h i n g t o n .
Hundreds of e r u p t i o n s
o c c u r r e d i n the r e g i o n a t v a r y i n g i n t e r v a l s d u r i n g Q u a t e r n a r y t i m e .
have
F i f t e e n vents
have been l o c a t e d and t h e e x i s t e n c e of o t h e r s a r e i n f e r r e d b e c a u s e many l a v a s be c o r r e l a t e d w i t h the known v e n t s .
The v o l c a n i c r o c k s r a n g e w i d e l y i n
and i n c l u d e h i g h - a l u m i n a b a s a l t , o l i v i n e b a s a l t , and
cannot
composition
basaltic andesite, andesite,
dacite,
rhyolite. Q u a t e r n a r y v o l c a n i s m i n Washington S t a t e n o r t h of t h e Tumac P l a t e a u - W h i t e P a s s -
Goat Rocks s t u d y a r e a h a s been l a r g e l y r e s t r i c t e d
to a n d e s i t i c
stratovolcanoes.
The
dominant t y p e of Q u a t e r n a r y v o l c a n i s m i n Washington S t a t e s o u t h of t h e s t u d y a r e a h a s been t h e e r u p t i o n of b a s a l t i n f i s s u r e zones and t h e f o r m a t i o n of two l a r g e stratovolcanoes.
andesitic
The Tumac P l a t e a u may be t h e n o r t h e r n t e r m i n u s of a f i s s u r e
zone,
p o s s i b l y t h e I n d i a n Heaven f i s s u r e zone d e s c r i b e d by Hammond and o t h e r s ( 1 9 7 6 ) .
The
I n d i a n Heaven f i s s u r e zone i s o r i e n t e d n o r t h - s o u t h and p a s s e s t h r o u g h t h e w e s t e r n f l a n k of Mount Adams.
The Tumac P l a t e a u , Hogback M o u n t a i n , t h e Goat Rocks, and Lake
View Mountain d e f i n e a l i n e a r n o r t h - s o u t h zone of Q u a t e r n a r y v o l c a n i s m t h a t
also
i n t e r s e c t s Mount Adams. Two m a j o r s e t s of l i n e a m e n t s v i s i b l e on L a n d s a t p h o t o g r a p h s converge a t n o r t h e r n boundary of southwest,
is traceable
Tumac P l a t e a u . parallel valley,
the Tumac P l a t e a u .
The S t . Helens l i n e a m e n t , o r i e n t e d
the northeast-
t h r o u g h C a r l t o n P a s s , d e f i n i n g t h e n o r t h w e s t boundary of
An e n - e c h e l o n s e t of l i n e a m e n t s o r i e n t e d n o r t h w e s t - s o u t h e a s t ,
the
sub-
t o the Olympic-Wallowa l i n e a m e n t , a r e t r a c e a b l e a l o n g the I n d i a n Creek t h r o u g h P e a r B u t t e , and t h r o u g h t h e R a t t l e s n a k e Peaks ( L e p l e y ,
munication 1978).
These l i n e a m e n t s may c o r r e s p o n d
e x t e n d to s u f f i c i e n t d e p t h to have c o n t r o l l e d
personal
to m a j o r c r u s t a l s t r u c t u r e s
the a s c e n t of magma.
comwhich
P r e v i o u s f i e l d mapping had i n d i c a t e d P l a t e a u a r e a was r e s t r i c t e d lineaments.
t h a t Q u a t e r n a r y v o l c a n i s m i n t h e Tumac
t o an a r e a between t h e S t . Helens and I n d i a n Creek
K i n c a i d Mountain 1 km n o r t h w e s t of J u g L a k e , S u g a r l o a f Mountain 2 km
s o u t h of Bumping L a k e , and an e r o d e d v o l c a n i c cone and f l o w t h a t dams upper
Indian
C r e e k f o r m i n g P e a r Lake a r e Q u a t e r n a r y v e n t s a t t h e n o r t h e r n p e r i m e t e r of t h e area.
L i n e s drawn on a map to c o n n e c t K i n c a i d Mountain and S u g a r l o a f
M o u n t a i n , and
t h e P e a r Lake v e n t and S u g a r l o a f
Mountain, c l o s e l y p a r a l l e l
Creek l i n e a m e n t s ,
The Tumac P l a t e a u , w i t h a t l e a s t 5 a d d i t i o n a l
respectively.
study
t h e S t . Helens and I n d i a n vents,
t h e Summit Creek soda s p r i n g s , w i t h an i n f e r r e d h i g h t e m p e r a t u r e s o u r c e , t h e C l e a r Fork C o w l i t z R i v e r d a c i t e v e n t , t h e Hogback Mountain v e n t , and t h e Round Mountain vent area (Ellingson 1968), a l l
H e between t h e t r a c e s of t h e two s e t s of
The n o r t h e r n p o r t i o n of t h e s t u d y a r e a c o n t a i n s t h e Tumac P l a t e a u , olivine basalt
shield volcano.
lava.
Abbott
and e a s t e r n Tumac P l a t e a u a r e a ,
or
E l l i n g s o n ( 1 9 5 9 ) mapped a
l a v a i n t h e C o w l i t z P a s s a r e a and named i t Ridge Top a n d e s i t e . ( 1 9 6 8 ) grouped a l l
are
the
l a v a s he i n f e r r e d to be P l i o c e n e
y o u n g e r i n t o a s i n g l e u n i t named Deep Creek a n d e s i t e .
f u r t h e r f i e l d work, E l l i n g s o n
1953),
Around t h e Tumac P l a t e a u
( 1 9 5 3 ) mapped t h e n o r t h w e s t p o r t i o n of
Tumac P l a t e a u and grouped a l l t h e l e u c o c r a t i c
leucocratic
a 40 km2
Tumac M o u n t a i n , a Holocene c i n d e r cone (Abott
i s t h e c e n t r a l l y l o c a t e d v e n t of t h e s h i e l d v o l c a n o . o u t c r o p s of l e u c o c r a t i c
lineaments.
leucocratic
l a v a s of t h e
After southern
renamed them S p i r a l B u t t e a n d e s i t e , and i n f e r r e d
they
are Pliocene in age. F i e l d mapping, g e o c h e m i c a l , and p e t r o g r a p h i c s t u d i e s by t h e a u t h o r i n d i c a t e t h e "Ridge T o p - S p i r a l B u t t e " a n d e s i t e Pleistocene
in age.
i s a s e q u e n c e of b a s a l t
that
f l o w s , p r o b a b l y mid-
The b a s a l t s were e r u p t e d i n t o a p a l e o - v a l l e y s y s t e m o r i e n t e d
n o r t h - s o u t h across the present v a l l e y system. s l o n a l i n v e r s i o n of t o p o g r a p h y ,
a process
The r i d g e t o p p o s i t i o n i s due t o e r o -
t h a t has a l s o p e r c h e d t h e T i e t o n
Andesite
( t o be d i s c u s s e d l a t e r ) h i g h above p r e s e n t v a l l e y b o t t o m s .
Furthermore,
other
l e u c o c r a t i c l a v a s grouped i n t h e S p i r a l B u t t e a n d e s i t e a r e now known t o be s i l i c e o u s a n d e s i t e s e r u p t e d from a t l e a s t 8 v e n t s i n f e r r e d to m i d - l a t e P l e i s t o c e n e i n a g e .
The
v e n t s a r e i d e n t i f i a b l e by t h e i r h i g h t o p o g r a p h i c r e l i e f , t h e i r p r i m a r y v o l c a n i c morphology, a n d / o r t h e p r e s e n c e of w e l d e d , s c o r i a b r e c c i a , w i t h m o t t l e d primary o x i d a t i o n p a t t e r n s , and o t h e r v e n t a g g l o m e r a t e s . Mountain, Sugarloaf
Lava e r u p t e d from v e n t s a t Deer Lake
M o u n t a i n , and 500 m s o u t h of P e a r Lake f o r m s d i s t i n c t
f i l l i n g flows In the p r e s e n t l y e x i s t i n g drainage system.
valley-
The smooth U-shaped morpho-
l o g y u s u a l l y o b s e r v e d i n t h e g l a c i a l l y s c o u r e d v a l l e y s i n t h i s a r e a i s m o d i f i e d by bulging lava flow morphology.
Because t h e s e l a v a f l o w s have not been p r o f o u n d l y
s c o u r e d by g l a c i e r s and a r e c o n t a i n e d i n t h e bottoms of p r e s e n t l y e x i s t i n g t h e y a r e i n f e r r e d to be l a t e P l e i s t o c e n e i n a g e .
S p i r a l B u t t e , with
valleys,
well-preserved
p a i r e d l a v a l e v e e s d e f i n i n g a t i g h t s p i r a l around t h e v e n t , may have been formed subglacially.
I t s anomalous shape h a s been only s l i g h t l y a f f e c t e d by t h e I c e cap
t h a t c o v e r e d t h e Tumac P l a t e a u d u r i n g t h e Evans Creek ( o r F r a s e r ) G l a c i a t i o n . C l e a r Fork C o w l i t z R i v e r d a c i t e f l o w h a s been g l a c i a t e d on i t s
The
lower p o r t i o n but
gla-
c i a l i c e has d e s t r o y e d t h e v e n t a r e a and s c o u r e d t h e upper p o r t i o n of t h e f l o w (Ellingson 1968). butary glacier
S i n c e t h e C l e a r Fork C o w l i t z R i v e r v a l l e y c o n t a i n e d an a c t i v e
t o t h e C o w l i t z g l a c i e r d u r i n g t h e Evans Creek G l a c i a t i o n ,
f l o w must be p o s t Evans Creek i n a g e , and t h u s l e s s
than 1 4 , 0 0 0 y e a r s
Hogback Mountain and Round Mountain a r e i n t h e middle of t h e s t u d y Ellingson
dacite
old. area.
(1968) i n f e r r e d t h a t Round Mountain i s a Q u a t e r n a r y v e n t which e r u p t e d
basaltic lava.
At Hogback M o u n t a i n , a sequence of more t h a n 125, 1 - 2 m t h i c k ,
s c o r i a c e o u s , b l o c k y l a v a f l o w s of h i g h alumina b a s a l t crop o u t . that
the
tri-
Ellingson
inferred
l a v a ponded In a c r a t e r a b o u t 1 t o 2 km in d i a m e t e r a t t h e summit of Hogback
Mountain and flowed down a p a l e o - v a l l e y to the n o r t h w e s t , o b l i q u e l y a c r o s s
the
present
drainage system.
crater.
volcanic
p o r t i o n of
source
perhaps
of
has r e s i s t e d
1977).
erosion,
Tieton River,
above the p r e s e n t
in the Goat
Pleistocene
is
andesites
flowed south
this
causing inversion the
of
of
Rocks t o i t s
lava are found c l i n g i n g
interpretation
similar
magnitude
an a b s o l u t e
trends,
to t h a t
(Ellingson
terminus
(Bentley,
In
personal
I n t h e c a n y o n of
the
followed a paleo-valley
observed
and o c c u p i e s to c l a r i f y
petrographic,
and r a d i o m e t r i c
Sr87/Sr86
ratios,
and
trace
of
t h e magma and i t s
examined.
The p r o b a b i l i t y
of
the e x i s t e n c e
other heat
sources p o t e n t i a l l y
important
the present
element
ascent
studies
dating
the a r e a .
should
With
as a geothermal
valley.
Pleistocene
have
allowed establish
geochemical
concentrations,
to the s u r f a c e a r e
of h i g h - l e v e l
Late
The Old Snowy
t h e e a r l y and m i d d l e
and g e o c h e m i c a l
pres-
The
a t Hogback M o u n t a i n .
t h e b o t t o m of
t h e e r u p t i v e h i s t o r y of
system
b e e n b r e a c h e d by t h e
from the Goat Rocks.
on t h e g e n e s i s
evaluated.
volcano
a r i d g e - t o p cap r o c k which
but has since
the s t r a t i g r a p h y ,
time framework f o r
differentiation
constraints
f i e l d mapping, of
Pliocene
which now f l o w s t o t h e s o u t h of W e s t f a l l R o c k s .
F u r t h e r work i n t h e a r e a was d e s i g n e d
accurate
dissected
t o v a l l e y w a l l s more t h a n 100 m
The T i e t o n A n d e s i t e
down G o a t C r e e k ,
Detailed
b.p.
the topography.
h a v e a l s o been e r u p t e d
record.
age.
The Goat Rocks
15,000 f e e t
lava flow is
s i d e of W e s t f a l l R o c k s ,
Tieton River,
d e g r e e of e r o s i o n
source,
v a l l e y bottom.
around the northwest ent east-west
Near i t s
r e m n a n t s of
in
summit
t h e w o r l d s l o n g e s t known a n d e -
T h i s l a v a f l o w h a s a K-Ar a g e of 6 9 0 , 0 0 0 y e a r s
communication,
andesite
late Pleistocene.
( B e c r a f t 1950) i s
f l o w , e x t e n d i n g 80 km f r o m U s
Yakima.
the
a g e may h a v e r e a c h e d a n a l t i t u d e
The T i e t o n A n d e s i t e
the
e r u p t i v e h i s t o r y i n l a t e Miocene o r e a r l y
t o be a c t i v e u n t i l
of m i d d l e P l e i s t o c e n e
site
has a l s o destroyed
the s t u d y a r e a a r e t h e Goat Rocks, a d e e p l y
complex which began i t s
and c o n t i n u e d
1968).
by c i r q u e g l a c i e r s
The H o g b a c k M o u n t a i n b a s a l t s a r e p r o b a b l y m i d d l e P l e i s t o c e n e
In the southern
time,
Erosion
silicic resource
being
magma c h a m b e r s is s t i l l
being
or
Results R e s u l t s of t h e 1979 f i e l d s t u d y a r e p r e s e n t e d on a map of s c a l e 1 : 2 4 , 0 0 0 , w i t h i n t h e p o c k e t on t h e back c o v e r of O p e n - F i l e R e p o r t 8 0 - 8 of
this
report.
The map was f i r s t
t h e W a s h i n g t o n D i v i s i o n of Geology and E a r t h
found
released Resources.
as
References Cited
A b b o t t , A. T . , 1953, The g e o l o g y of t h e n o r t h w e s t p o r t i o n of t h e Mt. Aix q u a d r a n g l e Washington:
U n i v e r s i t y of Washington P h . D .
t h e s i s , 256 p .
A r m s t r o n g , R. L . , 1978, Cenozoic i g n e o u s h i s t o r y of t h e U . S . C o r d i l l e r a 49° N. l a t i t u d e :
G e o l o g i c a l S o c i e t y of America Memoir ( i n
A t w a t e r , T . , 1970, I m p l i c a t i o n s
press).
of p l a t e t e c t o n i c s f o r t h e Cenozoic
e v o l u t i o n of w e s t e r n N o r t h America:
from 4 2 ° t o
tectonic
G e o l o g i c a l S o c i e t y of America B u l l e t i n ,
v.
8 1 , p. 3 5 1 3 - 3 5 3 6 .
B e c r a f t , G. E . , 1950, D e f i n i t i o n of t h e T i e t o n A n d e s i t e on l i t h o l o g y and Washington S t a t e U n i v e r s i t y P h . D .
structure
t h e s i s , 26 p .
C a m p b e l l , K. V . ; M i e r s , J . G . ; N i c h o l s , B. M.; O l i p h a n t , J . ;
Pytlak,
S . ; Race, R. W
Shaw, G. H.; G r e s e n s , R. W., 1970, A s u r v e y of t h e r m a l s p r i n g s i n Washington S t a t e : N o r t h w e s t S c i e n c e , v . 4 4 , n o . 1, p . 1 - 1 1 .
C h r i s t i a n s e n , R. W.; Lipman, P . W., 1972, Cenozoic v o l c a n i s m and p l a t e e v o l u t i o n of t h e w e s t e r n U n i t e d S t a t e s I I ; L a t e C e n o z o i c : T r a n s a c t i o n s of t h e Royal S o c i e t y ,
London, A. v . 2 7 1 , p.
Philosophical 249-284.
Dungan, M. A.; Vance, J . A.; B l a n c h a r d , D . , 1979, T e c t o n i c s e t t i n g and e l e m e n t g e o c h e m i s t r y of Mesozoic o p h i o l i t i c American J o u r n a l of S c i e n c e ( i n
tectonic
rocks in western
trace
Washington:
press).
E l l i n g s o n , J . A . , 1959, G e n e r a l g e o l o g y of t h e C o w l i t z P a s s a r e a , c e n t r a l Mountains, Washington:
U n i v e r s i t y of Washington M. S. t h e s i s , 60 p .
Cascade
Ellingson, J . A., area,
1 9 6 8 , L a t e C e n o z o i c v o l c a n i c g e o l o g y of t h e W h i t e P a s s - G o a t
Cascade Mountains, Washington:
Rocks
Washington S t a t e U n i v e r s i t y P h . D .
thesis,
112 p .
Ellingson,
J . A.,
1969, P a l e o z o i c
s e d i m e n t a r y and m e t a m o r p h i c r o c k s i n t h e
Cascade Mountains, Washington: Programs f o r 1969, P a r t 3,
Ellingson, J . A.,
1972,
p.
G e o l o g i c a l S o c i e t y of America A b s t r a c t s
R. S . ;
The r o c k s and s t r u c t u r e
Fox, P. J . ;
Schreiber,
E.;
of
t h e White P a s s a r e a ,
1 9 6 3 , G e o l o g y of Mount
Goetsch,
S. A.,
p.
R o w l e t t , H . ; McCamy, K . ,
1 9 7 6 , The g e o l o g y of
1 9 7 8 , The m e t a m o r p h i c and s t r u c t u r a l
of W a s h i n g t o n M. S. t h e s i s ,
H a m i l t o n , W.; M y e r s , W. B . ,
County,
Pederson,
1966, Cenozoic
h i s t o r y of
Geophysical,
the Quartz
Mountain-
c e n t r a l Cascades, Washington:
p.
tectonics
of
University
the western United
509-549.
F . A . ; H o p k i n s , K. D . ; A i k e n s ,
G e o l o g y and g r a v i m e t r y of Range, Washington:
of
86 p .
Review of G e o p h y s i c s , v . 4 ,
Hammond, P . E . ;
Journal
the
4117-4128.
Lookout Mountain a r e a , K i t t i t a s
States:
Rainier
U . S . G e o l o g i c a l S u r v e y P r o f e s s i o n a l P a p e r 4 4 4 , 93 p .
o c e a n o g r a p h e r f r a c t u r e zone-A model f o r f r a c t u r e z o n e s : Research, v . 81,
Washington:
9-24.
H o p s o n , C. A . ; and W a t e r s , A. C . ,
National Park, Washington:
with
15-16.
Northwest S c i e n c e , v . 46, n o . 1, p.
Fiske,
southern
the Q u a t e r n a r y b a s a l t i c
P r o c e e d i n g s of
D . ; and o t h e r s ,
volcanic
field,
south
t h e 2nd U n i t e d N a t i o n s Symposium on
D e v e l o p m e n t and u s e of G e o t h e r m a l R e s o u r c e s , v .
1,
p.
397-405.
1976, Cascade
the
Karson, J . ;
Dewey, J .
F.,
1978, C o a s t a l complex, w e s t e r n Newfoundland-An
Ordovician oceanic f r a c t u r e zone: p.
Geological Society
early
of America B u l l e t i n , v . 89
1037-1049.
Kennet, J .
P . ; M c B i r n e y , A. R . ;
Thunell,
volcanism in the c i r c u m - P a c i f i c Research, v. 2,
p.
Riddihough,
Saleeby, J . ,
Washington:
R. P . ,
of
California.
1978,
E. A . ,
Society
thesis,
The J u a n de Fuca P l a t e :
zone t e c t o n i c s ,
I n C o l e m a n , R. D . ;
Geothermal
p.
n e a r Mount 576-578.
EOS, v . 5 9 , n o . 9 ,
continental belt,
I r w i n , W. P . ,
1971, Small p l a t e
tectonics p.
p.
836-842.
margin f r a g m e n t a t i o n ,
southwest
editors,
Sierra
p.
in the n o r t h e a s t e r n P a c i f i c :
ophiolites
141-159.
Geological
3491-3496.
1 9 5 0 , The R u s s e l l Ranch F o r m a t i o n :
Washington S t a t e U n i v e r s i t y
M.S
26 p .
Simmons, G. C . ;
Van Noy, R. M.; Z i l k a ,
N. T . ,
1974, Mineral
resources
of
the
C o u g a r L a k e s - M o u n t Aix s t u d y a r e a , Yakima and L e w i s C o u n t i e s , W a s h i n g t o n : G e o l o g i c a l Survey O p e n - f i l e Report
Simpson,
and
Nevada,
North American
of G e o l o g y and M i n e r a l I n d u s t r i e s B u l l e t i n 9 5 ,
of A m e r i c a B u l l e t i n , v . 8 2 ,
Simmons, G. C . ,
Cenozoic
of V o l c a n o l o g y and
m e t a m o r p h i s m of b a s e m e n t g n e i s s e s
the Kings-Kaweah o p h i o l i t e
Oregon Department
Silver,
Journal
of
C a r n e g i e I n s t i t u t e Y e a r Book, n o . 7 1 ,
1977, F r a c t u r e
emplacement
region:
1977, E p i s o d e s
145-163.
M a t t i n s o n , J . M., 1972, J u r a s s i c Rainier,
R. C . ,
R. W.; Cox, A . ,
74-243,
1977, P a l e o m a g n e t i c
22 p .
evidence
t h e Oregon Coast Range: Geology, v . 5 , n o . 10,
p.
for tectonic 585-589.
rotation
of
U.S.
Snavely,
P. D., J r . ;
W a g n e r , H. C . ,
O r e g o n and W a s h i n g t o n : Investigations
1 9 6 3 , T e r t i a r y g e o l o g i c h i s t o r y of
W a s h i n g t o n D i v i s i o n of Mines and G e o l o g y R e p o r t of
2 2 , 25 p .
S t o u t , M. W., 1 9 6 4 , G e o l o g y of a p a r t Washington:
Suppe, J . ;
of
the s o u t h - c e n t r a l
G e o l o g i c a l S o c i e t y of America B u l l e t i n ,
Powell,
C.;
Berry,
Quaternary volcanism,
R.,
1975, R e g i o n a l
and t h e p r e s e n t - d a y
A m e r i c a n J o u r n a l of S c i e n c e , v . 275 A, p .
S w a n s o n , D. A . , area,
Vance, J .
1964,
Cascade
topography,
tectonics
Mountains,
v . 75, p.
of
317-337.
seismicity,
the western United
r o c k s of
t h e T i e t o n River
Johns Hopkins U n i v e r s i t y P h . D .
t h e s i s , 334 p .
1 9 7 7 , E a r l y and m i d d l e C e n o z o i c magmatism and t e c t o n i c s ,
Mountains, Washington:
Vance, J . A.,
EOS ( A b s . ) ,
v. 58,
p.
Cascade
1247.
1 9 7 9 , E a r l y and m i d d l e C e n o z o i c a r c magmatism and t e c t o n i c s
Washington S t a t e :
Geological Society
States
397-436.
The m i d d l e and l a t e C e n o z o i c v o l c a n i c
s o u t h - c e n t r a l Washington:
A.,
western
of America A b s t r a c t s
in
with Programs
(in
press).
Vance, J .
A.;
volcanic of
N a e s e r , C. W., 1 9 7 7 , F i s s i o n r o c k s of
the c e n t r a l Cascade Mountains,
America A b s t r a c t s
Vance, J .
A.; M i l l e r ,
structure
t r a c k g e o c h r o n o l o g y of
with Programs, v . 9, no. 4,
R. B . ,
1 9 7 9 , The S t r a i g h t
in the Washington Cascades:
Washington: p.
the
Geological
Society
520.
Creek f a u l t - A m a j o r
Submitted
Tertiary
Cenozoic
to S.E.P.M. volume,
Cenozoic
over ocean r i d g e s :
Nature,
Paleogeography.
Vine, v.
F. J . ;
M a t h e w s , D. H . ,
199, p .
947-949.
1963, Magnetic a n o m a l i e s
Vogt, P. R.; oceanic
Lowrie, A.;
Bracey,
D. R . ; Hey, R. N . ,
r i d g e s - E f f e c t s on s h a p e ,
suming p l a t e
boundaries:
seismicity,
Geological Society
1 9 7 6 , S u b d u c t i o n of
and o t h e r
seismic
characteristics
of
con-
of A m e r i c a S p e c i a l P a p e r 1 7 2 , 59
A d d i t i o n s and Comments by Michael A. Korosec
I n 1979 g e o l o g i c mapping i n t h e White Pass-Tumac Mountain a r e a of t h e Washington c e n t r a l C a s c a d e s , and a d d i t i o n a l mapping c a r r i e d out i n 1980 f o r t h e a r e a to
the
n o r t h (up t o Bumping L a k e ) , has g i v e n us a b e t t e r i d e a of t h e type and e x t e n t of v o l c a n i s m e x p e r i e n c e d by t h i s r e g i o n .
Geoff C l a y t o n h a s been a b l e to
demonstrate
t h a t t h i s s e c t i o n of t h e Cascades i s p o s s i b l y a huge d o m e - l i k e s t r u c t u r e , which h a s e x p e r i e n c e d n e a r l y c o n t i n u o u s v o l c a n i s m from t h e Miocene, t h r o u g h t h e P l i o c e n e and Pleistocene,
a c t i v i t y which has c o n t i n u e d i n t o the H o l o c e n e .
time, there are indications moving s l o w l y t o t h e
Through t h i s p e r i o d of
t h a t t h e " c e n t e r " of t h e b u l k v o l c a n i c a c t i v i t y may be
north.
F u r t h e r s t u d i e s by C l a y t o n w i l l b e g i n s h e d d i n g l i g h t on t h e complex n a t u r e of
the
r o c k s and magmas b e n e a t h the s t r u c t u r a l dome, and may l e a d to t h e development of g e n e r a l magma mixing models and d e t e r m i n a t i o n s of what t y p e s of magma chambers e x i s t . today.
Beyond t h e 1980 f i e l d mapping, a d d i t i o n a l work c o u l d be c a r r i e d out i n the r e g i o n t o t h e s o u t h , i n c l u d i n g t h e Goat Rocks v o l c a n i c s .
Working w i t h
g e o l o g i s t s who a r e s t u d y i n g v o l c a n i c f i e l d s of t h e s o u t h C a s c a d e s , ( D r . Hammond, P o r t l a n d S t a t e U n i v e r s i t y i n p a r t i c u l a r ) ,
Paul
time-space-composition
f o r most of W a s h i n g t o n ' s Q u a t e r n a r y t o r e c e n t v o l c a n i s m might be worked
models out.
T h i s s h o u l d l e a d to a b e t t e r u n d e r s t a n d i n g of t h i s complex g e o l o g i c p r o v i n c e and t o new methods which w i l l a l l o w f o r s p e c i f i c t a r g e t i n g of volcanic-related
geothermal
resources.
potential
VII.
GEOTHERMAL INVESTIGATIONS IN THE CAMAS AREA, WASHINGTON, 1979
by
M i c h a e l A. K o r o s e c and J . Eric Schuster
D i v i s i o n of Geology and E a r t h R e s o u r c e s O l y m p i a , Washington
VII.
GEOTHERMAL INVESTIGATIONS IN THE CAMAS AREA, WASHINGTON, 1979 by M i c h a e l A. Korosec and J . E r i c
Schuster
Introduction The town of Camas, W a s h i n g t o n , i s l o c a t e d a l o n g the Columbia R i v e r west of Cascade M o u n t a i n s . w i t h i n t h e town.
Crown Z e l l e r b a c h C o r p o r a t i o n o p e r a t e s a l a r g e p u l p and paper This m i l l
S t a t e of W a s h i n g t o n . f o r geothermal
is
the l a r g e s t
As s u c h , t h e Camas a r e a became a v e r y d e s i r a b l e p l a c e to look
energy.
geothermal r e s o u r c e s .
t h e p o s s i b l e e x i s t e n c e of
The Lacamas F a u l t e x t e n d s n o r t h w e s t from t h e Columbia R i v e r
n e a r Camas, and can be t r a c e d a l o n g Lacamas Lake t o a p o i n t about 8 m i l e s T h r o u g h o u t t h e r e g i o n , s e v e r a l s m a l l c i n d e r cones dot t h e
These b a s a l t i c v o l c a n i c s , Pleistocene
in
northlandscape.
p a r t of t h e B o r i n g L a v a , a r e t h o u g h t to be e a r l y to middle
age.
The b e s t i n d i c a t o r s of p o s s i b l e g e o t h e r m a l r e s o u r c e s , h o w e v e r , were t h e of a warm s p r i n g and warm w e l l a c r o s s the Columbia R i v e r i n O r e g o n . spring,
mill
s i n g l e i n d u s t r i a l e n e r g y consumer i n t h e
There were a few g e o l o g i c i n d i c a t o r s which s u g g e s t
west of town.
the
C o r b e t t warm
f l o w i n g a b o u t 10 gpm a t 18°C, l i e s on an e x t e n s i o n of the s t r i k e of
Lacamas F a u l t , a b o u t 6 m i l e s s o u t h e a s t of t h e town.
existence
The Y.M.C.A. w e l l ,
the
located 3
m i l e s f a r t h e r s o u t h , i s 313 f e e t d e e p , and p r o d u c e s w a t e r w i t h a t e m p e r a t u r e of 22°C. When Na-K-Ca g e o t h e r m o m e t e r s a r e a p p l i e d t o t h e s e w a t e r s ( u s i n g b e t a = l / 3 ) , Warm s p r i n g s and t h e Y.M.C.A. w e l l a r e both p r e d i c t e d t e m p e r a t u r e s of 177°C. reservoir
temperatures
The Q u a r t z - S i l i c a
to have e q u i l i b r i u m
geothermometer p r e d i c t s
of 107° and 115°C f o r t h e s p r i n g and
Corbett reservoir
equilibrium
well.
The 1979 P r o j e c t To b e t t e r d e l i n e a t e
t h e g e o t h e r m a l p o t e n t i a l of
the Camas a r e a , t h e D i v i s i o n
s u b c o n t r a c t e d a g r a v i t y s u r v e y of t h e r e g i o n ( c o n d u c t e d by Dr. Z. F. Danes,
U n i v e r s i t y of P u g e t Sound) and a DC R e s i s t i v i t y Survey of t h e f a u l t zone by R. B. McEuen of E x p l o r a t i o n G e o t h e r m i c s , and F . A. Rigby of S c i e n c e Inc.).
The f i n a l r e p o r t
addition,
from the r e s i s t i v i t y
(conducted
Applications,
s u r v e y i s p r e s e n t e d i n Appendix C.
t h e D i v i s i o n measured t e m p e r a t u r e g r a d i e n t s
in e x i s t i n g wells, d r i l l e d
h e a t f l o w h o l e s based on t h e r e s u l t s of t h e r e s i s t i v i t y and g r a v i t y s u r v e y s ,
In two
and
r e s a m p l e d and a n a l y z e d t h e w a t e r s from t h e s p r i n g and w e l l a c r o s s the Columbia R i v e r i n Oregon.
Results Measurements c o n d u c t e d f o r e x i s t i n g w e l l s in t h e Camas a r e a y i e l d e d g r a d i e n t s of l e s s
t h a n 40°C/km,
temperature
t y p i c a l l y f a l l i n g between 2 5 ° and 35°C/km.
Two w a t e r
w e l l s l o c a t e d t o t h e e a s t of 122°10'W, a b o u t 15 t o 18 m i l e s e a s t of Camas,
produced
g r a d i e n t s of a b o u t 53 and 69°C/km. The two g r a d i e n t - h e a t
f l o w w e l l s d r i l l e d by t h e D i v i s i o n , Camas No. 1 and Camas
No. 2 , gave t e m p e r a t u r e g r a d i e n t s of 3 1 . 5 and 37°C/km.
The f o r m e r w e l l was
drilled
152 m e t e r s i n t o T e r t i a r y v o l c a n i c s and s e d i m e n t s and t h e l a t t e r , 72 m e t e r s d e e p , was e n t i r e l y In l a t e ( ? ) T e r t i a r y
sediments.
The r e s u l t s of the w a t e r a n a l y s e s f o r t h e C o r b e t t e S p r i n g and t h e Y.M.C.A. were v i r t u a l l y t h e same a s p r e v i o u s a n a l y s e s ( s e e t a b l e
well
4.2).
Discussion D e s p i t e t h e e x i s t e n c e of Q u a t e r n a r y v o l c a n i c r o c k s i n t h e a r e a , Camas seems to l i e w i t h i n t h e low h e a t
f l o w p r o v i n c e of t h e P u g e t Lowland, j u s t west of
t r a n s i t i o n zone which l e a d s t o t h e h i g h e r h e a t f l o w p r o v i n c e of the s o u t h
the Cascades.
The B o r i n g B a s a l t s , which c r o p out n e a r t h e town (Green M o u n t a i n , Brunner H i l l , w e s t of P r u n e H i l l ) ,
are very small c e n t e r s ,
too o l d to have r e t a i n e d any h e a t .
and They
a r e t h o u g h t to be anywhere from 100,000 t o 1 m i l l i o n y e a r s o l d , a s r e p o r t e d by various geologists.
Some of the m a t e r i a l exposed i n t h e road c u t s n e a r Prune H i l l
l o o k s f r e s h enough t o be younger than 100,000 y e a r s o l d , but no work has been done to
q u a l i f y the a c t u a l a g e .
( A l t h o u g h o r i g i n a l l y proposed a s p a r t of t h e
geothermal
i n v e s t i g a t i o n a t Camas, g e o l o g i c mapping and age d a t i n g of t h e m a t e r i a l i n t h e v i c i n i t y of Camas was dropped i n f a v o r of t h e r e s i s t i v i t y
s u r v e y , a recommendation
handed down by an ad hoc committee of U . S . Department of Energy, U.S. S u r v e y , Department of N a t u r a l R e s o u r c e s , and c o n s u l t i n g g e o l o g i s t s Camas
project.)
No m a t t e r what the a g e , i t a p p e a r s t h a t
Geological
interested
in the
t h e s o u r c e s of magma f o r
t h e s e v o l c a n i c s were e i t h e r v e r y s m a l l or v e r y d e e p , and have s i n c e cooled and discontinued supplying heat to the
surface.
From p r e v i o u s mapping, t h e o n l y o t h e r s i g n i f i c a n t v o l c a n i c c e n t e r i s the Boring Basalt field at Battleground,
a b o u t 12 t o 14 m i l e s (20 t o 23 km) n o r t h of t h e town.
There have been a few rumors of t h e e x i s t e n c e of warm w a t e r w e l l s i n t h e a r e a , b u t none have been f o u n d .
The two w e l l s t h a t were deep enough t o measure
t h a t a r e a , o n l y 1 and 2 m i l e s from t h e v o l c a n i c s ,
T e m p e r a t u r e g r a d i e n t s do not s t a r t
in
produced t e m p e r a t u r e g r a d i e n t s of
25° and 40° C/km, s i m i l a r t o t h e low g r a d i e n t s found t h r o u g h o u t t h e
region.
t o i n c r e a s e s i g n i f i c a n t l y u n t i l one moves
a b o u t 15 t o 18 m i l e s e a s t t o a b o u t S k a m a n i a . flow p i c t u r e for southwestern Washington. mWatts/m 2
Battleground
F i g u r e 3 . 4 shows t h e c o n t o u r e d
heat
Camas f a l l s between t h e 40 and 50
contours.
D e s p i t e l y i n g w i t h i n a low h e a t f l o w p r o v i n c e , w i t h l i t t l e from a v o l c a n i c system,
i t was s t i l l
chance of t a p p i n g
p o s s i b l e t h a t deep s e a t e d s t r u c t u r e s ,
heat
like
f a u l t s or f r a c t u r e z o n e s , m i g h t have been a l l o w i n g r e l a t i v e l y moderate to h i g h t e m p e r a t u r e f l u i d s to m i g r a t e from d e e p e r d e p t h s i n t o s h a l l o w e r The Lacamas F a u l t was a l i k e l y c a n d i d a t e f o r t h i s , and w e l l r e c o g n i z e d f a u l t i n t h e a r e a . extending s t r u c t u r a l
features across
O r e g o n , i t was c u r i o u s of
that
it
being t h e most
Though many g e o l o g i s t s c a u t i o n
extensive against
t h e Columbia R i v e r between Washington and
C o r b e t t S t a t i o n warm s p r i n g s h o u l d f a l l on an e x t e n s i o n
the s t r i k e of the Lacamas F a u l t .
p a r t of t h e f a u l t ,
aquifers.
But even if t h i s warm s p r i n g i s c o n t r o l l e d
by
does not n e c e s s a r i l y mean t h a t warm w a t e r s a r e r i s i n g a l o n g
the
entire
l e n g t h of
the f a u l t ,
area.
The two a r e a s a r e
e s p e c i a l l y 6 t o 10 m i l e s
separated
very poorly understood.
to the northwest
by t h e C o l u m b i a R i v e r ,
Most g e o l o g i s t s
hesitate
i n t h e Camas
a m a j o r s t r u c t u r e which
projecting anything across
is
this
structure. None of
the temperature
suggesting that fault,
I n an e f f o r t
anomalies.
ohm-meters,
consisted
( j u s t n o r t h of
of
possible
These a n o m a l i e s ,
the town),
and t h e n o r t h e r n
Drill holes
the
located
gravels,
resistivity
identified
located
layers
of
north
resistive
lows w e r e m o d e l e d a s a l e s s
the (see
two a r e a s
lows w i t h v a l u e s of a b o u t
with
10 study
of Lacamas L a k e . and
The
conductive
complex, homogeneous
in close and h e a t
proximity flow,
to the c e n t e r s
similar
of
section
these anomalies
to v a l u e s measured
in existing
(at
least of
in
part)
is
likely
that
by " c l a y " z o n e s w i t h i n
the T r o u t d a l e
the T r o u t d a l e ,
it
and a s s u g g e s t e d
but
Formation.
t h e b a s a l t was p a r t and g r a v e l s u n d e r l i e
of
produced wells
the
formation,
c o n d u c t i v e and r e s i s t i v e
fitting strata.
it
materials
the r e s i s t i v i t y
bottomed
in basalt
lows
are
sands,
The n o r t h e r n h o l e was
the southern hole
the Skamania V o l c a n i c s ,
by
the T e r t i a r y
e i t h e r Miocene Columbia R i v e r complex or e a r l y P l e i s t o c e n e
alternating
local
t o w a r d s t h e s o u t h end on t h e
and a b r o a d e r a r e a
g e o l o g i c mapping i n the a r e a ,
and b r e c c i a s
e n t i r e l y within
the
o u t by a s u b c o n t r a c t o r
the r e s u l t s
small area
during the d r i l l i n g o p e r a t i o n ,
being produced
increase
the
region.
From a v a i l a b l e collected
along
points
ground.
only average gradients throughout
only i s o l a t e d
z o n e s of warm w a t e r u p w e l l i n g a l o n g
e a r t h m o d e l i n g of
of a r e l a t i v e l y
f a i r l y conductive
anomalous,
enough to a p p r e c i a b l y
s o u t h e r n a n o m a l y was m o d e l e d a s a l t e r n a t i n g material,
t h e town w e r e a t a l l
s u r v e y was d e s i g n e d and c a r r i e d
Two-dimensional
resistivity
area
significant
to pinpoint
a D.C. r e s i s t i v i t y
Appendix C ) .
measured near
warm w a t e r was f l o w i n g upward a t
t h e e f f e c t s were not
gradients. fault,
if
gradients
drilled ( w h i c h was
"Skamania V o l c a n i c s " ) .
is possible
that Troutdale
the two-dimensional
resistivity
If
clays model of
Conclusions The 1979 g e o t h e r m a l a s s e s s m e n t program i n the Camas a r e a did not f i n d any i n d i c a t i o n t h a t s i g n i f i c a n t g e o t h e r m a l r e s o u r c e s u n d e r l i e t h e Camas a r e a a t depths.
The r e s u l t s a l s o s u g g e s t t h a t
resources at intermediate
t h e r e a r e no l a r g e anomalous
to deeper d e p t h s .
t e m p e r a t u r e g r a d i e n t s and low h e a t
shallow
geothermal
The a r e a i s c h a r a c t e r i z e d
by a v e r a g e
flow.
I f economics d i c t a t e d t h a t p r o d u c t i o n w e l l s be 8 , 0 0 0 f e e t ( 2 . 4 km) deep f o r Crown Z e l l e r b a c h P a p e r M i l l P r o j e c t ,
t e m p e r a t u r e s e n c o u n t e r e d a t t h e bottoms of
the such
h o l e s may be in t h e r a n g e of 95 t o 115°C ( u s i n g t e m p e r a t u r e g r a d i e n t s of 35 t o 40°C/km).
I n o r d e r to r e a c h t h e t a r g e t e d t e m p e r a t u r e used in e a r l y
feasibility studies,
180°C, p r o d u c t i o n h o l e s would need to be d r i l l e d
14,000 t o 16,000 f e e t ( 4 . 2 t o 4 . 8 k m ) .
In a d d i t i o n ,
f l o w i n g a q u i f e r s e x i s t a t any of t h e s e d e p t h s .
project to d e p t h s of
t h e r e i s no g u a r a n t e e
O r i g i n a l s t u d i e s assumed t h e r e would
be f r a c t u r e z o n e s , a s s o c i a t e d w i t h t h e Lacamas F a u l t which would s e r v e a s There i s p r e s e n t l y no i n f o r m a t i o n on t h e n a t u r e of the Lacamas F a u l t or zones a t
that
aquifers. its
fracture
depth.
With what we know a t t h i s p o i n t i n t i m e , i t can be e c o n o m i c a l l y u t i l i z e d a t Camas.
i s u n l i k e l y that geothermal
resources
With so l i t t l e e n c o u r a g i n g i n f o r m a t i o n and so
much d i s c o u r a g i n g d a t a , t h e D i v i s i o n h a s no i n t e n t i o n of f u r t h e r p u r s u i n g any g e o t h e r m a l p r o j e c t s in t h e Camas a r e a .
VIII.
GEOTHERMAL ASSESSMENT OF MOUNT ST. HELENS, WASHINGTON, 1979
by
M i c h a e l A. K o r o s e c and J . Eric
Schuster
D i v i s i o n of Geology and E a r t h R e s o u r c e s O l y m p i a , Washington
VIII.
GEOTHERMAL ASSESSMENT OF MOUNT ST. HELENS, WASHINGTON, 1979 by M i c h a e l A. Korosec and J . E r i c
Schuster
Introduction The reawakened Cascade s t r a t o v o l c a n o Mount S t . Helens was a prime g e o t h e r m a l t a r g e t of t h e D i v i s i o n of Geology and E a r t h R e s o u r c e s i n 1979, p r i o r t o mountain's eruption.
Mount S t . Helens was known t o be a young v o l c a n o , h a v i n g
observed to erupt in h i s t o r i c a l and ended i n 1857.
time.
been
The p r e v i o u s v o l c a n i c e p i s o d e began a b o u t 1842
While o t h e r Cascade s t r a t o v o l c a n o e s
f e s t a t i o n s of e x i s t i n g t h e r m a l a c t i v i t y ,
e x h i b i t e d more s u r f a c e m a n i -
such a s Mount Baker w i t h i t s
large
f u m a r o l e s i n Sherman C r a t e r , Mount S t . Helens became t h e most a t t r a c t i v e p a r t b e c a u s e of i t s
the
land s t a t u s and p r o x i m i t y t o p o p u l a t i o n c e n t e r s .
steaming
target
in
The land
o w n e r s h i p in t h e r e g i o n , ( r o u g h l y 1 / 3 US F o r e s t S e r v i c e , 1 / 3 S t a t e l a n d s , and 1 / 3 private),
and i t s
p r o x i m i t y to t h e c i t i e s of V a n c o u v e r , P o r t l a n d , Longview,
and C a s t l e Rock, p l a c e d Mount S t . Helens a t t h e t o p of t h e l i s t ,
Kelso,
ahead of the more
remote s t r a t o v o l c a n o e s , most of which a r e l o c k e d up in N a t i o n a l P a r k s or W i l d e r n e s s Areas. D u r i n g 1979, t h e D i v i s i o n i n i t i a t e d a g e o t h e r m a l a s s e s s m e n t of Mount S t . w i t h an e x a m i n a t i o n of a v a i l a b l e
literature.
A g r a v i t y s u r v e y was c a r r i e d out by
Dr. Z. F. Danes, as p a r t of a b r o a d e r s u r v e y of t h e e n t i r e s o u t h C a s c a d e s , of on and around t h e f l a n k s , and d r i l l i n g
springs
t h r e e 125 t o 155 m e t e r cased d r i l l h o l e s
t h e p u r p o s e s of m e a s u r i n g t e m p e r a t u r e g r a d i e n t s and c a l c u l a t i n g h e a t From the l i t e r a t u r e ,
Helens
and from d i s c u s s i o n s w i t h l o c a l r e s i d e n t s
for
flow.
f a m i l i a r with
m o u n t a i n , t h e o n l y e x i s t i n g t h e r m a l s u r f a c e f e a t u r e s I n c l u d e d warm ground a t t h e
the site
of a r e p o r t e d f u m a r o l e n e a r t h e Boot on t h e upper n o r t h f l a n k a t an e l e v a t i o n of 2740
m e t e r s (9040 f e e t )
(Phillips,
1942; F r i e d m a n and F r a n k , 1 9 7 7 ) , warm ground on t h e
u p p e r s o u t h w e s t f l a n k a t an e l e v a t i o n between 2650 and 2750 m ( a b o u t 8800 f e e t ) a l o n g a c o n t a c t of t h e d a c i t e summit dome (Friedman and F r a n k ,
1 9 7 7 ) , warm ground
a l o n g t h e s o u t h e r n b a s e of Pumice B u t t e on t h e P l a i n s of Abraham, warm ground n e a r t h e u p p e r r e a c h e s ( n o r t h e r n s e c t i o n ) of t h e Ape Caves a r e a , and warm ground n e a r
the
t e r m i n o u s of the F l o a t i n g I s l a n d Lava Flow. The warm ground a r e a s n e a r t h e summit were d e t e c t a b l e
by a e r i a l
thermal
Infrared
s u r v e y s in 1966 (Moxham, 1970) and c o n f i r m e d by a e r i a l p h o t o g r a p h y and ground
verifi-
c a t i o n i n e a r l y 1972 ( F r i e d m a n and F r a n k ,
have
o n l y been c o n f i r m e d by o b s e r v a t i o n s
1977).
The o t h e r warm ground a r e a s
of l o c a l r e s i d e n t s
in the a r e a .
They have
r e p o r t e d deep h o l e s t h r o u g h t h e snow c o v e r , o v e r r e l a t i v e l y e x t e n s i v e a r e a s i n some c a s e s , a t t h e bottoms of which g r e e n g r a s s and p l a n t s grew y e a r a r o u n d . reason to question these o b s e r v a t i o n s ,
e s p e c i a l l y t h e o c c u r r e n c e a t t h e t e r m i n u s of
t h e F l o a t i n g I s l a n d Lava Flow, where t h e r e was a l s o r e p o r t e d elk
There i s no
t o be s u l f u r fumes and
licks.
Results S e v e r a l s p r i n g s were sampled d u r i n g t h e l a t e summer and f a l l around Mount Helens.
A l l were c o l d , w i t h v e r y low d i s s o l v e d s a l t s .
St.
A p a r t i a l a n a l y s i s of
these
w a t e r s was c a r r i e d o u t by t h e a u t h o r , and o n l y v e r y low l e v e l s of normal ground w a t e r i o n s (Na, K, Ca, S i O 2 , HCO3, and C l ) w i t h no l i t h i u m were d e t e c t e d .
Most s p r i n g s on
Mount S t . H e l e n s f l o w e d o u t f r o m l a v a f l o w s , such a s Kalama S p r i n g s on t h e s i d e and Moss S p r i n g s on the s o u t h e a s t
side.
The w a t e r s p r o b a b l y o r i g i n a t e
southwest as
m e t e o r i c w a t e r from snow and g l a c i a l i c e m e l t s , which f l o w t h r o u g h t h e l a v a f l o w s to t h e lower s l o p e s .
The w a t e r s p r o b a b l y n e v e r p e n e t r a t e deep enough to be h e a t e d
possible heat sources. prevent
This i d e a l i z e d
s h e e t f l o w of w a t e r down t h e f l a n k s may
t h e d e t e c t i o n of t h e r m a l f e a t u r e s a t
d i l u t i n g any h o t w a t e r s
by
that are convected
the s u r f a c e by d i s s i p a t i n g
upward.
the heat
and
FIGURE 8 . 1 . — T e m p e r a t u r e v s . d e p t h p r o f i l e s f o r M o u n t S t . H e l e n s drill
holes.
From m i d - S e p t e m b e r 1979 t h r o u g h mid-November 1979, t h r e e h e a t f l o w h o l e s were d r i l l e d around Mount S t . H e l e n s .
S t . Helens D r i l l Hole No. 1 (SHDH 1) was l o c a t e d
a l o n g t h e n o r t h s i d e of S t a t e Route 504 ( a l s o known a s t h e S p i r i t Lake Road) a t
the
S t u d e b a k e r Creek Road t u r n o f f
( T . 9 N . , R. 5 E . , NW1/4NW1/4 s e c t i o n 1 8 ) , a b o u t 8 km
north-northwest
The h o l e was f i n i s h e d and cased to a d e p t h of 125
meters.
of t h e p a r k .
The bottom h o l e t e m p e r a t u r e was measured t o 9.9°C and a r e l a t i v e l y
l i n e t e m p e r a t u r e g r a d i e n t was d e t e r m i n e d t o be 19°C/km.
straight
The s i t e was d e s t r o y e d by
t h e May 18, 1980 e r u p t i o n and now l i e s below 50 t o 80 m e t e r s of d e b r i s and pyroclastic
flows.
S t . Helens D r i l l Hole No. 2 (SHDH2) i s l o c a t e d above Goat Marsh on USFS Road N847, 8 km s o u t h e a s t from t h e f o r m e r summit.
The h o l e was completed a t a d e p t h of 154
m e t e r s , p r o d u c i n g a b o t t o m h o l e t e m p e r a t u r e of 8 . 2 ° C and a g r a d i e n t of 38°C/km. drill
s i t e seems t o have been s p a r e d by t h e f i r s t y e a r of e r u p t i v e
This
activity.
S t . Helens D r i l l Hole No. 3 (SHDH3) i s l o c a t e d n e a r t h e west end of an unnamed marsh, s o u t h - s o u t h e a s t
of the summit, i n a borrow p i t q u a r r y a l o n g t h e Marble
Mountain Road (USFS Road N809).
The s i t e i s a b o u t 8 km from t h e f o r m e r summit.
h o l e was c o m p l e t e d a t a d e p t h of 131 m e t e r s , b u t o n l y a f t e r c o n s i d e r a b l e b e c a u s e of poor d r i l l i n g c o n d i t i o n s .
difficulties
The f i r s t t e m p e r a t u r e measurements were made
May 3 , 1980, j u s t o v e r one month a f t e r t h e i n i t i a l
phreatic eruptions
two weeks b e f o r e t h e c a t a s t r o p h i c e r u p t i o n of May 18.
(March 2 7 ) and
The t e m p e r a t u r e measured
d e p t h v a r i e d by o n l y a b o u t 1°C t h e e n t i r e l e n g t h of t h e h o l e ( v i r t u a l l y a t t h e v e r y c o l d t e m p e r a t u r e of a b o u t 4°C. a c c e s s by r o a d s h a s been c u t o f f
The
The s i t e i s p r o b a b l y s t i l l
by mudflows from t h e v o l c a n o ' s
at
isothermal), preserved,
but
flanks.
Discussion The r e l a t i v e l y low t e m p e r a t u r e g r a d i e n t s of t h e Mount S t . Helens d r i l l r e s u l t e d i n s i m i l a r l y low h e a t f l o w .
holes
Hole SHDH 2 h a s a c a l c u l a t e d h e a t f l o w of
54 mW/m2, r e p r e s e n t i n g an e x p e c t e d r e g i o n a l v a l u e .
The SHDH 1 h e a t f l o w of 38 mW/m2
i s more t y p i c a l
of
h i g h d e g r e e of regime
doubt as to whether
than the Cascade Mountains.
these holes
( u n a f f e c t e d by a n o m a l o u s c o n d i t i o n s
the r e s u l t All rocks
the P u g e t Lowland
of
local hydrological
t o be c o l l a r e d
(Eocene to Oligocene a g e ) . basalt
and a n d e s i t e
than the younger m a t e r i a l these Tertiary
The r o c k s
lavas,
with t e r r a i n
of
complications.
But c o n s i d e r i n g
that
Q u a t e r n a r y r o c k s , and n o t i n g
the e x i s t e n c e
site
of
several
least
that
the area,
not
s p h e r e of
fall
water. are
proximity
to
the Toutle River could in
t h i s water is
rocks as w e l l
cold springs within
likely
as the
valley
flow In the
below the
have
c u t down t o
f l o w w o u l d be g r e a t l y
area
reduced,
at
" b l a n k e t " of
f l o w m e a s u r e m e n t s makes i t regional heat
the a c t u a l
thermal regime e x i s t i n g
conditions.
difficult
to give a f a i r
evaluation
flow.
drilled collared
into
In a d d i t i o n ,
t h e Ohanapecosh f o r m a t i o n ,
i n Marble Mountain v o l c a n i c s ,
it
is
despite
believing
likely that
In
But t h e a b s e n c e of
The same h y d r o l o g i c c o n d i t i o n s w h i c h a r e p o s s i b l y a t work n e a r SHDH 1 a r e d e f i n i t e l y o c c u r r i n g a t SHDH 3 .
cold
influence.
s i g n i f i c a n t l y a f f e c t e d by h y d r o l o g i c
SHDH 2 i n t h e c o n t e x t of
result,
c o u l d be t a k e n c a r e o f ,
to p e n e t r a t e
a t SHDH 2 m o s t l i k e l y r e p r e s e n t
any o t h e r n e a r b y h e a t of
holes
its
f l o w ) , any a n o m a l o u s h e a t
regional heat
The r e s u l t s
As a
t h e a r e a a s an open v a l l e y ,
w o u l d be w i p e d o u t , and t h e a c t u a l when m e a s u r e d i n d r i l l
but
flows through the T e r t i a r y
(suggesting vertical
g r o u n d w a t e r and i t s
volcanoclastics
f l o w of g r o u n d
t h e s o u r c e of much of
that
the d r i l l
rock,
This s i t u a t i o n
very cold g l a c i a l melt water
near
are
rocks.
t h e N o r t h F o r k of
c o r r e c t i o n s which t r e a t
some a s s u m e d d e p t h .
p e r c e n t a g e of
permeable to v e r t i c a l
through T e r t i a r y
p o s s i b l y deep Q u a t e r n a r y v a l l e y f i l l
part,
are
volcanic
beyond t h e l o w e r f l a n k s of Mount S t . H e l e n s
SHDH 1 was d e f i n i t e l y d r i l l e d
in hydrologic
Ohanapecosh
from the nearby Quaternary s t r a t o v o l c a n o .
just
flow
or whether the values
in the surrounding outcrops
t o p o g r a p h i c h i g h s or i s l a n d s above t h e Q u a t e r n a r y
resulted
the true regional heat
in Tertiary
with a smaller
rocks are i d e a l l y l e s s
The O h a n a p e c o s h o u t c r o p s
in the a r e a ) ,
a
problems.
t h r e e h o l e s were t h o u g h t
zeolitized
represent
There i s s t i l l
that
t h e h o l e was
t h e h o l e was
a m i d - Q u a t e r n a r y u n i t known t o
actually occur
t h r o u g h o u t t h e a r e a t o t h e s o u t h w e s t and s o u t h e a s t of SHDH 3 .
Rubbly
volcanoclastics
e n c o u n t e r e d b e n e a t h c o h e r e n t f l o w r o c k s may be a n c i e n t d e p o s i t s from a v e r y e a r l y Mount S t . H e l e n s or some o t h e r nearby Q u a t e r n a r y v o l c a n i c Assuming t h a t t h e r e s u l t s
center.
from SHDH 1 and 2 a r e c l o s e to t h e a c t u a l h e a t f l o w of
t h e a r e a , t h e r e g i o n a l h e a t f l o w s e t t i n g of Mount S t . Helens can be d i s c u s s e d r e s p e c t t o t h e r e s t of t h e s o u t h w e s t C a s c a d e s .
with
The map i n F i g u r e 3 . 4 ( i n c h a p t e r
p r e s e n t s a c o n t o u r e d p i c t u r e of t h e r e g i o n a l h e a t f l o w .
A sharp t r a n s i t i o n
3),
exists
between t h e Western Washington Region (Puget Lowland P r o v i n c e ) and t h e South Cascades Region.
This t r a n s i t i o n
r u n s r o u g h l y n o r t h - s o u t h , f r o m t h e Skamania a r e a on t h e
Columbia R i v e r , c r o s s i n g t h e C o w l i t z R i v e r v a l l e y between t h e towns of Morton and R a n d l e , and e x t e n d i n g f u r t h e r n o r t h on t h e west s i d e of Mount R a i n i e r N a t i o n a l Mount S t . Helens a p p e a r s to f a l l w i t h i n t h i s t r a n s i t i o n
zone.
Park.
R e s u l t s from a few
d r i l l h o l e s on t h e e a s t s i d e of Mount S t . Helens would be needed to c o n f i r m t h i s . At Mount S t . Helens i t s e l f , l o c a l heat flow regime.
t h e t h r e e d r i l l h o l e s had o n l y begun t o examine
The d i s c o u r a g i n g r e s u l t s by no means p r e c l u d e t h e
e x i s t e n c e of g e o t h e r m a l r e s o u r c e s beyond t h e f l a n k s of t h e v o l c a n o . i n v o l v e d i s r o u g h l y 200 t o 300 s q u a r e k i l o m e t e r s , most of which i s untested.
the
possible
The a r e a virtually
The p o t e n t i a l f o r anomalous t h e r m a l c o n d i t i o n s or g e o t h e r m a l r e s e r v o i r s
is
c o n c e p t u a l l y q u i t e h i g h , e s p e c i a l l y i n l i g h t of t h e v o l c a n o ' s 1980 e r u p t i o n s . Conclusions The 1979-80 g e o t h e r m a l a s s e s s m e n t e f f o r t added g r e a t l y to the r e l a t i v e l y
scant
g e o t h e r m a l and h y d r o l o g i c d a t a b a s e s f o r Mount S t . H e l e n s , but did not i d e n t i f y a g e o t h e r m a l r e s o u r c e or i n d i c a t e t h e impending e r u p t i o n of the v o l c a n o .
There may
i n d e e d be l a r g e h o t w a t e r r e s e r v o i r s a s s o c i a t e d w i t h t h i s v o l c a n i c s y s t e m , but e x i s t e n c e has y e t t o be In a d d i t i o n ,
demonstrated.
t h e 1980 e r u p t i o n s of the v o l c a n o have p r o v i d e d a w e a l t h of
i n f o r m a t i o n which has h e l p e d d e v e l o p a b e t t e r u n d e r s t a n d i n g of t h e
structural,
t h e r m a l , and h y d r o l o g i c s y s t e m s a s s o c i a t e d w i t h t h e v o l c a n o .
enhanced
This
their
u n d e r s t a n d i n g w i l l p r o v i d e new ways of v i e w i n g o t h e r Cascade s t r a t o v o l c a n o e s ,
and
w i l l h a v e an i m p o r t a n t impact on how t h e i r h y d r o t h e r m a l s y s t e m s w i l l be e x p l o r e d . Some of t h e d e v e l o p i n g c o n c e p t s
include:
( 1 ) A v o l c a n o c o n t i n u e s t o be a c t i v e
through g e o l o g i c time only because i t keeps i t s between e r u p t i o n s . condition.
That
is,
the conduit
country rock.
"open" t o some s h a l l o w d e p t h
r e m a i n s in a s e m i - m o l t e n or
Each e r u p t i o n r e - s u p p l i e s h e a t
which i s s l o w l y d i s s i p a t e d
conduit
plastic
t o t h e u p p e r p o r t i o n of t h e c o n d u i t ,
t h r o u g h c o n d u c t i o n and c o n v e c t i o n to t h e
heat
surrounding
P r e l i m i n a r y i n d i c a t i o n s f r o m t h e s e i s m i c i n f o r m a t i o n p r o v i d e d by Mount
S t . Helens are t h a t these " p l a s t i c " c o n d i t i o n s e x i s t e d under the volcano.
t o w i t h i n 5 km of t h e
surface
T h e r e f o r e , v e r y h i g h t e m p e r a t u r e s a r e m a i n t a i n e d t h r o u g h time a t
a r e l a t i v e l y s h a l l o w d e p t h w i t h o u t t h e f o r m a t i o n of a s h a l l o w magma c h a m b e r .
(2)
P r o b a b l y a l l of t h e Q u a t e r n a r y s t r a t o v o l c a n o e s m a i n t a i n a h y d r o t h e r m a l s y s t e m w i t h i n t h e e d i f i c e of t h e cone i t s e l f . confirms t h i s .
The e x i s t e n c e of f u m a r o l e s on most of t h e cones
These s y s t e m s may be v e r y s m a l l and p r o b a b l y c o o l q u i t e
through time.
rapidly
Because of t h e p r o b l e m s of a c c e s s ( d i f f i c u l t t e r r a i n and c l o s u r e s
to land s t a t u s ) , stratovolcanoes
and b e c a u s e of t h e g e o l o g i c h a z a r d s a s s o c i a t e d w i t h many of (the constant
t h r e a t of e r u p t i o n ,
f o r example) i t
( 3 ) The Mount S t . H e l e n s e r u p t i o n s have p r o v i d e d e v i d e n c e t h a t may be s t r u c t u r a l l y c o n t r o l l e d . for microearthquakes
in the v i c i n i t y
structure
running through the s t r a t o v o l c a n o
location
a p l o t of
suggested a north-northwest
(see f i g u r e 8 . 2 ) .
that
resources.
the v o l c a n o ' s
Even b e f o r e t h e c u r r e n t a c t i v i t y ,
epicentus
the
is unlikely
t h e s e i n t r a - c o n e h y d r o t h e r m a l s y s t e m s w i l l e v e r become v i a b l e commercial
the
trending
E p i c e n t u s of
e a r t h q u a k e s a s s o c i a t e d w i t h t h e 1980 e r u p t i o n s have c o n f i r m e d t h i s , d e l i n e a t i n g right-lateral
strike-slip
f a u l t system.
C r u s t a l s t r u c t u r e s associated with
may p r o v i d e a means by which g e o t h e r m a l f l u i d a s s o c i a t e d w i t h deep s y s t e m s the volcano could migrate
The
beneath verti-
resulting
h y d r o t h e r m a l r e s e r v o i r s w i l l have a much g r e a t e r p r a c t i c a l and economic v a l u e , t h e t r u e e n e r g y p o t e n t i a l of such a r e s o u r c e h a s y e t t o be d e m o n s t r a t e d
a
volcanoes
l a t e r a l l y out f r o m t h e v o l c a n i c s y s t e m and p o s s i b l y
c a l l y t o r e l a t i v e l y s h a l l o w d e p t h s beyond t h e f l a n k s of t h e v o l c a n o .
Cascades.
due
in the
but
FIGURE 8 . 2 . — E a r t h q u a k e h y p o c e n t e r s n e a r M o u n t S t . H e l e n s f r o m 1971 t h r o u g h Data from R o b e r t S . C r o s s o n
( U n i v e r s i t y of W a s h i n g t o n )
1978
IX.
BIBLIOGRAPHY OF GEOTHERMAL RESOURCE INFORMATION FOR THE STATE OF WASHINGTON
by
M i c h a e l A. K o r o s e c 1980 D i v i s i o n of Geology and E a r t h R e s o u r c e s O l y m p i a , Washington
C h a p t e r IX B i b l i o g r a p h y of G e o t h e r m a l R e s o u r c e I n f o r m a t i o n f o r t h e S t a t e of Washington
Armstrong, J . E.; C r a n d e l l ,
D. R . ; E a s t e r b r o o k , D. J . ;
Noble, J . B . ,
L a t e P l e i s t o c e n e s t r a t i g r a p h y and c h r o n o l o g y i n s o u t h w e s t e r n
1965,
Washington:
G e o l o g i c a l S o c i e t y of America B u l l e t i n , v . 7 6 , n o . 3 , p . 3 2 1 - 3 3 0 .
B a n k s , N. G.; B e n n e t t , C. A . ; S c h m i d t , J . H . , 1978, Maps of photo l i n e a m e n t s and geomorphic f e a t u r e s i n t h e S p i r i t Lake q u a d r a n g l e , W a s h i n g t o n :
U.S.
G e o l o g i c a l Survey O p e n - F i l e R e p o r t 7 8 - 5 0 5 , 2 s h e e t s .
B l a c k w e l l , D. D . , 1969, H e a t - f l o w d e t e r m i n a t i o n s States:
in the northwestern United
J o u r n a l of G e o p h y s i c a l R e s e a r c h , v . 7 4 , n o . 4 , p . 9 9 2 - 1 0 0 7 .
B l a c k w e l l , D. D., 1974, T e r r e s t r i a l h e a t - f l o w and l o c a t i o n of g e o t h e r m a l r e s e r v o i r s
its
in Washington.
implications
on the
I n Energy r e s o u r c e s of
W a s h i n g t o n , Washington D i v i s i o n of Geology and E a r t h R e s o u r c e s C i r c u l a r 5 0 , p.
Information
21-33.
B l o o m q u i s t , R. G . , 1979, G e o t h e r m a l e n e r g y in Washington - S i t e d a t a base and development s t a t u s :
Oregon I n s t i t u t e
of Technology Geo-Heat
Utilization
C e n t e r , U . S . Department of E n e r g y , DE-AC03-79SF1049, 192 p .
Bockheim, J . G.; B a l l a r d , Baker, Washington: 5, p.
T. M., 1975, Hydrothermal s o i l s of the c r a t e r of Mount
S o i l S c i e n c e S o c i e t y of America P r o c e e d i n g s , v . 39,
997-1001.
B o n i n i , W. E . , 1965, G r a v i t y s u r v e y s i n t h e n o r t h w e s t e r n U n i t e d American G e o p h y s i c a l Union T r a n s a c t i o n s , v . 4 6 , n o . 3 , p.
States:
563-569.
no.
B o n i n i , W. E . ;
H u g h e s , W. D . ;
Danes, Z. F . ,
a n o m a l y map of W a s h i n g t o n :
Washington D i v i s i o n
R e s o u r c e s G e o l o g i c Map GM-11,
Braile,
thesis,
37
Washington S t a t e :
T.;
of G e o l o g y and E a r t h
conditions
and c r u s t a l University
structure
of Mount
of W a s h i n g t o n
St.
M.S.
p.
R . W.; Shaw, G. H . ;
Cantwell,
gravity
1:500,000.
from g r a v i t y d a t a :
C a m p b e l l , K. V . ; M i e r s , J .
H.;
Nichols,
Gresens,
R. L . ,
Northwest
B. M.; O l i p h a n t , J . ; 1 9 7 0 , A s u r v e y of
Science,
N e l s o n , P . ; Webb, J . ;
in the P a c i f i c Northwest: p.
scale
L . W., 1 9 7 0 , The i s o s t a t i c
Helens as determined
1974, Complete Bouguer
v. 44,
Orange, A.,
p.
Pytlak,
S.;
Race,
thermal springs
in
1-11.
1 9 6 5 , Deep r e s i s t i v i t y
J o u r n a l of G e o p h y s i c a l R e s e a r c h ,
v. 70,
measurements no.
8,
1931-1937.
Cantwell,
T.; Orange, A.,
P a c i f i c Northwest:
C o n d i e , K. C . ; strata
1965,
Further
deep r e s i s t i v i t y
J o u r n a l of G e o p h y s i c a l R e s e a r c h ,
S w e n s o n , D. H . ,
1973, C o m p o s i t i o n a l
volcanoes - J e f f e r s o n , Rainier,
Volcanologique,
Coombs, H. A . ,
v. 37,
no. 2,
p.
measurements v.
70,
variations
and S h a s t a :
the
n o . 16, p.
in t h r e e
4068-4072.
Cascade
Bulletin
205-230.
1 9 3 6 , The g e o l o g y of Mount R a i n i e r N a t i o n a l P a r k :
of W a s h i n g t o n P u b l i c a t i o n s
in
in Geology,
v. 3,
no. 2,
p.
University
131-212.
Coombs, H. A . ,
1 9 3 9 , Mount B a k e r , a C a s c a d e v o l c a n o :
America B u l l e t i n v . 50,
Crandell,
D. R . ,
Washington:
Crandell,
D. R . ,
D. R . ,
Washington:
Crandell,
D. R . ,
p.
U.S. Geological Survey B u l l e t i n
1 9 6 9 , The g e o l o g i c
of
1493-1509.
1 9 6 9 , S u r f i c i a l g e o l o g y of Mount R a i n i e r N a t i o n a l
Survey B u l l e t i n
Crandell,
no. 10,
Geological Society
Park,
1 2 8 8 , 41 p .
s t o r y of Mount R a i n i e r :
U.S.
Geological
1 2 9 2 , 43 p .
1971, P o s t - g l a c i a l
lahars
f r o m Mount R a i n i e r
volcano,
U . S . G e o l o g i c a l S u r v e y P r o f e s s i o n a l P a p e r 6 7 7 , 75 p .
1 9 7 3 , Map s h o w i n g p o t e n t i a l
Mount R a i n i e r , W a s h i n g t o n :
h a z a r d s from f u t u r e e r u p t i o n s
U . S . G e o l o g i c a l S u r v e y Map 1 - 8 3 6 ,
of
scale
1:250,000.
Crandell,
D. R . ,
volcanic scale
Crandell,
eruptions
in Washington:
of p o t e n t i a l
hazards from f u t u r e
U . S . G e o l o g i c a l S u r v e y Map MF-774,
1:1,000.
D. R . ; M u l l i n e a u x ,
Mount S t .
Crandell,
1976, P r e l i m i n a r y a s s e s s m e n t
D. R . ,
Helens, Washington:
D. R . ; M u l l i n e a u x ,
D. R . ,
1973, Pine Creek v o l c a n i c
at
U . S . G e o l o g i c a l S u r v e y B u l l e t i n 1 3 8 3 - A , 23 p .
1978, P o t e n t i a l h a z a r d s from f u t u r e
of Mount S t . H e l e n s v o l c a n o , W a s h i n g t o n : 1383-C.
assemblage
U.S. G e o l o g i c a l Survey
eruptions
Bulletin
C r a n d e l l , D. R . ; M u l l i n e a u x , D. R . ; M i l l e r , R. D.; R u b i n , M., 1962, d e p o s i t s of Recent age a t Mount R a i n i e r , W a s h i n g t o n .
Pyroclastic
In S h o r t P a p e r s i n
the
G e o l o g i c and H y d r o l o g i c S c i e n c e s , U . S . G e o l o g i c a l Survey P r o f e s s i o n a l Paper 450-D, p . D64-D68.
C r a n d e l l , D. R . ; M u l l i n e a u x , D. R . ; R u b i n , M., 1975, Mount S t . Helens r e c e n t and f u t u r e b e h a v i o r :
S c i e n c e , v . 187, p . 4 3 8 .
C r a n d e l l , D. R . ; W a l d r o n , H. H . , 1956, A Recent v o l c a n i c mudflow of d i m e n s i o n s f r o m Mount R a i n i e r , W a s h i n g t o n : v . 254, p.
volcano:
American J o u r n a l of
exceptional Science,
349-362.
C r o s b y , J . W., I I I ,
1 9 7 1 , New d e v e l o p m e n t s i n g e o t h e r m a l e x p l o r a t i o n .
In Cole,
B. L . , P a p e r s p r e s e n t e d a t F i r s t N o r t h w e s t C o n f e r e n c e on G e o t h e r m a l Power:
W a s h i n g t o n S t a t e D e p a r t m e n t of N a t u r a l
C r o s s o n , R. S . ; M a y e r s , I . R . , ments i n Washington S t a t e :
Resources.
1972, R e p o r t on g e o t h e r m a l ground n o i s e
measure-
Washington D i v i s i o n of Mines and G e o l o g y Open-
F i l e R e p o r t , 16 p .
Crowder, D. F . ; T a b o r , R. W.; F o r d , A. B . , 1966, G e o l o g i c map of t h e G l a c i e r Peak q u a d r a n g l e ,
Snohomish and C h e l a n C o u n t i e s , W a s h i n g t o n :
G e o l o g i c a l S u r v e y G e o l o g i c Q u a d r a n g l e Map GQ-473, s c a l e
U.S.
1:62,500.
C u l l e n , J . M., 1978, Impact of a m a j o r e r u p t i o n of Mount R a i n i e r on p u b l i c s e r v i c e d e l i v e r y s y s t e m s i n the P u y a l l u p V a l l e y , W a s h i n g t o n : Washington M.S. t h e s i s ,
195 p .
U n i v e r s i t y of
D a n e s , Z. F . ,
1 9 6 4 , G r a v i t y s u r v e y of Mount R a i n i e r
American G e o p h y s i c a l Unions T r a n s a c t i o n s ,
D a n e s , Z. F . ,
1969, G r a v i t y
results
G e o p h y s i c a l Union T r a n s a c t i o n s ,
Dehlinger, P.;
Chiburis,
c u r v e s and t h e i r Bulletin
Easterbrook, p.
of
E. F . ;
geologic
v. 45,
, Washington p.
640.
in western Washington: v. 50,
p.
American
548-550.
C o l l v e r , M. M.,
implication
[abstract]:
1965, Local t r a v e l
time
f o r the P a c i f i c Northwest
states:
t h e S e i s m o l o g i c a l S o c i e t y of A m e r i c a , v . 5 5 , n o . 3 , p .
D. J . ,
1 9 7 5 , Mount B a k e r e r u p t i o n s :
Geology, v . 3, no.
587-607
12,
679-682.
Easterbrook,
D. J . ,
1976, P l e i s t o c e n e
Baker, Washington: v. 8, no. 6, p.
Ellingson, J . A., Rocks a r e a , Ph.D.
Mountains, Washington:
A.,
Washington:
t h e White P a s s ,
Washington S t a t e
Goat
University
112 p .
1 9 6 9 , G e o l o g y of
Programs, Part
Programs
849.
Cascade Mountains, Washington:
E l l i n g s o n , J . A.,
of Mount
G e o l o g i c a l S o c i e t y of A m e r i c a , A b s t r a c t s w i t h
1 9 6 8 , L a t e C e n o z o i c v o l c a n i c g e o l o g y of
thesis,
Ellingson, J.
and R e c e n t v o l c a n i c a c t i v i t y
Section,
p.
Science,
v. 46,
p.
Cascade with
15.
The r o c k s and s t r u c t u r e
Northwest
southern
G e o l o g i c a l S o c i e t y of A m e r i c a A b s t r a c t s
3, C o r d i l l e r a n
1972,
t h e Goat Rocks v o l c a n o ,
of
9-24.
t h e White P a s s
area,
Fiske,
R. S . ,
1960,
Stratigraphy
and s t r u c t u r e
of l o w e r and m i d d l e
r o c k s , Mount R a i n i e r N a t i o n a l P a r k , W a s h i n g t o n : Ph.D.
Fiske,
thesis,
R. S . ;
Johns Hopkins
Tertiary University,
163 p .
H o p s o n , C. A . ; W a t e r s , A. C . ,
National Park, Washington:
1 9 6 3 , G e o l o g y of Mount
Rainier
U.S. Geological Survey P r o f e s s i o n a l
Paper
4 4 4 , 93 p .
Ford,
A. B . ,
1 9 5 7 , P e t r o l o g y of
Washington:
F o r d , A. B . ,
University
the Sulphur Mountain a r e a , G l a c i e r Peak
of W a s h i n g t o n M.S. t h e s i s ,
1 9 5 9 , G e o l o g y and p e t r o l o g y of
northern Cascades, Washington:
103 p .
the G l a c i e r Peak
University
quadrangle,
quadrangle,
of W a s h i n g t o n P h . D .
thesis,
374 p .
Fowler,
C. S . ,
1935,
The o r i g i n
of
the s u l f u r deposits
S t a t e C o l l e g e of W a s h i n g t o n , M. S . t h e s i s ,
Frank,
D . ; M e i r , M. F . ;
activity
D.;
of
increased
U.S. Geological Survey
thermal
Professional
p.
P o s t , A.; Friedman, J .
avalanches
M.S.
23 p .
1977, Assessment
a t Mount B a k e r , W a s h i n g t o n :
P a p e r 1 0 2 2 - A , 49
Frank,
S w a n s o n , D. A . ,
of Mount Adams:
on B o u l d e r G l a c i e r ,
Geophysical Research,
v. 3,
D.,
1975,
Recurrent
geothermally
Mount B a k e r , W a s h i n g t o n :
no. 1,
p.
77-87.
Journal
induced of
debris
F r i e d m a n , J . D . , 1972, A e r i a l t h e r m a l s u r v e i l l a n c e of v o l c a n o e s of the Cascade Range, W a s h i n g t o n , Oregon, and n o r t h e r n C a l i f o r n i a :
E . O . S . , v . 53, n o . 9 ,
p. 533.
F r i e d m a n , J . D.; F r a n k , D . , 1980, Thermal s u r v e i l l a n c e of a c t i v e v o l c a n o e s t h e L a n d s t a t - 1 DCS:
P a r t 2 , IR S u r v e y s , r a d i a n t
f l u x , and t o t a l
using
heat
d i s c h a r g e from Mount Baker v o l c a n o , W a s h i n g t o n , between 1970 and 1975, Final Report:
U . S . G e o l o g i c a l Survey f o r Goddard Space F l i g h t C e n t e r
[in
press ].
F r i e d m a n , J . D.; F r a n k , D . , 1977, Thermal s u r v e i l l a n c e of a c t i v e v o l c a n o e s the Landstat I data c o l l e c t i o n system: S t . Helens, Washington:
using
P a r t 3 , Heat d i s c h a r g e s from Mount
U . S . G e o l o g i c a l Survey O p e n - F i l e Report
77-541,
30 p .
Gizienski,
S. F . ; McEuen, R. B . ; B i r k h a h n , P . C . , 1975, R e g i o n a l e v a l u a t i o n of
t h e g e o t h e r m a l r e s o u r c e s p o t e n t i a l i n c e n t r a l Washington s t a t e :
Washington
P u b l i c Power Supply System, 113 p .
Hammond, P . E . , 1974, B r i e f
outline
to v o l c a n i c s t r a t i g r a p h y and g u i d e
g e o l o g y of s o u t h e r n Cascade Range, W a s h i n g t o n , and n o r t h e r n Range, Oregon: June 2 4 - 2 9 ,
to
Cascade
G e o t h e r m a l F i e l d T r i p , Oregon Department of G e o l o g y ,
1974.
Hammond, P . E . , 1975, P r e l i m i n a r y g e o l o g i c map and c r o s s s e c t i o n s emphasis on Q u a t e r n a r y v o l c a n i c
with
r o c k s , s o u t h e r n Cascade M o u n t a i n s ,
Washington D i v i s i o n Geology and E a r t h R e s o u r c e s O p e n - F i l e Report
75-13,
Hammond, P . E . ,
1980, Reconnaissance
Washington cascade range, 2 2 . 5 W:
scale
Hammond, P . E . ,
1977, V o l c a n i c
meeting,
development
Harris,
S. L . ,
Pedersen, Kohicek,
S. A . ;
of
the s o u t h e r n Cascade
G e o l o g i c a l S o c i e t y of A m e r i c a , 9 0 t h
H o p k i n s , K. D.; A i k e n , D.; H a r l e ,
D. L . ;
In P e z z o t t i ,
Stricklin,
volcanic
C. R . ,
field,
C. ( e d i t o r ) ,
and u s e of g e o t h e r m a l
1 9 7 6 , F i r e and i c e :
Seattle,
D. S . ,
H o p k i n s , K. D . , volcano, 143 p .
W a s h i n g t o n , 320
1 9 7 4 , G e o l o g y of
Washington:
122°
2
S w a n s o n , D. A . , Range, Annual
1 9 7 6 , G e o l o g y and
s o u t h e r n Cascade
Proceedings,
resources,
D.
S.; gravimetry
Range,
Second U . N . Symposium on
San F r a n c i s c o ,
1975,
397-405.
Press,
Harle,
1 2 0 ° 45 -
Washington.
the Quaternary b a s a l t i c
Washington.
southern
of E a r t h S c i e n c e s , 31 p . ,
C; E l l i n g s o n , J . A . ;
and s t r u c t u r e
F i e l d T r i p No. 4 ,
D a n e s , Z. F . ;
p.
R. D . ; Brown, J .
stratigraphy
Seattle,
Hammond, P . E . ;
Department
of
1:125,000.
Bentley,
Washington:
sections
l a t i t u d e 4 5 ° 30 - 4 7 ° 15 N, l o n g i t u d e
Portland State University
sheets,
of
g e o l o g i c map and c r o s s
the Cascade volcanoes:
Oregon S t a t e U n i v e r s i t y M.S. t h e s i s ,
Washington:
t h e s o u t h and e a s t
University
Search
p.
t h e Baby Shoe R i d g e a r e a ,
1 9 7 6 , G e o l o g y of
Pacific
southern
Cascades,
71 p .
s l o p e s of Mount Adams
of W a s h i n g t o n P h . D .
thesis,
Seattle,
Hopson, C. A . ; W a t e r s , A. C . ; B e n d e r , V. R . ; R u b i n , M., 1962, The l a t e s t e r u p t i o n from Mount R a i n i e r v o l c a n o :
J o u r n a l of Geology, v . 7 0 .
p.
635-646.
Hopson, C. A . , 1971, E r u p t i v e s e q u e n c e a t Mount S t . H e l e n s ,
Washington:
G e o l o g i c a l S o c i e t y of America A b s t r a c t w i t h P r o g r a m s , v o l . 3 , n o . 2 , p. 138.
Hyde, J . H . , 1970, G e o l o g i c s e t t i n g of M e r r i l l Lake and e v a l u a t i o n of h a z a r d s in the Kalama R i v e r v a l l e y n e a r Mount S t . H e l e n s ,
volcanic
Washington:
U . S . G e o l o g i c a l Survey O p e n - F i l e R e p o r t , 15 p .
Hyde, J . H . , 1973, L a t e Q u a t e r n a r y v o l c a n i c s t r a t i g r a p h y of t h e s o u t h f l a n k of Mount S t . H e l e n s , W a s h i n g t o n : Seattle,
U n i v e r s i t y of Washington P h . D .
thesis,
114 p .
Hyde, J . H . , 1975, Upper P l e i s t o c e n e p y r o c l a s t i c - f l o w d e p o s i t s and l a h a r s of Mount S t . Helens v o l c a n o , W a s h i n g t o n :
U . S . G e o l o g i c a l Survey
south
Bulletin
1383-B, 20 p .
Hyde, J . H.; C r a n d e l l ,
D. R . , 1 9 7 5 , O r i g i n and age of p o s t - g l a c i a l
d e p o s i t s and
a s s e s s m e n t of p o t e n t i a l h a z a r d s from f u t u r e e r u p t i o n s of Mount B a k e r , Washington:
U . S . G e o l o g i c a l Survey O p e n - F i l e R e p o r t 7 5 - 2 8 6 , 22 p .
Hyde, J . H.; C r a n d e l l ,
D. R . , 1978, P o s t - g l a c i a l v o l c a n i c d e p o s i t s a t Mount
B a k e r , W a s h i n g t o n , and p o t e n t i a l h a z a r d s from f u t u r e e r u p t i o n s : G e o l o g i c a l S u r v e y P r o f e s s i o n a l P a p e r 1022-C, 17 p .
U.S.
J o h n s o n , S. H . ; Couch, R. W., 1970, C r u s t a l s t r u c t u r e
i n t h e n o r t h Cascade
M o u n t a i n s of Washington and B r i t i s h Columbia from s e i s m i c measurements: no. 4, p.
K i v e r , E. P . , no. 3, p.
K i v e r , E. P . , 1974-1977
B u l l e t i n of t h e S e i s m o l o g i c a l S o c i e t y of America, v . 6 0 ,
1259-1269.
1975, W a s h i n g t o n ' s g e o t h e r m a l i c e c a v e s :
no. 8, p.
K i v e r , E. P . ;
P a c i f i c Search, v.
10,
11.
1978, G e o t h e r m a l i c e c a v e s and f u m a r o l e s , Mount Baker v o l c a n o : [abstract]:
P r o g r a m s , v . 10, n o . 3 ,
K i v e r , E. P . ,
refraction
G e o l o g i c a l S o c i e t y of America A b s t r a c t s p.
with
112.
1978, Mount B a k e r ' s c h a n g i n g f u m a r o l e s :
The Ore B i n , v . 4 0 ,
145.
Snavely, J . ;
S n a v e l y , D. F . ,
1977, Hydrogen s u l f i d e fumes a t
summit of Mount R a i n i e r v o l c a n o , W a s h i n g t o n :
the
Northwest Science, v . 51,
n o . 1, p . 3 1 - 3 5 .
K o n i c e k , D. L . , 1974, G e o p h y s i c a l s u r v e y i n s o u t h - c e n t r a l
Washington:
U n i v e r s i t y of P u g e t Sound M.S. t h e s i s , 35 p .
K o n i c e k , D. L . , 1975, G e o p h y s i c a l s u r v e y i n s o u t h - c e n t r a l W a s h i n g t o n : Science, v. 49, no. 2,
L a n g e , I . M.; A v e n t , J . C . ,
p.
Northwest
106-117.
1975, G r o u n d - b a s e d t h e r m a l i n f r a r e d s u r v e y of Mount
R a i n i e r volcano, Washington:
G e o l o g i c a l S o c i e t y of America
with Programs, v . 7, no. 5, p. 619.
Abstracts
L i v i n g s t o n , V. E . , J r . , o v e r v i e w s of
1972, Geothermal energy i n Washington.
the western United S t a t e s ,
First National
In Geothermal
Conference:
Geothermal Resources C o u n c i l , El C e n t r o , C a l i f o r n i a , February
16-18,
1 9 7 2 , S e c t i o n L , 17 p .
Malone, S. D.,
1 9 7 6 , D e f o r m a t i o n of Mount Baker v o l c a n o by h y d r o t h e r m a l
E.O.S. v . 57, no. 12, p.
1016.
McEuen, R. B . ; B i r k h a h n , P . C . ; of
geothermal resource
Pinckney,
potential.
In
McLane, J . of
1975,
p.
Washington
(abstract):
Proceedings, resources,
1976, M i n e r a l o g i c a l
E.O.S., v . 57, no. 2,
of v o l c a n o e s
infrared surveys:
examination
p.
Baker,
89.
I n t h e C a s c a d e Range a s
Bulletin Volcanologique,
v.
34,
77-106.
Moxham, R. M.; B o y n t o n , G. R . ;
C o t e , C. E . ,
fumarole temperatures,
Mount R a i n i e r ,
Volcanologique,
n o . 1,
v. 36,
Moxham, R. M.; C r a n d e l l , Rainier,
C. ( e d . ) ,
regionalization
m a t t e r f r o m t h e f u m a r o l e s of Sherman C r a t e r , Mount
o b s e r v e d by a e r i a l 1, p.
Predictive
and u s e of g e o t h e r m a l
L a r s o n , R. R . ,
Moxham, R. M., 1 9 7 0 , T h e r m a l f e a t u r e s
no.
1976,
1121.
E . ; F i n k e l m a n , R. B . ;
particulate
C. J . ,
Pezzotti,
Second U.N. Symposium on d e v e l o p m e n t San F r a n c i s c o ,
heating:
Washington,
p.
1973, S a t e l l i t e
Washington:
Bulletin
191-199.
D. R . ; M a r i o t t , W. E . , as r e v e a l e d
t e l e m e t r y of
1965, Thermal F e a t u r e s
by i n f r a r e d s u r v e y s :
Survey P r o f e s s i o n a l Paper 525-D, p.
93-100.
U.S.
at
Geological
Mount
Mullineaux,
D. R . ; C r a n d e l l ,
Washington:
Mullineaux,
D. R . ; Hyde, J .
H.; Meyer, R . ,
and H o l o c e n e p u m a c e o u s
southern Washington: Programs, v. 4,
D. R . ;
no. 3,
p.
S i g a f o o s , R. S . ;
855-970.
f r o m Mount S t .
Helens
of A m e r i c a , A b s t r a c t s
of
upper
volcano, with
Hendricks,
E. L . ,
1969, A h i s t o r i c
eruption
U.S. Geological Survey P r o f e s s i o n a l
Paper
L e t t e r s v. 3, no. 2,
R. H . ,
a q u i f e r along
the p.
Mazama,
37-42.
Stith, J.
and a e r o s o l s f r o m v o l c a n i c
Department
County,
F u m a r o l e s of Mount S t . H e l e n s and Mount Adams:
Hobbs, P . V . ;
R. H . ,
of a m a j o r a l l u v i a l
of C l a r k
U . S . G e o l o g i c a l S u r v e y W a t e r S u p p l y P a p e r 1 6 0 0 , 268
K. N . , 1 9 4 2 ,
v . 23, n o . 12, p.
Russell,
tephra
1 9 6 4 , G e o l o g y and g r o u n d w a t e r c o n d i t i o n s
Columbia R i v e r :
Russell,
p.
Helens,
204-205.
Washington, with a d e s c r i p t i o n
R a d k e , L. F . ;
f r o m Mount S t .
315-318.
M u n d o r f f , M. J . ,
Phillips,
lahars
1972, P r e l i m i n a r y assessment
Geological Society
of Mount R a i n i e r , W a s h i n g t o n : 650-B, p.
1962, Recent
G e o l o g i c a l S o c i e t y of A m e r i c a B u l l e t i n v . 7 3 ,
Pleistocene
Mullineaux,
D. R . ,
p.
vents
L.,
1976, A i r b o r n e measurements
on Mount B a k e r :
gases
Research
93-96.
1972, Geothermal e n e r g y p o t e n t i a l of E c o l o g y ,
Geophysical
of
of W a s h i n g t o n S t a t e :
23 p .
1973, G e o t h e r m a l E n e r g y ;
Geothermal Energy Magazine, v .
potential
1, n o . 4 ,
p.
of W a s h i n g t o n
39-48.
State:
Washington
S a t o , M.; M a l o n e , S. D . ; Moxham, R. M., 1 9 7 6 , at
M o n i t o r i n g of f u m a r o l i c
Sherman C r a t e r , Mount B a k e r , W a s h i n g t o n
no.
2,
E.,
Northwest:
resources
1 9 7 3 , The s e a r c h
Schuster, J .
E.,
exploration,
of G e o l o g y and E a r t h R e s o u r c e s
of W a s h i n g t o n , W a s h i n g t o n D i v i s i o n
E.; Blackwell,
p.
Reprint
R. A . ,
Washington:
Energy
of G e o l o g y and E a r t h
Hammond, P . E . ;
. Washington D i v i s i o n
H u n t t i n g , M. T . ,
1978,
Skamania
of G e o l o g y and E a r t h
Resources
1 9 6 7 , P e t r o l o g y of a l a t e Q u a t e r n a r y p o t a s s i u m - r i c h
p.
Resources
p.
f r o m Mount Adams, W a s h i n g t o n : Paper 575-C,
In
5.
D. D . ;
I n f o r m a t i o n C i r c u l a r 6 2 , 56
R. A . ,
of W a s h i n g t o n :
i n t h e S t e a m b o a t M o u n t a i n - L e m e i Rock a r e a ,
County, Washington:
Stavert,
rocks - Geothermal
1974, Geothermal e n e r g y p o t e n t i a l
Heat f l o w s t u d i e s
scale
f o r hot
Washington D i v i s i o n
I n f o r m a t i o n C i r c u l a r 50,
Sheppard,
57,
4.
Schuster, J .
Sheppard,
EOS v .
p . 88.
Schuster, J .
11, p.
(abstract):
gas
U.S. Geological Survey
andesite
Professional
55-59.
1 9 6 7 , G e o l o g y of
t h e Simcoe M o u n t a i n s v o l c a n i c
Washington D i v i s i o n
area,
of Mines and G e o l o g y G e o l o g i c Map GM-3,
1:250,000.
L.,
andesite:
1971, A geochemical
reconnaissance
investigation
W e s t e r n W a s h i n g t o n S t a t e C o l l e g e M.S. t h e s i s ,
of Mount 60 p .
Baker
Stricklin,
C. R . ,
1 9 7 5 , G e o p h y s i c a l S u r v e y of
Mountain a r e a , Washington:
University
t h e Lemei Rock -
of P u g e t
Steamboat
Sound M . S .
thesis,
23 p .
Swan, V. L . , meeting,
1 9 7 8 , Mount B a k e r v o l c a n i c s :
(abstract)
1 9 6 4 , The m i d d l e and l a t e C e n o z o i c v o l c a n i c
Tieton River a r e a ,
s o u t h - c e n t r a l Washington:
Ph.D.
p.
thesis,
S w a n s o n , D. A . ,
329
1966,
r o c k s of
Johns Hopkins
T i e t o n v o l c a n o , a Miocene e r u p t i v e c e n t e r
Cascade Mountains, Washington:
the
University
in the
southern
G e o l o g i c a l S o c i e t y of A m e r i c a B u l l e t i n ,
v.
1293-1314.
S w a n s o n , D. A . ,
1 9 7 8 , G e o l o g i c map of
the Tieton River a r e a ,
U . S . G e o l o g i c a l S u r v e y M i s c e l l a n e o u s m a p s , MF-968,
S w a n s o n , D. A . ; W r i g h t , interpretation
of
a d j a c e n t Oregon:
S w e n s o n , D. H . , University
T. L . ;
Zietz,
I.,
Washington - A n a l y s i s 1033, 38 p .
Washington
t h r e e Cascade v o l c a n o e s :
The s t r u c t u r e
of a s u b d u c t i o n
zone:
of
geologic and
Map G P - 9 1 7 .
of M i n i n g and T e c h n o l o g y M . S . t h e s i s ,
1978,
1:48,000.
1 9 7 9 , A e r o m a g n e t i c map and
Geophysical I n v e s t i g a t i o n s ,
1 9 7 3 , G e o c h e m i s t r y of
Washington:
scale
the w e s t - c e n t r a l Columbia P l a t e a u ,
T a b o r , R. W., Cady, W. M.,
Paper
Union
Tacoma.
S w a n s o n , D. A . ,
77, p.
American Geophysical
New M e x i c o
101 p .
t h e Olympic
Mountains,
U.S. Geological
Survey
T a b o r , R. W., Cady, W. M., 1 9 7 8 , G e o l o g i c map of Washington:
U.S. G e o l o g i c a l Survey, 2 maps,
T a b o r , R. W.; C r o w d e r , D. F . ,
t h e Olympic scale
1 9 6 9 , On b a t h o l i t h s
Peninsula,
1:125,000.
and v o l c a n o e s -
Intrusion
a n d e r u p t i o n of l a t e C e n o z o i c magmas i n t h e G l a c i e r P a r k a r e a , Cascades, Washington:
north
U.S. Geological Survey P r o f e s s i o n a l Paper
604,
50 p .
U.S. Geological Survey,
1 9 7 7 , A e r o m a g n e t i c maps of p a r t
of n o r t h e r n
U.S. Geological Survey Open-File Report 77-254, 2 s h e e t s ,
Unger, J .
D . ; D e c k e r , R. W., 1 9 7 0 ,
Washington:
Washington:
scale
The m i c r o e a r t h q u a k e a c t i v i t y
1:62,500.
of Mount
S e i s m o l o g i c a l S o c i e t y of America B u l l e t i n , v . 6 0 ,
Rainier,
p.
2023-2035.
Unger, J .
D . ; M i l l s , K. F . ,
1972, M i c r o e a r t h q u a k e s
S e i s m o l o g i c a l S o c i e t y of America B u l l e t i n ,
Unger, J .
D . ; M i l l s , K. F . ,
1973, E a r t h q u a k e s
G e o l o g i c a l S o c i e t y of America B u l l e t i n ,
Valentine,
G. M., I 9 6 0 ,
minerals,
revised
v. 62,
p.
n e a r Mount S t . H e l e n s ,
v. 84,
no. 3,
by M. T. H u n t t i n g :
p.
1065-1067.
175 p .
in
Nonmetallic
Geological Science,
v . 24,
of Mines and
p l u s 83 p .
1 9 3 7 , Mount S t . H e l e n s - A r e c e n t C a s c a d e v o l c a n o :
University Publications
Washington:
Washington S t a t e D i v i s i o n
t e x t and m a p s ,
1969:
1079-1081.
I n v e n t o r y of W a s h i n g t o n m i n e r a l s - P a r t I ,
Geology B u l l e t i n 37, 2 volumes,
Verhoogan, J . ,
a t Mount R a i n i e r -
no. 9,
California p.
263-302.
W a s h i n g t o n D i v i s i o n of G e o l o g y and E a r t h of W a s h i n g t o n :
W a t e r s , A. C . ,
Resources,
I n f o r m a t i o n C i r c u l a r 50,
1974, Energy
158 p .
1 9 7 3 , The C o l u m b i a R i v e r G o r g e B a s a l t S t r a t i g r a p h y ,
l a v a dams, and l a n d s l i d e r Geologic f i e l d
trips
dams.
In B e a u l i e u x , J .
D.,
i n n o r t h e r n O r e g o n and s o u t h e r n
Oregon D i v i s i o n of G e o l o g y and M i n e r a l I n d u s t r i e s , p.
resources
ancient
chairman, Washington:
Bulletin
77,
133-162.
W e a v e r , C. S . ,
1976, S e i s m i c e v e n t s
on C a s c a d e v o l c a n o e s ,
U n i v e r s i t y of W a s h i n g t o n , P h . D .
W e a v e r , C. S . ,
1976, S e i s m i c e v e n t s
of W a s h i n g t o n P h . D . International,
W i s e , W. S . ,
thesis,
v. 37,
no. 3,
thesis,
Seattle:In
relations
Ph.D.
258.
thesis,
p.
of
[abstract]:
Dissertation
Abstracts
celadonite:
t h e Wind R i v e r a r e a , Johns Hopkins
W i s e , W., 1 9 7 0 , C e n o z o i c v o l c a n i s m i n t h e C a s c a d e m o u n t a i n s Washington:
University
1157-B.
1 9 6 1 , The g e o l o g y and m i n e r a l o g y of
and t h e s t a b i l i t y
dissertation,
158 p .
on C a s c a d e v o l c a n o e s
p.
Ph.D.
Washington D i v i s i o n
of
Washington,
University,
southern
of Mines and G e o l o g y B u l l e t i n 6 0 , 45 p .
APPENDIX A WELL TEMPERATURE INFORMATION AND LOCATIONS IN THE STATE OF WASHINGTON
by Michael A. Korosec D i v i s i o n of Geology and E a r t h R e s o u r c e s Olympia, Washington
APPENDIX A WELL TEMPERATURE INFORMATION AND LOCATIONS IN THE STATE OF WASHINGTON
The f o l l o w i n g t a b l e i n c l u d e s a l l w e l l s on r e c o r d w i t h t h e D i v i s i o n of Geology and E a r t h R e s o u r c e s .
They have been d i v i d e d by c o u n t y , and o r d e r e d by
i n c r e a s i n g t o w n s h i p and i n c r e a s i n g r a n g e . location,
Information Includes
1/4 of 1/4 of s e c t i o n , bottom h o l e t e m p e r a t u r e
of g r a d i e n t s ( ° C / k m ) , and s o u r c e r e f e r e n c e .
township-range
( ° C ) , d e p t h (m), two t y p e s
Gradient A are those
gradients
a c t u a l l y o b s e r v e d from a w e l l log over a s i g n i f i c a n t depth I n t e r v a l well.
G r a d i e n t B a r e c a l c u l a t e d g r a d i e n t s u s i n g bottom h o l e t e m p e r a t u r e s
mean a n n u a l s u r f a c e t e m p e r a t u r e , slope
through
c a l c u l a t e d from e l e v a t i o n ,
The r e f e r e n c e s key a s
follows:
1.
Washington S t a t e U n i v e r s i t y w e l l l o g s - D r . James Crosby
2.
S o u t h e r n M e t h o d i s t U n i v e r s i t y and D i v i s i o n of Geology and E a r t h R e s o u r c e s w e l l l o g s and t h e r m a l g r a d i e n t h o l e s , D r . David D. Blackwell,
SMU, and J . E r i c S c h u s t e r , DGER.
3.
U . S . G e o l o g i c a l S u r v e y Tacoma O f f i c e , w e l l
4.
U . S . G e o l o g i c a l Survey Tacoma O f f i c e , WATSTORE computer
5.
U . S . G e o l o g i c a l Survey Water S u p p l y P a p e r 1999R.
6.
Washington S t a t e D i v i s i o n of Water R e s o u r c e s , Water Supply Bulletin
7.
logs. file.
#21.
Washington S t a t e D i v i s i o n of Water R e s o u r c e s , Water Supply Bulletin
#24.
and
s l o p e a n g l e , and
orientation.
the
APPENDIX B GEOLOGY OF WHITE PASS - TUMAC MOUNTAIN AREA, WASHINGTON
by Geoff Clayton University of Washington Seattle, Washington 1980
Note:
Geologic Map, Scale 1:24,000, found in pocket of back cover
APPENDIX C RESISTIVITY STUDY OF CAMAS, WASHINGTON:
FINAL REPORT
January 5, 1981
for Geology and Earth Resources Division Washington State Department of Natural Resources Olympia, Washington 98504
by F. A. Rigby Science Applications, Inc. 1200 Prospect Street La Jolla, California 92038 and R. B. McEuen Exploration Geothermics 5202 College Gardens Court San Diego, California 92115
TABLE
1.
PURPOSE
2.
GENERAL 2.1 2.2 2.3 2.4
OF
CONTENTS
C-1 DISCUSSION
OF
RESULTS
OF
MODELING
Pseudosection AA' Pseudosection BB' UURI Comments on Modeling Results I m p a c t of M o d e l R e s u l t s on PreviouslyRecommended Drill Site Locations
3.
FIELD
METHODS
4.
LISTING
5.
APPENDIX:
OF
RAW
AND PROCEDURES DATA
PRELIMINARY REPORT
C-2 C-3 C-8 C-11 C-l2 C-13 C-15 C-19
1.
The to
determine
lower
regions
electrical
cated, ated
purpose
by
these
the
along
of
shallow
survey
the
resistivity
regions
drilling
of
PURPOSE
trend
can
lower depth
be
described of
the
Lacamas
expected
resistivity heat-flow
in t h i s
are
at
holes.
fault
depth.
to be
report
was
where
Once
further
loevalu-
2.
GENERAL
Figures sistivity
DISCUSSION
2,
and
3,
pseudosection
for
line
pseudosection
for
the placement
of
1,
line
used
to
tions were
previously
14 S e p t e m b e r
this
BB',
lines
convention
on
OF
AA'
obtain
and and
PSEUDOSECTION
The
apparent
a map
for
the
Figure
in
our
appears
as
resistivity area
shows
the
4
re-
showing plotting
These pseudosec-
preliminary
report
an
at
appendix
issued
the back
of
AA'
pseudosection
a
region
3 kilometers
south
profile
to
values
of
of
tending
to
a point
in
resistivity
for profile
meter
transition
meters
from
the
veloped
by
the
data
on
line
such
an
earth
AA'
in
from
ters
of
the
the
is
of
the
of
also
high
Utah
from
20 ohm-meter
mately
10 ohm-meter
at
that
the
the
in
of
the
a region
ex-
end. 4
kilo-
earth model
Institute would
of
the
be measured
for
enclosing end
of
are
model
a point
end
of
features reasonably
places 3.75
The
10
values
the of
the
kilomeohm-
the profile
with
the
de-
fit
data
fit" at
to
the major
consistent
northern
ohm-
end
northern
the profile.
northern is
30
approximately
field
"best
of
of
distinct
profile.
resistivity
contour
the
from
a
northern
ohm-meter
Most
This
This
the
Research
shown.
the
north.
the order
two-dimensional
block
at
displays
a point
pseudosection
derived
to
at
AA'
of of
120
the
point
open
1).
end
starting
data's
(Figure
occur
the model.
low
resistivity to
The
model
transition
ended
to
5 displays
AA'.
values
10 kilometers
University
reflected
meter
9 to
from
order
northern
pseudosection
south
the
appears
Figure
open
apparent
Camas
pseudosections.
in
well
the
the
transition
of
are
report.
2.1
This
MODELING
AA',
BB'.
these
which
OF
respectively,
discussed
1979,
RESULTS
is
observed approxi-
pseudosection
Figure
1.
P s e u d o s e c t i o n for line AA'. Dipole length km. R e s i s t i v i t i e s a r e in o h m - m e t e r s . The s c a l e is e x a g g e r a t e d by a factor o f two.
was 0.5 vertical
Figure
2.
Pseudosection w a s 0.25 km
for
line
BB'.
Dipole
length
Figure
3.
Map of the Camas area showing Two suggested test hole sites letter "T".
resistivity lines. are marked with the
Figure
4.
Electrode
Geometry
Figure 5.
UURI Resistivity Model for Line AA' and Apparent Resistivity Pseudosection That This Model Would Produce
At
the
shown
in
the
meter
to
values
gests
1).
an
near
tivity
material
occurs
at
this
point.
to
crosses
line
south
greater about
AA'
a
thickness
of
the
50 ohm-meter
extreme
southern
clearly
tenuous.
data was profile
end,
depth
This
but of
on
BB'.
tions to
the
at
4
a
BB' north
pseudosections of
the
model
cannot
field
data
of
fault point
and
the
a
field
unit
change
is
would
data
(low
in
resisunits)
thickness
account The
southern
that
for
on
the
values
end of
50 ohm-meter for
sug-
downthrown
material.
evidence
profile
by Mundorff
that
extreme
contain
the
mapped
block
occurring
200 ohm-meter
this
and
ohm-
end of the
ohm-meter
150
the
of
100
unit
this unit
of
the
at
the
is
BB'
apparent
The
shorter
dipole to
of
resistivity length
the
dipole
effect
is
point thus
end
used
500 meter
length
data to
by
a
as
mea-
collect
length
increased
decreasing,
obtained
computer be
for
to
the
two
and
the
0.75
a further
fit
the
used
these for
spatial
factor of
for
line
differing
the western
portion
to be
BB'.
two,
of the
very
Figures
that
adequately
a fit
intersecting
kilometer
earth models.
indicates
that w i l l
lines
investigation
It p r o v e d
for
analysis
derived
AA',
on AA'
of A A ' .
satisfactory
culty
to
is perpendicular
Line
obtain
at
as opposed
the
a
this
although
kilometer
the
100
near
penetration.
BB' about
had
a
resistivities.,
transition
northern
100 o h m - m e t e r
BB'.
250 meters
resolution
of
2 shows the
profile
AA'.
of
the
values
portion
deeper
measured
PSEUDOSECTION
along
the
downthrown
the model
Figure
the
about
Such
require
sured
to
this
this
AA',
from
The position
side.
2.2
for
the position
profile
from
thickness
relative
corresponds
the
65 ohm-meter,
modeling
increased
profile
decrease
9.5 kilometers The
the
end o f
pseudosection
approximately (Figure
southern
point forma-
difficult 6 and The
7
show
diffi-
two-dimensional the
of pseudosection
observed BB'.
We
have
Figure
6
O n e A l t e r n a t i v e U U R I M o d e l for L i n e P s e u d o s e c t i o n It W o u l d P r o d u c e
BB'
with
the
Apparent
Resistivity
Figure
7.
Second Alternative Pseudosection This
UURI Model for Line Model Would Produce
BB'
with
the
Apparent
Resistivity
studied
the
variability
conclude
that
the
equally
data
ally the
two models
the
models profile
2.3
Green
the
field for
data
computed
two models concluded
are,
that
a high probability other
Lacamas
at
of
1.5
boundaries fault
and
models
1 and
however,
be and
2
and
2
fit
substanti-
common
reflecting
most
the
in F i g u r e
features
features must
boundaries
These
shown
between
actual
regarded
as
geo-
doubtful.
2.4 kilometers
probably
contact
NE
of
represent,
with
the
volcanics
Mountain.
COMMENTS
Below Mackelprang. out
can be
while
origin.
UURI
carried
The
have major
respectively, ics of
It have
features,
the
pseudosection well.
different.
logic Both
the
of
is
Mr. by
ON
MODELING
a discussion Mackelprang
of
was
RESULTS
the modeling responsible
results
for
the
by
C.
modeling
UURI.
"Results of the m o d e l i n g for line A-A' suggest a surface layer of fairly m o d e r a t e apparent resistivity extending over the entire line. T h i s l a y e r i n c r e a s e s in t h i c k n e s s in the c e n t r a l p o r t i o n of the line. A cond u c t i v e m e d i a is p r e s e n t at a f a i r l y s h a l l o w d e p t h o n the n o r t h w e s t end of the line but deepens to the southeast and is absent at t h e s o u t h e a s t end of the line. "Model results of line B-B' are questionable but tend to suggest a layering of r e s i s t i v e - c o n d u c t i v e - res i s t i v e m e d i a s of u n k n o w n c o n f i g u r a t i o n and t h i c k n e s s e s on the southwest half of the line. To the northeast the models are less complex showing a trend into fairly conductive ground. " T h e a t t a c h e d m o d e l s a r e t w o - d i m e n s i o n a l (i.e. i n f i n i t e strike length). If t h e s u r v e y l i n e s h a v e b e e n r u n a t some angle other than normal to the geologic structure t h e n the m o d e l i n t e r p r e t a t i o n w i l l not a p p r o x i m a t e the true resistivity distribution. T h e p r e s e n c e of t h r e e dimensional resistivity distributions would also detract from the a p p l i c a b i l i t y of the m o d e l s o l u t i o n s . W e u n d e r s t a n d that line A-A' runs subparallel to a major geologic structure and topographic features. This m a y r e d u c e the a p p l i c a b i l i t y of the r e s i s t i v i t y m o d e l submitted here."
E.
2.4
IMPACT OF MODEL SITE LOCATIONS
Two ary
Report.
lower to
are
in
resistivity
and
reasonable
report,
south
due
model
that
are
km
on
line
places
As
with
southernmost the
down
ment
of
the
seem
to
be
the
at
test
the
Z.
in
the
the
at
this
near
the units
may
be
units within this
the
Thus end
The
suggests
thickening
of
southern
further
resistivity
thicker
Danes.
AA'
a point
low
crest
having
Subsequent
moved
profile
In a d d i t i o n ,
F.
drillsite of
by
the
the
of
new
the
location
interesting
the
hole
northeast
near
with
AA'.
It
seems
these
regions study
of
of
end
clear of the
very
1.5
one
km point
of
models the
the major of
section
Lacamas
line BB', Mountain,
that low
further
final
line
place-
AA'
low
at
This
location
would
also
appears would
contacts
BB',
contact
the
It m u s t
be
would
with
northwest of
the
end
area
that
is
how-
exist the of
extent
be worthwhile
this
shown
noted
zones
associated
the
of
short
vertical
determination
potential
a
BB',
resistivity
perhaps and
a point
line
fault.
resistivity
geothermal
on
models.
open-ended,
of
Green
recommendation,
inversion
substantial,
rock
sued.
near
alternative
volcanic
ther
site
associated
that
the
nearer by
southeast
place
ever
block.
mapped
other
supported
be
mentioned,
resulting
site
for
where
fault
Camas. was
Prelimin-
availability.
location
a region
already
to
land
data
our
DRILL
excellent.
to b e
may
field
in
Lacamas
location
with
second
in
faulted
drill
The
both
is
drilling
positive
distance
the
faulting
gravity
on
AA'
thickening.
associated
of
the
proximity
drilling
the
RECOMMENDED
recommended
along
associated
approximates placement
are
regions
southern
to p r o b l e m s
this
10.25
the
ON PREVIOUSLY
locations
Both
our
that
drilling
RESULTS
to
if
line of fur-
be per-
3.
The collected position electrode along
profiles
were was
locations
profile
a of
was
wave
form
although of
0.01
a
The
the
and
not 0.1
receive
between was
were
current
and
the
four
as
the
tion,
measurements
were
tions
ranging
one
gap
from
access
in
the
the
shows
voltage some
of
electrode
distance AA'
and
between
250
for
this
The
output
meters
each
stakes
if
it
driven
electrodes.
the
the
20
and
amps,
to
significantly
a copper
gener-
frequencies
measurement
the
of
consisted
was
this;
into
ends
amplitude
allow affected
ground
Non-polarizing
using
requires
the
from
current
on
coupling
at
survey
controlled
Maximum
method
ground
employed
dipoles
the
to
five
the
times
the
pro-
electrodes
sulfate
the
Esterline-angus device data.
on
was
solution
For
each
data
the most
chart
receive
dis-
transmit
recorded
in
transmit at
a
if
few
severe
posi-
separa-
length, in
and
The
and
dipole
dipole
length
line).
and w a s
of
strip the
equal
receive
receive
collection
pseudosection
field
of
length.
with
of
a single
separation
dipole
made
were
in
electrodes
dipole
measuring
typical
the
achieve
prevented
BB'
Portable as
which
electrodes
nearest
multiples
into
to
transmit
of
major
profile
were
cups.
(all
used
of
The
data
Each
prospecting
source
dipole were made
terms
Problems
chain.
possible
of m e t a l
porcelain
co-linear
dipoles
along
current.
always Hz
satisfactory
tance
and
generator.
electromagnetic
Receive were
gasoline
injected
Clusters
in p o r o u s
current
"transmitter"
results.
the
500 meters
controlled
of
for
resistivity
identified.
current
it w a s Hz
compass
of
detection
vided
was
apparent
electrical
to
of
a
and properly
dipole.
fed
using
PROCEDURES
dipole-dipole
a truck-mounted
ator
AND
BB'.
injection
grounded
METHODS
along which
surveyed
staked
The the
FIELD
possible.
cases.
The
case.
recorders
were
used
dipoles.
Figure
7
The current
are
measured
used
to
voltage
determine
and the
the
known
apparent
value
of
the
resistivity
injected
using
the
formula
p = 2pi N ( N + l ) ( N + 2 ) m d V / I
where
N
A
listing
=
the potential dipole,
I
=
the
of
the
and
contoured dipole
the
2.0
point
plied on
for
for
Science
on
BB'
these
offsets
electrode
appropriate
Laboratory
of
is g i v e n
the
had
lengths
difference
values
locations
In p r e p a r i n g
individual
lyzed
on
dipole
the
gap
between
measured
at
for
in
the
section.
next
apparent
pseudosections for
several
to b e
offset
of
the
receive
computing
separations.
two-dimensional the University
resistivities shown
in
Section
due
corrections
apparent
to
were
resistivity
data were
also
earth
models
the
Utah
by
Research
2. near
access
These
of
are
the measurements
slightly
the pseudosection, by
of
current.
data
calculated
actual
problems.
injected
field
The
km
of
AV =
The plotted
the number dipoles,
ap-
based anaEarth
Institute.
LISTING
OF
RAW
DATA
Lacamas
Charts misread initially, correct value » 33.0 37.1
check check
See data, sheet
48.3
check
for V
24.0
Repeat checks 31.8 Repeat
Lacamas
Amps misrecorded on strip chart ?Terrain effects? Ravine edge//To Transmit Barely detectable Offset to SW of line =100 yards to avoid cemetary
Traces are terrible, high noise.
Lacamas
Amps ran up to 10 at beginning of record
Step up to 14 amps on last part of .1 frequency
Strong anisotropy between transmit electrodes
Ran up to 10 amps when starting up Ran up to 10 amps when starting un Very bad trace Offset 300 yards SE (receiver) Receiver offset 300 yards SE Off the line 300 yards SE (receiver) 5mv scale is open to question receiver offset
Power down after 2 minutes of .01 frequency side of hill Current was 8 on 1st try, 7 on 2nd try Very faint Started at 6 amps dropped to 5.2 after a minute Extremely bad trace Receiver offset 300 yards SE Receiver offset 300 yards SE
APPENDIX
14
PRELIMINARY
REPORT
STUDY
ON
NEAR
DIPOLE-DIPOLE CAMAS,
September
1979
RESISTIVITY
WASHINGTON*
To:
J. E r i c Schuster, Assistant Supervisor Geology and Earth Resources Division Washington State Department of Natural Resources Olympia, WA 98504
From:
Science Applications, 1200 Prospect Street La Jolla, CA 92038
Inc.
(Prime
Contractor)
and Exploration Geothermics (Subcontractor) 5202 College Gardens Ct. San Diego, CA 92115
During have
been
north
carried
and
a
possible
The
first
ran
portion
along
from
the
side
of
Lake
along
ed m a p trace as
the
the
with of
equal The
data
the
Fault. for
N-spacing and
dipole
obtained
area
of
potential
in
of
of
beyond
the as
This
line
lies
This
fault
geothermal
made
of N=5
heat
using
a
(separation
receiver
on
of
dipoles five
the
of
the
has
been
hot
fluids
line SW
the
enclos-
approximately
on
the
identified asso-
source.
500 meter of
near
ranging
times
the
end
on
measure-
This
along
north
area.
NW-SE
Lake.
shown
zone
circulation
the
oriented
Camas,
Creek,
investigat-
resistivity
Lacamas of
studies
immediately
purpose
line
town
NW
were
shown
a
shore
l e n g t h , up to
are
on
the
the
hypothesized
the
consisted
Lacamas
line AA').
transmitter to
study
resistivity
the
geothermal
extended of
in
for
kilometers
measurements
a maximum
the
and
conduit
the
of
edge of
valley 1,
Camas
southwestern
the L a c a m a s
with
of
the
northern Lake,
The
*
the
a possible
ciated
east
of
(August) DC
in W a s h i n g t o n
11-line
(Figure of
month
indications
covering
running
past
out
little
ing
ments
the
the
pseudosection
from
dipole
electrodes a
distance
dipole
length).
in F i g u r e
2.
F u n d i n g for this effort w a s p r o v i d e d by the U.S. D e p a r t m e n t of E n e r g y u n d e r C o n t r a c t D E - A C 0 3 - 7 9 E T 2 7 0 1 4 u n d e r c o n t r a c t to t h e Washington State Department of Natural Resources.
As
can
be
line.
seen,
Sharp
fault
resistivity
resistivity
zone may
be
values
are
contrasts
evidence
of
the
not
uniform
present
along
presence
of
along
the
hot,
the
apparent
conductive
fluids.
The Figure order
2
is
of
most the
significant
transition
30 ohm-meters
or
feature
from less
to
of
the
boundary
these
to
be
meters line
from
the
north
perpendicular
point
(line
ments
were made
meters
and
BB'
on
a maximum reduced
could
be
for
the
resistivities
similar
pseudosection
for
This
may
mark
the
or
some
other
sistivity
the m i n i m u m meter very
point
the
point.
The
at
which
the
for
this
small
a
the
contrast
therefore,
sure
at
drop
seems
of
lines
be
point,
clear.
the
some but
in
feel
resistivity
between
may,
this
two
Near
N=4
some
cross.
the
and
5 values
presence
of
of
of
seems the
high
the
found. Lacamas
BB' the
re-
suggest 1.5
kilo-
regarding
the
the
the
distinct
line
limit
regarding
were
occurring
N=5,
side
intersection
most
of
en-
data
of
skepticism
at
250
portion the
for
was
of
with
vicinity
At
measure-
geology
crossed
5.5 ohm-meters
question the
the
this
pseudosection
left
values
The
cross
that
The
The
BB'
the
kilo-
through
point
center
line
of
resistivities
a layered
2).
a
length
N).
3.
pseudosection
author's
measurement
larger
boundary.
are
a
resistivity
at w h i c h
geologic on
such
in t h e
reduced
low
the
4.25
detail,
a dipole
in F i g u r e
(Figure
out
greater
on
suggested
a point
laid
(the
to
for
those
AA'
was
using N=5
at
in
in e x c e s s
Accordingly,
gain
3 suggests
resistivities
low N=5
point
sharply
contrasts
To
strength
to
line
about
line
of
values
pseudosection
line.
line
shown
Figure
line
1).
obtained
is
in
with
the
spacing
pseudosection
Fault
first
signal
line
AA',
the
this
reliably
second
of
Figure
along
countered not
to
end
pseudosection
resistivities
Examination zones
the
low-resistivity
100 ohm-meters. between
on
at
signal
the
the strength
detection, extreme.
There
quantitative
a pronounced
and
mea-
resistivity
Line (left
on
BB'
Figure
development. the
slope
canic low
could
3)
The
of
line
Mountain.
in
this
to
allow
area the
area
course
can
to
the
of
of
extended the
which
seen
the
the
it
the
lowest
study,
even
at
north
right
of
were
one
of
of
vol-
Figure
property
owner
that
this
encountered
is
3,
obtained
clear
resistivities
a
up
approached
local
allowance
northeast,
not
nonetheless
when
housing
side
measurements
points
is
a new
appearance
the
the
southwest
has
refusal
land,
of
the
to
the
several
to
farther
from
as
farther
intervention
carried
found
his
some
of
be
were
because
displays
of
was
Although
access
be
Mountain,
As
resistivities
Green
because
Green
feature.
not
made
for
in
terrain
affects.
The mands
primary
study. the
that
a
limit
second the
line.
enhances
be
fully
for
remains
to
able
data
of
of
AA'
lines
very
low
selected
its
those
at
of
siting
of
the
and
km
BB'
try
to
a
values.
follow
the
far It
end,
at
Unfortunately the
As
Since
this
BB'
Lacamas
southern
from
near
the
area this
the
to could
project
holes avail-
the
intersection
contrast
resistivity and
much
resistivity
discussed,
Fault
is
gradient
resistivity the
of
the
site
already
sharp
of
thermal
one
line
the
noting
proximity
constraints
planned
southeast
is w o r t h
the
com-
resistivity
in r e s i s t i v i t i e s
implications
on
as
clearly
the
detected
north
Selecting
point
marks
was
Lake of
feasible.
the
straightforward. 1.5
results
change
within
the
Lacamas
extended
was
this
discussed.
the
the
significance.
resistivity to
as
of
contrast
While
question
be
vicinity
also
Camas
than
the
is
was
investigated
The results
on
AA'
of
end
based
resistivity
pronounced
Camas not
line
vicinity
of
the
attention
However
into
less
area
the
with
lines
were
Boundary
(possibly the
another
northern
that
hot
face
in
the
north
could
section
fluids the
end
of a
yards
BB'.
steep
gradient
of
(Figure
both
gravity
help
to
mas
site
4).
and
site
(including
be
able
by
for
the
be
to
shown hole
zone
rise
toward of
kilometer
of
test
hole
measurements
just
north
the
would
gravity
thus
be
contrasts.
in
problems
being
the
a
surat
few
the on
cross-
the
of
the
prepared
an
This
institutional outside
map
hope
Corporation,
the
on
to
the
within
point
along
land
Zellerbach
drilling
place
found
reasonable
A block
Crown
test
1.5
also
resistivity any
it w o u l d
intersection.
gravity as
resistivity
by
area marked
site
that
should
might
shoreline
zone
also
be of
by
enLaca-
Creek).
hole
is not
dence
of
as
resistivity on
case
could
Green
values to
made
remain the
for
low
limit
been
discussed.
the
The complex.
line
Lake
one end
test of
line
line
along
an
the
can be line
area
area of
Finally,
where
of
the
available authors
around hole
resistivity
the
study
seen
AA'
A
this
is
about
9
the
strong
interest, area
again to
Figure
area.
considerable there
evi-
Lacamas
measured.
resistivities
occurring
from
from
of
gives
9.5
at
the
decline kilo-
AA'.
on
the
The
As
thermal gradient test
investigation
apparently
selection
Based
below,
Lacamas
the
transition
along
cussed
of
second
of
further
already end
the
areas.
represents
meters
north
for
also
southeast
that
site
Mountain
has
with
a
interesting
northwest be
of
straightforward.
several
Lake
as
AA',
owned
of
The
Selection
2,
the
would
the
Lake,
minimize
countered
of
low
should
feasible
in
Lacamas
Danes
depth
the Lake,
This
the
line
southeast
line,
end
at
of
vicinity
provide
hundred
fault) of
the is
AA',
data
favor
small
to it
site
be
a
lake
sited
seems
for and
the four
site
the
the
Dead
south Lake.
anomalous
reasonable
test
hole
considerations,
near
called on
second
to
site
dis-
end
of
(1)
Given
area the
is
at
the
second
on
a
different
the
area
the
several
northwest
related. sents if
runs also
tified south
in
that
at
at
the
the
associated
could
from end
the
also
margin
of
aeromagnetic
to C a m a s
must
be
requires
be
to
an
has
streams
no
stagnant that of
it
is
of
of w h e t h e r
or
The shown
as
it o r
"T"s
to
sound
cable. not
More
this
lake
recommendations on
Figure
1.
(3) The
local
it
proximity
one
could
to
to
reach
person be
If o n l y
an
the
of a
drilling
the trend
the
low
is
because a
it
small,
indicate
attempt
a
the bottom
a volcanic
test
iden-
Lake
not
raised
a
development
Lake" is
of
even
that
lineaments
for
repre-
gravity
feature
residents
Reportedly,
unable
as
a
un-
of placing
(4) Dead
"Dead it;
are
resource
positive
prospect
users.
with
than
affect
Camas,
Called
deep.
it w a s
major
draining
Conversations
exceptionally
ago
feet
feature.
feeding
pond.
years
1500
interesting
potential
that
(2) Selection
the
in
however,
geothermal
the major
the
unlikely
lake,
considered.
is p r e s e n t ,
itself
the
of
resource close
have
data.
also
the a
is
feature
resistivities
not.
through
temperature it
of
do
it
low
mark
end
one
geothermal
then
end
will
with
a
having
south
northeast-southwest be
is
Lake,
north
Lake
on
there
area
that
the
Dead
hole
If
Lacamas
anomaly
near
test
of
area
anomalies
second
may
The
site
that
zones
a second
the
hole
anomaly.
the
number with
question
feature.
locations
are
Figure
1.
Map of the Camas area showing Two suggested test hole sites l e t t e r "T".
resistivity lines. are marked w i t h the
Figure
2.
Pseudosection for line km. Resistivities are scale is e x a g g e r a t e d by
AA' . Dipole length in o h m - m e t e r s . The a factor of two.
was 0.5 vertical
Figure
3.
Pseudosection w a s 0 . 2 5 km
for
line
BB'.
Dipole
length
UNIV.
OF
PUGET
B O U G U E R
C
A
M
A
S
A R E A ,
S O U N D ,
TACOMA,
G R A V I T Y
W A S H I N G T O N 1979
F i g u r e 4. Gravity map for the C a m a s * area prepared by Danes; possible test h o l e s i t e s d i s c u s s e d in t h e text a r e market by the letter "T".
WA.
M A P
A
Z. F. D a n e s
N
D
O
R
E
G
O
N
with contributions from David D. Blackwell, Z. Frank Danes, and Geoffrey A. Clayton
Washington State Department of Natural Resources Division of Geology and Earth Resources Olympia, Washington 98504
Open File Report 81-3
1980
Prepared Under U.S. Department of Energy Contract No. DE-AC03-79ET27014
CONTENTS Page I.
Introduction Temperature-gradient and heat-flow investigations Geochemistry of thermal and mineral springs Geologic mapping Resistivity Gravity Geothermal resource maps
II.
Geothermal Project Publications References Cited
III.
Heat flow and geothermal gradient measurements in Washington through 1979 by David D. Blackwell Introduction Data format Discussion References
c
Additions and comments: IV.
i
t
e
d
8
by Michael A. Korosec
Thermal and mineral spring investigations, 1978-1979 (surveys and analyses) by Michael A. Korosec Methods Results Individual spring system investigations Baker Hot Springs Geothermal features Geology Comments Bonneville Hot Springs-Moffett's Hot Springs Geothermal features
60
Page
Individual spring system Bonneville Hot
investigations-Continued Springs-Continued
Geology Comments Collins Hot Springs Geothermal
f
e
Geology Comments Goose Egg Soda Spring Geothermal features Geology Comments Lester Hot Springs Geothermal features Geology Comments Longmire Mineral Springs Geothermal features Geology Comments Reference Medicine Creek Mineral Spring Geothermal features Geology Comments Reference
a
t
u
r
e
s
4
Page Individual spring system
investigations-Continued
Ohanapecosh Hot Springs Geothermal features Geology Comments Orr Creek Warm Springs Geothermal features Geology Comments Sol Duc Hot Springs Geothermal features Geology Comments Sulphur Creek Hot Springs Geothermal features Geology Comments Reference Summit Creek Soda Spring Geothermal features Geology Comments V.
Regional gravity survey of the southern Cascades, Washington by Z. F. Danes Introduction Research Additions and Comments:
by Michael A. Korosec
Page VI.
Geology of the White Pass-Tumac Mountain area, Washington by Geoffrey A. Clayton Abstract Introduction: the structure and stratigraphy of the Tertiary rocks in the Carlton Pass-White Pass-Rimrock Lake-Goat Rocks region Previous work Objectives and problems Quaternary volcanic rocks in the Tumac Mountain-White PassGoat Rocks area Results References cited Additions and comments:
VII.
by Michael A. Korosec
Geothermal investigations in the Camas area, Washington, 1979 by Michael A. Korosec and J. Eric Schuster Introduction The 1979 project Results Discussion Conclusions
VIII.
Geothermal assessment of Mount St. Helens, Washington, 1979 by Michael A. Korosec and J. Eric Schuster Introduction Results Discussion Conclusions
IX.
Bibliography of Geothermal Resource Information for the State of Washington by Michael A. Korosec
Page Appendix A —
Well temperature information and locations in the
State of Washington by Michael A. Korosec Appendix b —
Geology of White P a s s - T u m a c Mountain Area, Washington by Geoffrey Clayton
Appendix C —
Resistivity study of Camas, Washington: Final Report by F. A. Rigby and R. B. McEuen
Appendix D — Temperature versus depth logs for all available wells in Washington by D. D. Blackwell Note: Appendix D is part of special edition reports only. This section is available from the Division of Geology and Earth Resources as Open File Report 80-9.
List of Tables Page 3.1
Pre-1979 Geothermal Gradients and Heat Flow in Washington State
3.2
Washington - Heat Flow
3.3
1979 Geothermal Gradients and Heat Flow in Washington State
3.4
Results of Heat Flow Drilling, 1979, Southwest Cascades, Washington
4.1
Thermal and Mineral Springs of Washington State
4.2
Thermal and Mineral Spring Chemistry (DGER)
4.3
Thermal and Mineral Spring Chemistry (Battelle)
4.4
Water Identifier Codes
4.5
Thermal and Mineral Spring Data
(Pre-1979)
List of Figures
3.1
Heat Flow and Temperature Gradient Map of Washington (Pre-1979 Data)
3.2
Preliminary Heat Flow Region Map of Washington
3.3
Anomalous Temperature Gradient areas of Washington
3.4
Preliminary Heat Flow Map of Southwestern Washington
8.1
Temperature vs Depth Profile for Mount St. Helens Drill Holes
8.2
Earthquake hypocenters near Mount St. Helens from 1971 through 1978
I.
INTRODUCTION
Geothermal resource assessment activities during 1979 have included
temperature-
gradient and heat-flow investigations, geochemical investigation of mineral and thermal springs, geologic mapping, a resistivity survey, regional gravity measurements, and preparation of geothermal resource maps for Washington. The State of Washington thus far has received very little attention from prospective geothermal developers.
Consequently, the geologic, geochemical, and geophysical
data base with respect to geothermal has been either scattered or nonexistent.
Our
assessment efforts have, therefore, been primarily directed toward synthesizing and interpreting existing data, and providing regional geophysical and geochemical data bases where none have previously existed.
Attention was focused on the southwestern
Cascades of Washington during 1979. The work was carried out by both subcontractors and in-house geologists.
The
findings of each of the project investigators working on the geothermal assessment program are presented as separate chapters in this report.
Some of the individual
projects are more complete than others and therefore appear as more detailed presentations. At the end of each chapter report, the principle investigators, J. Eric Schuster and Michael A. Korosec, have added further information, including comments on project status, how it relates to other projects, usefulness, work yet to be completed, future directions, and interpretations of the data.
The interpretations
are occasionally made with little data or background information and may not represent the beliefs of the project Investigator, but are presented anyway so as to help shape future investigations in the areas affected.
Temperature-Gradient and Heat-Flow Investigations Shallow drilling and measurements of temperature gradients in existing wells were
accomplished in the following areas:
(1) the Cowlitz River valley between Interstate 5
on the west and White Pass on the east, (2) the Mount St. Helens area, and (3) the Camas area, located in Clark County east of Vancouver, Washington. In the Cowlitz River valley, usable temperature gradients were measured in about 22 water wells located in the western portion of the valley, generally between Interstate 5 on the west and the City of Morton on the east.
Temperature gradients
in these wells are generally 30°C/km or less. Two gradients measured in existing wells located to the east of the City of Morton and gradients measured in five of the six 500-foot-deep gradient wells drilled during 1979 between the town of Randle and White Pass (both to the east from Morton) are 46°C/km and higher.
This suggests that the transition between "Puget Lowland
type" temperature gradients of about 30-40°C/km or less (with associated heat flow values of less than 40 mWatts/m2) and "High Cascade type" gradients of about 45°C/km or more (with associated heat flow values of 60 to 80 mWatts/m2 or higher) occurs between the City of Morton and the town of Randle.
The transition appears to be
fairly sharp (perhaps 8 kilometers or less in width) and seems to occur closer to Morton than to Randle. In the Mount St. Helens area, there are no existing wells except for three holes drilled during 1979 by the Division.
The temperature gradient from St. Helens No. 1
drill hole, to the north-northwest of Mount St. Helens, is very low at 19°C/km, and appears to be affected by local hydrologic conditions.
In St. Helens No. 2 drill
hole, to the west of Mount St. Helens, the gradient is 38°C/km.
The third drill
hole, to the east-southeast of Mount St. Helens, is isothermal. In the Camas area, several gradients measured in existing water wells located to the west of 122°20'W. (about the longitude of the City of Camas) yielded
temperature
gradients of less than 40°C/km, but two water wells located to the east of 122°10'W. produced gradients of about 53° and 69°C/km.
Two gradient wells drilled by the
Division near Camas produced gradients of 31.5°C/km and 37°C/km.
The former well
was drilled in Tertiary volcanics and sediments and the latter entirely in late(?) Tertiary sediments.
All heat flow values calculated for the Camas area fall in the
range of 40 to 60 mWatts/m2.
Geochemistry of Thermal and Mineral Springs During the 1979 field season, 46 springs, representing 15 different spring systems located in the Cascade and Olympic Mountains, were surveyed for temperature, flow, conductivity, and pH.
Of these springs, 38 were sampled and analyzed by the
Division of Geology and Earth Resources.
Chemical species measured include specific
conductivity, pH, Na, K, Ca, Mg, Li, SiO2, alkalinity, Cl, CO2, Br, and I. Tables 4.1 through 4.5 present a listing of the springs, their temperatures, specific conductivities, and reservoir temperatures as predicted by the SiO 2 -Quartz and Na-K-Ca geothermometers.
Detailed descriptions, analyses, and discussions of
observed chemistry for these springs are presented in Chapter IV.
Geologic Mapping Geoff Clayton, from the University of Washington, mapped the volcanic geology of the Tumac Mountain-White Pass area, located to the south and east of Mount Rainier National Park.
Field studies have been completed and a geologic map has been
prepared.
Resistivity A resistivity study was conducted in the Camas area by F. A. Rigby of Science Applications, Inc., and R. B. McEuen of Exploration Geothermics.
Two regions of
relatively low resistivity were found, and drill sites were recommended to test these two areas.
The two Camas drill holes were located at or within a short distance of
the drill sites recommended by Rigby and McEuen.
Gravity During 1979, Z. F. Danes of the University of Puget Sound measured gravity at
743 stations in the south Cascades.
The area covered extends from 121°W. on the
east to 122°30'W. on the west, and from the Columbia River on the south to the Cowlitz River valley on the north.
Computations have continued well into 1980.
It is expected that a south Cascades gravity map and report will be ready for distribution by early 1981.
Dr. Danes has also produced relatively detailed gravity
maps for the Camas and North Bonneville areas, located near the Columbia River in southwestern Washington.
Geothermal Resource Maps Data acquisition, reduction, and plotting for public and scientific geothermal resource maps of Washington were a large part of the 1979-1980 program.
This work
was carried out with the assistance and cooperation of personnel from Oregon Institute of Technology, National Oceanic and Atmospheric Administration, and University of Utah Research Institute.
Information compiled for the two maps inclu-
des well water temperatures, temperature gradients, heat flow, thermal and mineral springs, water geochemistry, faults, Quaternary volcanic rocks and volcanic centers, National Parks, wilderness areas, federal reservations, Indian reservations, lease status, and current and potential geothermal uses.
II.
GEOTHERMAL PROGRAM PUBLICATIONS
The 1979 Geothermal Assessment Program led to the release of the following publications by the Division of Geology and Earth Resources.
Portions of this report
are taken directly from these publications.
References Cited
Danes, Z. F., 1979, Bouguer gravity map of the Camas area, Washington and Oregon: Washington Division of Geology and Earth Resources Open-File Report 79-6, scale 1:62,500.
Blackwell, D. D., 1980, Heat flow and geothermal gradient measurements in Washington to 1979 and temperature-depth data collected during 1979:
Washington Division of
Geology and Earth Resources Open-File Report 80-9, 524 p.
Bloomquist, R. G., 1980, Geothermal leasing status, January 1980, Washington: Division of Geology and Earth Resources Open-File Report 80-10, scale 1:126,730, (in preparation).
Clayton, G. A., 1980, Geology of White Pass-Tumac Mountain area, Washington: Washington Division of Geology and Earth Resources Open-File Report 80-8, 1 map, scale 1:24,000.
Korosec, M. A., 1980, Bibliography of geothermal resource information for the State of Washington:
Washington Division of Geology and Earth Resources Open-File
Report 80-4, 16 p.
Korosec, M. A.; Kaler, Keith, 1980, Well temperature information for the State of Washington:
Washington Division of Geology and Earth Resources Open-File
Report 80-7, 87 p.
Korosec, M. A.; Kaler, Keith; Schuster, J. E.; Bloomquist, R. G.; Simpson, S., 1980, Geothermal resource map of Washington State, Nontechnical edition:
Washington
Division of Geology and Earth Resources, Geologic Map 25, 1 sheet, scale 1:500,000.
Korosec, M. A.; McLucas, G. B., 1980, Quaternary volcanics in the State of Washington:
Washington Division of Geology and Earth Resources Open-File
Report 80-6, scale 1:500,000.
McLucas, G. B., 1980, Fault map of Washington, with references:
Washington Division
of Geology and Earth Resources Open-File Report 80-2, scale 1:100,000.
Schuster, J. E.; Korosec, M. A., 1980, Geothermal resource assessment in Washington. In Resource Assessment/Commercialization Planning Meeting, Salt Lake City, Utah, January 21-24, 1980:
U.S. Department of Energy, p. 146-152.
III.
HEAT FLOW AND GEOTHERMAL GRADIENT MEASUREMENTS IN WASHINGTON THROUGH 1979
by David D. Blackwell
Department of Geological Sciences Southern Methodist University Dallas, Texas 75275
III.
HEAT FLOW AND GEOTHERMAL GRADIENT MEASUREMENTS IN WASHINGTON THROUGH 1979
Introduction This chapter presents a summary of all published and unpublished heat flow and geothermal gradient measurements made in the State of Washington prior to 1979, and held in the files of the Geothermal Laboratory at Southern Methodist University, and a preliminary list of temperature gradient information collected in 1979.
The data
in the files include published heat flow values and temperature-depth data with accompanying pertinent information from the publications of Roy (1963), Roy and others (1968), Blackwell (1969, 1974), Sass and others (1971), Steele (1975) and Schuster and others (1978).
Also included are temperature data from Spicer (1964)
and Sass and Monroe (1974).
A few unpublished temperature logs made by the U.S.
Geological Survey Water Resources Division in Tacoma, Washington, and by the U.S. Geological Survey Geothermal Group in Menlo Park, California, are also included. This chapter is divided into two sections:
in the first section, a summary of
the geothermal gradient data and well locations Is presented in tabular form and plotted on a map.
In the second section of the report (Appendix D), listings for
individual drill holes of temperature versus depth for all wells available in Washington are included. available.
In some cases, more than one temperature logging is
Each temperature-depth log has been plotted on a graph accompanying the
temperature listings. The history of geothermal measurements in Washington began in the 1930's when U.S. Geological Survey personnel directed by VanOstrand made temperature measurements in several oil wells in the State of Washington. on open file in 1964 (Spicer, 1964).
These data became available
Temperature data from two of these wells
(20N/12W-8 and 11N/26E-20CC) are included in the data set in this report and estimated heat flow values have been calculated for these two holes based upon thermal conductivity values estimated from the lithologic units encountered in the holes. Following these studies there was a long hiatus until the early 1960's, when R. F. Roy
made heat flow measurements in the Metaline mining district in northeastern Washington and measured temperatures in a deep oil well drilled in the Columbia Plateau (Development Associates Basalt Explorer No. 1, 21N/31E-10CB).
The heat flow
values in the Metaline district were published in 1963 (Roy, 1963; Roy and others, 1968).
In the mid-1960's investigations were started by the author of this chapter.
The first results of these studies were published in 1969 (Blackwell, 1969). Continued investigations were supported by NSF Grant No. GA11351. results were published in 1974 (Blackwell, 1974).
The preliminary
The most up-to-date summary of
heat flow and geothermal gradient from a state-wide point of view Is the 1974 report. In that paper several preliminary heat flow values were discussed. flow values for those sites are included in this report.
The final heat
In the 1960's, measurements
were made at several localities in the state by the U.S. Geological Survey Geothermal Group in Menlo Park, California.
These results were published by Sass and others
(1971). All pertinent facts dealing with the measurements made in .the 1960's (Roy and others, 1968; Blackwell, 1969; and Sass and others, 1971) are listed in Sass and Monroe (1974).
Temperature-depth data, individual thermal conductivity measurements,
and terrain correction information for each hole are included here.
The temperature
data have been abstracted from Sass and Monroe for inclusion in this report. Subsequent to these studies, detailed studies of more localized areas were made in the Turtle Lake quadrangle of northeastern Washington (Steele, 1975) and in the Indian Heaven area in the southern Washington Cascade Range (Schuster and others, 1978).
In 1978 a reconnaissance study of the southern Columbia Plateau was carried
out to investigate the regional heat flow.
Preliminary water chemistry studies indi-
cated the possibility of anomalous heat flow values in the area, (C. A. Swanberg, personal communication, 1977).
The studies were part of a regional geothermal analysis
of the Pacific Northwest supported by NSF Grant No. AER-76-00108 (see Blackwell, 1978). In the 1970's, a few temperature logs were made by the U.S. Geological Survey Geothermal
Group at Menlo Park (holes 3N/5E-4CAB and 3N/5E-4BDC1, John Sass, personal communication, 1977).
These data are included in this report.
In addition
miscellaneous data, mostly temperature data from holes for which no heat flow determinations were made, either because of lack of thermal conductivity information or poor quality gradients are included for completeness. In addition to the data included in this report, there are two extensive sets of temperature logs available for the Columbia Plateau region.
One set was obtained by
investigators from the U.S. Geological Survey Water Resources Division in Tacoma, Washington and one set by the Washington State University Hydrologic Program at Pullman, Washington.
These data are now on file at the Washington Department of Natural
Resources and are in the process of being prepared for release.
Data Format Geothermal gradient information from the State of Washington is summarized in tables 3.1, 3.2, and 3.3.
Included in table 3.1 are location, hole name, elevation,
geothermal gradient, depth interval, thermal conductivity (where available), heat flow (where available), a summary of the rocks encountered in the drill hole, and a quality indicator for all holes.
These data have been taken from the publications
discussed above, and from the files of the Geothermal Laboratory at Southern Methodist University.
More recent studies (1979) by Southern Methodist University
and the State of Washington supported by the U.S. Department of Energy, are reported in preliminary form in table 3.3.
The individual holes are located by latitude and
longitude to the nearest 0.1' if possible. and range.
The holes are also located by township
Location within the section is by a letter code where A = NE, B = NW,
C = SW, D = SE.
The first letter represents the quarter-section, the second the
quarter-quarter-section, and the third (if listed) represents the quarter-quarterquarter-section.
The designation 16 N 22 E 13 ABD, for example, represents a well
In the southeast quarter of the northwest quarter of the northeast quarter of
Table 3.1
Pre-1979 Geothermal G r a d i e n t s and Heat Flow in Washington
State.
Geothermal data for the State of Washington available up to 1979. T C is thermal conductivity in watts per meter per °K (Wm-1K-1). Uncorrected and (terrain) corrected gradient and terrain corrected heat flow are shown. Significance of heat flow quality number is explained in text. Locations of data taken from the literature are listed at the end of the table.
section
13,
values are lithology decimal
t o w n s h i p 16 N. and from measurements
(values
places.
The q u a l i t y heat
r a n g e 22 E . ,
on c o r e o r c u t t i n g s
in p a r e n t h e s e s ) . Note, however,
indicators
are
as
respectively.
flow or g e o t h e r m a l
gradient
in the measurements.
The h e a t
that
of
a quality
error
A quality
samples
the values are discussed number of 1 , 6 ,
value
of 30 i n d i c a t e s
can be c a l c u l a t e d
from the data
quality
a hole
shown h a s an e s t i m a t e d respectively. because there
Heat
they are
is
f l o w v a l u e s have not
conductivity
summarized
holes
in very c l o s e
a map.
proximity
two
a
no r e l i a b l e
b e c a u s e of
some
heat problem
water
and u n g r o u t e d .
±25
and
flow
A gradient
percent,
for these holes,
either
or b e c a u s e
available. Shown on t h i s
as l i s t e d
in table
map a r e
3.1.
flow values
for holes
A g a i n m u l t i p l e h o l e s may h a v e b e e n i n c l u d e d
locations
I n some c a s e s ,
t o one a n o t h e r h a v e b e e n i n c l u d e d
A l s o shown on t h e map a r e h e a t
quality.
that
flow data are already a v a i l a b l e ,
in figure 3 . 1 .
f o r which d a t a a r e a v a i l a b l e ,
or
been c a l c u l a t e d
information
holes
to
below.
f o r which the g e o t h e r m a l
of ±5 p e r c e n t , ±10 p e r c e n t ,
i n an a r e a w h e r e h e a t
no t h e r m a l
The d a t a a r e
o r 20 i n d i c a t e s
error
on
o r 16 i m p l i e s
i s due t o i n t r a d r i l l - h o l e
thus a r e uncased
10,
based
of a p p r o x i m a t e l y ±5 p e r c e n t , ±10 p e r c e n t
U s u a l l y t h e poor q u a l i t y
of 5 ,
conductivity
are g e n e r a l l y given
i n h o l e s w h i c h w e r e u s e d a s w a t e r w e l l s and Indicator
Thermal
or e s t i m a t e d
flow values
the e r r o r s
follows:
f l o w v a l u e w i t h an e s t i m a t e d
±25 p e r c e n t ,
Willamette Meridian.
as a s i n g l e
of 1 , 6 ,
on t h i s map a s a
of several symbol on
o r 16 single
locality. The e q u i p m e n t w h i c h h a s been u s e d described is
by Roy and o t h e r s
the measurements
maximum r e a d i n g
for almost
all
of
these measurements
( 1 9 6 8 ) and by S a s s and o t h e r s
obtained
thermometers.
by V a n O s t r a n d . In g e n e r a l ,
a p p r o x i m a t e l y ± 0 . 0 2 ° C and t h e a c c u r a c y
26
(1971).
The o n l y
is exception
T h e s e were m e a s u r e m e n t s made w i t h the
precision
is approximately
of
the
±0.2°C.
instruments
is
FIGURE 3 . 1 . - H e a t - f l o w arid t e m p e r a t u r e g r a d i e n t map of W a s h i n g t o n ( p r e 1979 d a t a )
Discussion The r e s u l t s of t h e s e s t u d i e s have been d i s c u s s e d ( 1 9 7 4 ) f r o m a s t a t e - w i d e p o i n t of v i e w .
i n p r e l i m i n a r y form by B l a c k w e l l
These e a r l y d a t a have been supplemented
b e g i n n i n g i n 1978 and 1979 by e x t e n s i v e new i n f o r m a t i o n , w i t h t h e 1979 d a t a shown on t h e i n c l u d e d map ( f i g u r e 3 . 1 ) ,
i n t a b l e 3 . 3 , and l i s t e d i n Appendix D.
Brief
d e s c r i p t i o n s of t h e d a t a and r e s u l t s w i l l be found i n B l a c k w e l l (1978) and S a s s and others (1980).
The 1979 d a t a t o g e t h e r w i t h t h e e a r l i e r d a t a , w i l l be d i s c u s s e d by
B l a c k w e l l and o t h e r s i n t e c h n i c a l r e p o r t s to be i s s u e d i n t h e n e a r
future.
References Cited B l a c k w e l l , D. D . , 1969, Heat f l o w d e t e r m i n a t i o n s J o u r n a l of G e o p h y s i c a l R e s e a r c h , v . 7 4 , p .
in the northwestern United
992-1007.
B l a c k w e l l , D. D . , 1974, T e r r e s t r i a l h e a t f l o w and i t s geothermal r e s e r v o i r s
in Washington:
Resources I n f o r m a t i o n C i r c u l a r 50, p.
States:
i m p l i c a t i o n s on t h e l o c a t i o n of
Washington D i v i s i o n of Geology and E a r t h 21-33.
B l a c k w e l l , D. D . , 1978, Heat f l o w and e n e r g y l o s s i n t h e w e s t e r n U n i t e d S t a t e s .
In
S m i t h , R. B . ; E a t o n , G. P . , e d i t o r s , C e n o z o i c T e c t o n i c s and R e g i o n a l G e o p h y s i c s of t h e Western C o r d i l l e r a :
Roy, R. F . , Ph.D.
G e o l o g i c a l S o c i e t y of America Memoir 152, p.
1963, Heat f l o w m e a s u r e m e n t s i n t h e U n i t e d S t a t e s : thesis,
175-208.
Harvard U n i v e r s i t y
76 p .
Roy, R. F . , D e c k e r , E. R . ; B l a c k w e l l , D. D . ; B i r c h , F . , 1968, Heat f l o w determinations No. 16, p .
in the United S t a t e s :
5207-5221.
J o u r n a l of G e o p h y s i c a l R e s e a r c h , v .
73,
S a s s , J . H . ; L a c h e n b r u c h , A. H.; Munroe, R. J . ; Heat f l o w i n t h e w e s t e r n U n i t e d S t a t e s : 76, p.
G r e e n e , G. W.; Moses, T. H.,
1971,
J o u r n a l of G e o p h y s i c a l R e s e a r c h ,
v.
6379-6413.
S a s s , J . H.; Munroe, R. J . ,
1974, B a s i c h e a t - f l o w d a t a from the United S t a t e s ;
U.S.
G e o l o g i c a lSurveyO p e n - F i l e Report 7 4 - 9 , 456 p .
S a s s , J . H . ; B l a c k w e l l , D. D.; Chapman, D. S . ; C o s t a i n , J . K.; D e c k e r , E. R . ; Lawver L . A . ; Swanberg, C. A . , 1980, Heat f l o w from t h e c r u s t of the U n i t e d I n T o u l o u k i n a , Y. W.; J u d d , W. R . ; Roy R. F . , e d i t o r s , P h y s i c a l of Rocks and M i n e r a l s ( C h a p t e r 1 3 ) :
McGraw-Hill ( i n
States.
Properties
press).
S c h u s t e r , J . E . ; B l a c k w e l l , D. D.; Hammond, P . E . ; H u n t t i n g , M. T. , 1978, Heat Flow s t u d i e s i n t h e Steamboat Mountain-Lemei Rock a r e a , Skamania County,
Washington:
Washington D i v i s i o n of Geology and E a r t h R e s o u r c e s I n f o r m a t i o n C i r c u l a r 62, 56 p .
S p i c e r , H. C . , 1964, A c o m p i l a t i o n of deep e a r t h t e m p e r a t u r e d a t a , U . S . A . ,
1910-1945
U . S . G e o l o g i c a l Survey O p e n - F i l e R e p o r t 147, 74 p .
S t e e l e , J . L . , 1975, A h e a t f l o w s t u d y i n t h e T u r t l e Lake q u a d r a n g l e , Southern Methodist University M . S .
t h e s i s , 60 p .
Washington:
A d d i t i o n s and Comments By Michael A. Korosec
S t a t e w i d e R e g i o n a l Heat Flow
t o g e t h e r w i t h p r e - 1 9 7 9 d a t a ( t a b l e 3 . 1 ) , have begun t o d e l i n e a t e wide r e g i o n s
within
t h e s t a t e which d e m o n s t r a t e s i m i l a r t e m p e r a t u r e g r a d i e n t and h e a t f l o w c h a r a c teristics.
Since these a r e a s roughly correspond to the physiographic p r o v i n c e s ,
a
v a r i a t i o n of t h e s e s t a n d a r d p r o v i n c e s w i l l be used h e r e to d i s c u s s t h e d e n s i t y of c o v e r a g e and our p r e s e n t s t a t e of knowledge f o r r e g i o n a l h e a t f l o w . p r e l i m i n a r y s t a t e w i d e h e a t f l o w map, based on o n l y s c a t t e r e d s t a t e h a s been d i v i d e d i n t o f i v e " h e a t f l o w r e g i o n s " ; r e g i o n , which i n c l u d e s Hills,
Figure 3.2 i s a
data.
On t h i s m a p , t h e
1) t h e Western Washington
t h e p h y s i o g r a p h i c p r o v i n c e s of t h e P u g e t Lowland,
Willapa
and Olympic P e n i n s u l a , 2 ) t h e N o r t h C e n t r a l r e g i o n which i n c l u d e s
and c e n t r a l C a s c a d e s , 3 ) t h e N o r t h e a s t
r e g i o n , which i n c l u d e s Okanogan,
S t e v e n s , and Pend O r e i l l e C o u n t i e s in t h e Okanogan H i g h l a n d s , 4 ) t h e r e g i o n , which e x t e n d s f r o m t h e s o u t h e r n C a s c a d e s ,
the north Ferry,
Southeast
t h r o u g h t h e Columbia B a s i n , t o
I d a h o b o r d e r , and 5) t h e South C e n t r a l r e g i o n , which i n c l u d e s t h e s o u t h
the
Cascades
( f r o m r o u g h l y Snoqualmie P a s s s o u t h t o t h e Columbia R i v e r ) and t h e Simcoe M o u n t a i n s . For t h e most p a r t , poorly defined.
t h e b o u n d a r i e s between t h e s e h e a t f l o w r e g i o n s a r e
For l a c k of b e t t e r e v i d e n c e , many of t h e s e b o u n d a r i e s have been
sketched in to correspond to the p h y s i o g r a p h i c province boundary. imply t h a t h e a t f l o w t r a n s i t i o n s flow t r a n s i t i o n
only
occur a t these boundaries.
T h i s i s not
In f a c t , a few h e a t
zones have been shown t o o c c u r many 1 0 ' s of m i l e s o f f s e t from
physiographic province boundaries, as discussed 1) W e s t e r n W a s h i n g t o n :
later.
The h i g h e s t number of t e m p e r a t u r e g r a d i e n t s and h e a t
v a l u e s have been o b t a i n e d from w i t h i n t h i s h e a t f l o w r e g i o n , but v a s t a r e a s still
to
flow are
p o o r l y d e f i n e d , e s p e c i a l l y t h e W i l l a p a H i l l s and c e n t r a l Olympic P e n i n s u l a ,
where v i r t u a l l y no d a t a e x i s t .
Because t h e r e a r e o n l y a few p r e - e x i s t i n g w e l l s
in
FIGURE 3 . 2 . — P r e l i m i n a r y h e a t - f l o w r e g i o n map of W a s h i n g t o n .
these areas,
it
is
that
suspected
thus
i s not
the s t a t e
these
likely
temperature
geothermal
provinces.
that
gradients
I n a d d i t i o n , m o s t of
heat
flow values
are usually
the
(It
f l o w s a r e low i n t h e s e a r e a s ,
no p l a n s
to d r i l l
t h e Olympic P e n i n s u l a
to e x p l o r a t i o n . )
heat
flow holes
is part
of
Within the Western
r a n g e f r o m 20 t o 45 m W a t t s / m 2 ,
and t e m p e r a t u r e
T h e r e a r e o n l y two d a t a p o i n t s w i t h i n
i n King County,
increased
heat
at
and in
t h e Olympic Washington gradients
this
region,
the r e g i o n .
It
and b o t h
and n o r t h e r n C a s c a d e s .
are
is suspected
t h e C a s c a d e m o u n t a i n s of Oregon and
within the c e n t r a l
the Quaternary volcanic province
t h e f a r s o u t h e r n end of
flow a s s o c i a t e d with
Washington a l s o e x i s t s
this
in the near f u t u r e .
15 t o 35° C/km.
2) North C e n t r a l : located
be a v a i l a b l e
and h e a t
program i n c l u d e s
N a t i o n a l P a r k and t h e r e f o r e c l o s e d region,
data will
that
southern
The e x i s t e n c e
of
c e n t e r s Mount B a k e r and G l a c i e r P e a k f u r t h e r s u g g e s t s
should have a t
least
moderate heat
flow, with values higher
that
than
those
2 of w e s t e r n W a s h i n g t o n .
Values are suspected
p o s s i b l y h i g h e r anomalous v a l u e s 3) N o r t h e a s t
Washington:
good s c a t t e r i n g gradients
associated
t o r a n g e f r o m 50 t o 80 mWatts/m , w i t h with
t h e two
This region corresponds
of w e l l l o c a t i o n s w h i c h p r o v i d e
a r e low o r n o r m a l ,
t o t h e Okanogan H i g h l a n d and h a s a
consistent
f r o m 20 t o 3 0 ° C/km,
the heat
t o be a m o d e r a t e l y h i g h 70 t o 105 mWatts/m 2 b e c a u s e of rocks
in the
region.
4) Southeast
region:
c o n t a i n many s m a l l e r values.
This r e l a t i v e l y "sub-regions",
b u t o n l y a f e w of
poorly cased,
partially
holes produces
cased,
own c h a r a c t e r i s t i c
stair-step
these gradients
determined
heat
f o r t h e Columbia
these have c a l c u l a t e d h e a t or completely uncased,
temperature
flow has been
t h e l a r g e number of m o d e r a t e l y d e e p i r r i g a t i o n w e l l s d r i l l e d
early 1900's,
s e g m e n t s of
While
of
the
t h e s t a t e may a c t u a l l y
A t r e m e n d o u s number of w e l l l o g s a r e a v a i l a b l e
b e c a u s e of
drill
its
data.
the high c o n d u c t i v i t y
l a r g e s e c t i o n of
each with
volcanoes.
flows.
and w a t e r
temperature vs. depth p l o t s .
a r e most l i k e l y m e a n i n g l e s s .
flow Basin,
since
the
Many w e l l s
are
f l o w up and down t h e
The
straight-line
For t h e s e h o l e s ,
only
the
bottom h o l e t e m p e r a t u r e can be r e l i a b l y r e p o r t e d .
The h e a t f l o w v a l u e s t h a t have
been r e p o r t e d f o r " w e l l behaved" h o l e s f a l l m o s t l y i n t h e range of 55 t o 70 mWatts/m 2 , b u t some v a l u e s r a n g e a s h i g h a s 93 and 112 m W a t t s / m 2 , e s p e c i a l l y around t h e Walla Walla a r e a .
G r a d i e n t s from t h e s e w e l l s range from 35 t o 45° C/km, w i t h
v a l u e s of 70, 8 2 , and 107° C/km f o r t h e anomalous h o l e s n e a r Walla W a l l a . I f t h e d a t a s e t s r e p o r t e d i n Appendix A a r e u s e d , e s p e c i a l l y t h e w e l l log i n f o r m a t i o n from Washington S t a t e U n i v e r s i t y , r e l a t i v e l y h i g h bottom h o l e t e m p e r a t u r e s .
a number of w e l l s a r e found to have
Roughly 300 w e l l s have bottom h o l e
t e m p e r a t u r e s g r e a t e r t h a n 20° C, b u t w a t e r f l o w w i t h i n t h e s e w e l l s p r e v e n t s d i r e c t measurement of t e m p e r a t u r e g r a d i e n t s .
the
However, assuming a v a l u e f o r the mean
a n n u a l s u r f a c e t e m p e r a t u r e , a t e m p e r a t u r e g r a d i e n t can be c a l c u l a t e d u s i n g t h e two t e m p e r a t u r e end p o i n t s and t h e known d e p t h of t h e w e l l .
Throughout the Columbia
B a s i n , t h e mean a n n u a l s u r f a c e t e m p e r a t u r e i s known t o r a n g e p r i m a r i l y between 10° and 14° C; c o n t r o l l e d by e l e v a t i o n , cover.
For s i m p l i c i t y ,
gradient calculations.
s l o p e a n g l e , s l o p e o r i e n t a t i o n , and
t h e a v e r a g e v a l u e of 12° C was chosen as a s t a n d a r d
for
( T h i s might have i n t r o d u c e d a l a r g e e r r o r f o r many w e l l s ,
e s p e c i a l l y t h e s h a l l o w or low b o t t o m - h o l e - t e m p e r a t u r e w e l l s . when examining s p e c i f i c w e l l s . )
T h i s was k e p t i n mind
Most c a l c u l a t e d g r a d i e n t s f e l l i n t h e range of 3 5 °
t o 45° C/km, w i t h many a s h i g h a s 65° C/km or h i g h e r .
Some of t h e "anomalous
a r e s c a t t e r e d t h r o u g h o u t t h e Columbia B a s i n , b u t most a r e c l u s t e r e d areas.
vegetative
Using t h e c a l c u l a t e d g r a d i e n t s from a l l w e l l s ,
wells"
in specific
i n c l u d i n g c o l d deep w e l l s ,
two t y p e s of anomalous a r e a s ( m o d e r a t e p o t e n t i a l and h i g h p o t e n t i a l ) have been I d e n t i f i e d on the map of f i g u r e 3 . 3 .
These a r e a s c o r r e s p o n d to the
anomalies
i d e n t i f i e d on the Washington S t a t e G e o t h e r m a l R e s o u r c e Map (Korosec and 1981).
(The l i g h t g r a y a r e a s of t h e r e s o u r c e map a r e t h e m o d e r a t e
others,
potential
a n o m a l i e s of f i g u r e 3 . 3 , and t h e d a r k g r a y r e s o u r c e map a r e a s c o r r e s p o n d to t h e h i g h p o t e n t i a l a r e a s of f i g u r e 3 . 3 . )
Moderate p o t e n t i a l a r e a s a r e d e f i n e d a s
where s e v e r a l w e l l s have c a l c u l a t e d
regions
t e m p e r a t u r e g r a d i e n t s h i g h e r t h a n 4 5 ° C/km,
FIGURE 3 . 3 . — Anomalous t e m p e r a t u r e g r a d i e n t areas of Dark G r a y A r e a s .
In t h e Cascade Range, t h e d a r k g r a y shaded areas at t h e
Hachured Areas.
Washington.
In t h e Cascade Range p r o v i n c e , the areas d e p i c t r e g i o n s of
f i v e major Q u a t e r n a r y stratovolcanoes indicate h i g h p o t e n t i a l f o r low- to h i g h -
volcanic a c t i v i t y d u r i n g t h e past 1 million y e a r s .
t e m p e r a t u r e geothermal r e s o u r c e s .
even h i g h - t e m p e r a t u r e r e s o u r c e s may u n d e r l i e these a r e a s .
F a v o r a b l e i n d i c a t o r s a r e y o u n g igneous r o c k s ,
hot s p r i n g s , a n d fumaroles.
g r a d i e n t s are in t h e r a n g e o f 15° to
I n s o u t h e a s t e r n Washington, d a r k g r a y shaded areas d e p i c t r e g i o n s w h i c h
Low- to moderate- a n d p e r h a p s Typical
temperature
55°C/km.
In s o u t h e a s t e r n W a s h i n g t o n , h a c h u r e d areas indicate regions where several
h a v e a s i g n i f i c a n t number of wells w i t h c a l c u l a t e d t e m p e r a t u r e g r a d i e n t s g r e a t e r
wells have c a l c u l a t e d t e m p e r a t u r e g r a d i e n t s h i g h e r t h a n 4 5 ° C / k m , a l t h o u g h t h e r e
than 50°C/km.
are also c o l d e r wells w i t h i n these a r e a s .
Warm water is l i k e l y t o be e n c o u n t e r e d at r e l a t i v e l y
d e p t h s , a l t h o u g h t h e r e are c o l d wells w i t h i n t h e d a r k g r a y
areas.
shallow
Low- to m o d e r a t e - t e m p e r a t u r e
may u n d e r l i e l a r g e p o r t i o n s of these r e g i o n s .
resources
F u r t h e r e x p l o r a t i o n is needed to
delineate t h e r e s o u r c e s .
Potential G e o t h e r m a l Resource Areas in W a s h i n g t o n
a l t h o u g h c o l d e r w e l l s a r e o f t e n found w i t h i n t h e s e r e g i o n s .
The h i g h
potential
a r e a s a r e d e f i n e d a s r e g i o n s which have a s i g n i f i c a n t number of w e l l s w i t h calculated temperature gradients greater c o l d e r w e l l s i n the s u r r o u n d i n g a r e a .
t h a n 50° C/km, w i t h r e l a t i v e l y fewer or no
The b o u n d a r i e s of t h e s e d i f f e r e n t anomalous
a r e a s a r e i n d e f i n i t e , e s p e c i a l l y where t h e d e n s i t y of w e l l s i s
low.
I t i s suspected t h a t the heat flow within these areas i s a l s o r e l a t i v e l y
higher
t h a n t h e r e g i o n a l h e a t f l o w f o r t h e Columbia Basin ( g r e a t e r t h a n 50 t o 70
m W a t t s / m 2 ) , but not enough i n f o r m a t i o n i s a v a i l a b l e t o d e t e r m i n e q u a l i t a t i v e
heat
flow values. 5) South C e n t r a l W a s h i n g t o n :
The G e o t h e r m a l D r i l l i n g P r o j e c t s of 1975
Heaven a r e a , S c h u s t e r and o t h e r s ,
(Indian
1978) and 1979, by t h e D i v i s i o n of Geology
and E a r t h R e s o u r c e s ( s e e t a b l e 3 . 4 ) , have begun to c h a r a c t e r i z e t h e r e g i o n a l f l o w regime of t h e South Cascades ( s e e f i g u r e 3 . 4 ) .
Heat f l o w v a l u e s
t o 90 mWatts/m 2 , w i t h t e m p e r a t u r e g r a d i e n t s of 45° t o 55° C/km.
range from 60
Large r e g i o n s
t h i s p r o v i n c e have no w e l l s or d r i l l h o l e s , such a s the C e n t r a l C a s c a d e s
i n c l u d i n g t h e Mount R a i n i e r r e g i o n .
within
extending
f r o m t h e C o w l i t z R i v e r n o r t h t o t h e N o r t h C e n t r a l r e g i o n (Snoqualmie P a s s , Batholith area),
heat
Snoqualmie
The Tumac P l a t e a u t o Bumping
Lake a r e a , t h e Mount Adams a r e a , and t h e Cascade Mountains s o u t h of t h e b a s a l t of I n d i a n Heaven a r e a l s o w i t h o u t h e a t f l o w or t e m p e r a t u r e g r a d i e n t
fields
determinations.
The w e s t e r n boundary of t h e South C e n t r a l r e g i o n i s d e f i n e d by a r e l a t i v e l y sharp heat flow t r a n s i t i o n
( c l o s e l y spaced c o n t o u r s on t h e map In f i g u r e 3 . 4 ) .
Heat
f l o w i n c r e a s e s from l e s s t h a n 40 mWatts/m 2 t o g r e a t e r t h a n 60 mWatts/m 2 from west e a s t o v e r a d i s t a n c e of l e s s
t h a n 12 km, r o u g h l y a l o n g a n o r t h - s o u t h l i n e
Washougal and Skamania on t h e s o u t h , t h r o u g h Mount S t . H e l e n s , c o n t i n u i n g between t h e towns of Morton and R a n d l e , and e x t e n d i n g f u r t h e r n o r t h between t h e E a t o n v i l l e and Mount R a i n i e r - L o n g m i r e
to
between north
somewhere
area.
The e a s t e r n boundary of t h e South C e n t r a l h e a t f l o w r e g i o n i s v e r y p o o r l y known, b u t may c o r r e s p o n d t o t h e t o p o g r a p h i c change moving from t h e Q u a t e r n a r y v o l c a n i c s of t h e s o u t h Cascades t o t h e Miocene Yakima B a s a l t p l a i n s f u r t h e r e a s t (Columbia
River
Table 3.4
RESULTS OF HEAT-FLOW DRILLING, 1 9 7 9 , SOUTHWEST CASCADES, WASHINGTON
Basalts).
To t h e s o u t h , t h e p r e l i m i n a r y h e a t flow c o n t o u r s i n d i c a t e d
in figure 3.4
l i n e up w i t h c o n t o u r s drawn f o r t h e Oregon Cascades by D.D. B l a c k w e l l and o t h e r s earlier
in
reports.
Because of the e x i s t e n c e of a l a r g e number of Q u a t e r n a r y v o l c a n i c c e n t e r s
i n the
s o u t h C a s c a d e s , i n c l u d i n g t h e t h r e e l a r g e s t r a t o v o l c a n o e s Mt. R a i n i e r , Mount Adams, and Mount S t . H e l e n s , i t
i s not u n r e a s o n a b l e t o s u s p e c t t h a t h e a t f l o w a n o m a l i e s may
be a s s o c i a t e d w i t h a few of t h e s e v o l c a n i c s y s t e m s .
U n f o r t u n a t e l y , no a n o m a l i e s have
t h u s f a r been d e t e c t e d , b u t nor have t h e s e s p e c i f i c a r e a s been a d e q u a t e l y
examined.
A s s e s s m e n t of Heat Flow P r o j e c t s The h e a t f l o w d r i l l i n g which w i l l be c a r r i e d out under t h e 1980-1981 g e o t h e r m a l assessment
p r o j e c t w i l l p r o v i d e two new h e a t f l o w v a l u e s f o r the North
Central
r e g i o n ( S c e n i c , n e a r S t e v e n s P a s s , and Snoqualmie Summit on Snoqualmie P a s s ) .
The
p r o j e c t w i l l a l s o add one d r i l l h o l e n o r t h of Mount R a i n i e r , two to f o u r d r i l l
holes
a l o n g t h e Wind R i v e r n e a r t h e Columbia G o r g e , and t h r e e h o l e s between White P a s s and t h e Naches a r e a , a l l of which a r e p a r t of t h e South C e n t r a l h e a t f l o w r e g i o n .
The
t h r e e h o l e s e a s t of White P a s s w i l l b e t t e r d e f i n e the t r a n s i t i o n zone between the South C e n t r a l and t h e S o u t h e a s t
regions.
The d r i l l h o l e s a l o n g t h e Wind R i v e r ,
t o g e t h e r w i t h h o l e s p l a n n e d n e a r N o r t h B o n n e v i l l e , by t h e U . S . Department of Energy Region X C o m m e r c i a l i z a t i o n P r o g r a m , may i d e n t i f y h e a t f l o w a n o m a l i e s ,
(a
suspicion
based on t h e e x i s t e n c e of a r e l a t i v e l y l a r g e number of warm and hot s p r i n g s in the area).
At t h e v e r y l e a s t
the p r o j e c t w i l l provide r e g i o n a l i n f o r m a t i o n for a
p r e v i o u s l y unexamined p o r t i o n of t h e s o u t h C a s c a d e s . measurements i n w e l l s t h r o u g h o u t
In a d d i t i o n ,
temperature
t h e Columbia Basin d u r i n g t h e 1980-81 a s s e s s m e n t
project will help further delineate
t h e anomalous a r e a s i n t h e s o u t h e a s t
t h e s t a t e , and may l e a d t o t h e e s t a b l i s h m e n t
of new anomalous
areas.
Beyond t h e 1980-81 g e o t h e r m a l a s s e s s m e n t e f f o r t , a l o t of work w i l l t h e North C e n t r a l ,
S o u t h e a s t e r n , and S o u t h C e n t r a l r e g i o n s .
s e c t i o n of
be needed
F u t u r e work w i l l
d e f i n e t h e t r a n s i t i o n b o u n d a r i e s and t h e p o t e n t i a l f o r a n o m a l i e s w i t h i n t h e
in
better
regions.
Figure 3.4 Preliminary
Heat-Flow Map of S o u t h w e s t e r n Washington
For t h e North C e n t r a l
r e g i o n , where no d e e p w e l l s e x i s t ,
mineral exploration holes,
any h e a t
flow d r i l l
except
h o l e s w i l l g r e a t l y add t o t h e
p o o r u n d e r s t a n d i n g we now h a v e f o r t h i s a r e a .
Large p o r t i o n s
studied
in
closures
l a c k of
road access.
t h e n e a r f u t u r e , due t o e x p l o r a t i o n These a r e a s
include
f o r a few
of
this
present
a r e a cannot
b e c a u s e of l a n d s t a t u s
the North Cascades N a t i o n a l P a r k ,
or
the
P a s a y t e n W i l d e r n e s s A r e a , Mount S h u k s a n a r e a , G l a c i e r Peak W i l d e r n e s s A r e a , and Alpine Lakes Wilderness Area. accessible west
Areas needing heat
and a r e of g e o t h e r m a l
interest
include
f l o w e x p l o r a t i o n which t h e Mount Baker a r e a ,
of G l a c i e r P e a k W i l d e r n e s s A r e a , and t h e Skykomish and S n o q u a l m i e
valleys, River,
be
the
are the
region
River
e s p e c i a l l y n e a r t h e G a r l a n d Warm S p r i n g s on t h e N o r t h Fork of
the
Skykomish
and t h e Skykomish R i v e r v a l l e y b e t w e e n I n d e x and S c e n i c where a f e w m i n e r a l
s p r i n g s h a v e been
reported.
In the Southeast temperature
gradients
region,
there
s h o u l d be a c o n t i n u i n g e f f o r t
in a l l a v a i l a b l e w e l l s ,
but e s p e c i a l l y w i t h i n
t h e a n o m a l o u s a r e a s which h a v e a l r e a d y b e e n p r e l i m i n a r i l y flow c a l c u l a t i o n s
logged, and/or m a t e r i a l s
thermal conductivity measurements. t o r e l y on c a l c u l a t e d
temperature
A more c o n c e r t e d e f f o r t temperature
f o r e a c h of
calculations,
Until
and w i l l g i v e more c r e d e n c e
In the South C e n t r a l unexamined a f t e r
region
lead
Areas w i l l
prevent heat
r e g i o n i s p a r t of
The l a n d s t a t u s flow d r i l l i n g
of
from depth
for
we w i l l
be f o r c e d
wells. surface
temperature
large areas will t h e Goat Rocks
A r e a , and c o n t i n u i n g
heat are
temperature gradient
One s u c h a r e a i s
A r e a s o u t h t h r o u g h t h e Mount Adams W i l d e r n e s s
Actual
t h e a c t u a l mean a n n u a l
t o more a c c u r a t e
to the
around
the wells
f r o m t h e deep i r r i g a t i o n
(the south Cascades),
the 1980-81 p r o j e c t .
t h e Simcoe M o u n t a i n s .
h a v e been c o l l e c t e d
to a c c u r a t e l y d e t e r m i n e
these holes w i l l
unless
such a hole i s d r i l l e d ,
gradients
or
identified.
f o r t h e s e a n o m a l i e s w i l l n o t be p o s s i b l e ,
cased, geophysically
to measure
gradient
anomalies. remain Wilderness
southeast
through
t h e Goat Rocks and Mount Adams W i l d e r n e s s
in the
future.
t h e Yakima I n d i a n R e s e r v a t i o n .
The f a r e a s t e r n
Any d r i l l i n g
in this
p o r t i o n of region
this
would
have t o be done i n c o o p e r a t i o n w i t h t h e Yakima I n d i a n N a t i o n , and i t
is doubtful that
t h e D i v i s i o n of Geology and E a r t h R e s o u r c e s w i l l c o n d u c t such a v e n t u r e i n t h e n e a r future. The r e g i o n between Goat Rocks and Mount Adams i s p a r t of t h e G i f f o r d P i n c h o t N a t i o n a l F o r e s t and i s e a s i l y a c c e s s i b l e
by l o g g i n g r o a d s .
A l a r g e number of
young Q u a t e r n a r y v o l c a n i c c e n t e r s o c c u r i n t h i s a r e a , and b e c a u s e of t h e
very
relatively
c l o s e p r o x i m i t y t o t h e Q u a t e r n a r y s t r a t o v o l c a n o Mount Adams and t h e Goat Rocks Miocene t o Q u a t e r n a r y v o l c a n i c complex, t h i s r e g i o n s h o u l d be a prime t a r g e t flow d r i l l i n g in the near
for heat
future.
A n o t h e r l a r g e unexamined a r e a e x t e n d s t o t h e s o u t h from t h e C o w l i t z R i v e r V a l l e y between t h e l o n g i t u d e s of Mount S t . Helens and Mount Adams to t h e e x i s t i n g h e a t
flow
d r i l l h o l e s i n t h e Steamboat Mountain-Lemei Rock a r e a .
is
p a r t of t h e G i f f o r d P i n c h o t N a t i o n a l F o r e s t .
N e a r l y a l l of t h i s land
Heat f l o w a n o m a l i e s nay H e w i t h i n
a r e a , b u t e x c e p t f o r a few s c a t t e r e d Q u a t e r n a r y v o l c a n i c c e n t e r s , little
evidence a v a i l a b l e
there is
this
presently
t o s u g g e s t t h a t h e a t f l o w e x c e e d s 80 t o 90 mWatt/m 2 .
O t h e r b l a n k s w i t h i n t h e South C e n t r a l h e a t f l o w r e g i o n i n c l u d e t h e a r e a Bumping Lake and White P a s s ,
between
t h e w e s t e r n s i d e of t h e Cascades between t h e Snoqualmie
R i v e r and G r e e n w a t e r R i v e r s (which i n c l u d e s t h e L e s t e r Hot S p r i n g s a r e a i n t h e Green River V a l l e y ) ,
t h e Big Lava Bed a r e a between Wind R i v e r and White Salmon R i v e r , and
t h e Simcoe Mountains s o u t h of t h e Yakima I n d i a n R e s e r v a t i o n and n o r t h of Klickitat
and L i t t l e K l i c k i t a t
Rivers.
In t h e f o r e s e e a b l e f u t u r e , t h e D i v i s i o n
most l i k e l y c o n s i d e r d r i l l i n g h e a t f l o w h o l e s i n a number of t h e s e a r e a s the K l i c k i t a t ,
the
(including
T r o u t L a k e , Walupt L a k e , t h e Bumping Lake-Tumac P l a t e a u a r e a s ) ,
d e f i n i t e p l a n s have been made t o
will
but no
date.
A d d i t i o n a l s p e c i f i c h e a t f l o w d r i l l i n g t a r g e t s of i n t e r e s t which s h o u l d be c o n s i d e r e d by o t h e r s e n g a g i n g i n h e a t f l o w s t u d i e s f o r g e o t h e r m a l e x p l o r a t i o n
include
Government M i n e r a l S p r i n g s on the Wind R i v e r (where t h e D i v i s i o n of Geology hopes to d r i l l a hole in Spring, Soda S p r i n g s a r e a ) ,
1 9 8 1 ) , Ahtanum C r e e k w e s t of Tampico ( i n c l u d i n g t h e Ahtanum
the K l i c k i t a t
Yakima I n d i a n R e s e r v a t i o n ) ,
R i v e r v a l l e y e a s t of Mount Adams ( p a r t of
the
and t h e Lookout Mountain a r e a s o u t h of t h e E a s t Fork of
t h e Lewis R i v e r and n o r t h of t h e B o n n e v i l l e - S t e v e n s o n
area.
IV.
THERMAL AND MINERAL SPRING INVESTIGATIONS ( S u r v e y s and A n a l y s e s ,
1978-1979)
by M i c h a e l A. K o r o s e c D i v i s i o n of G e o l o g y and E a r t h R e s o u r c e s O l y m p i a , Washington
IV.
THERMAL AND MINERAL SPRING INVESTIGATIONS ( S u r v e y s and A n a l y s e s
1978-1979)
by M i c h a e l A. K o r o s e c D i v i s i o n of Geology and E a r t h
The l o c a t i o n s ,
Resources
t e m p e r a t u r e s , and c o n d u c t i v i t i e s
of a l l known t h e r m a l and m i n e r a l
s p r i n g s in t h e S t a t e of Washington a r e found i n t a b l e 4 . 1 . a v a r i e t y of s o u r c e s ,
The i n f o r m a t i o n comes from
i n c l u d i n g Washington D i v i s i o n of Geology and E a r t h
Resources
f i l e s , Washington D i v i s i o n of Water R e s o u r c e s Water Supply B u l l e t i n s , U . S .
Geological
Survey O p e n - F i l e R e p o r t s , and U . S . G e o l o g i c a l Survey T o p o g r a p h i c Maps. D u r i n g t h e 1978 and 1979 f i e l d s e a s o n s , 20 s p r i n g s y s t e m s were v i s i t e d sampled f o r c h e m i c a l a n a l y s i s .
and
Many of t h e s e s p r i n g s have n e v e r been a n a l y z e d
b e f o r e , and t h e e x i s t e n c e of a few a r e r e p o r t e d h e r e f o r t h e f i r s t
time.
Of t h e s e s p r i n g s y s t e m s , 13 h a v e been s u r v e y e d I n g r e a t e r d e t a i l , e x a m i n a t i o n s of s e v e r a l i n d i v i d u a l s p r i n g s w i t h i n each s y s t e m .
including
S e p a r a t e r e p o r t s on
e a c h of t h e s e s y s t e m s a r e found i n t h e s e c t i o n f o l l o w i n g R e s u l t s .
Methods At most s p r i n g s , a s e t of t h r e e w a t e r samples were c o l l e c t e d : f i l t e r e d , and f i l t e r e d a c i d i f i e d .
Filtered
samples were c o l l e c t e d by t a k i n g up
s p r i n g w a t e r i n a 50 ml p l a s t i c s y r i n g e and p a s s i n g i t
through a 0 . 4 micron Nuclepore
f i l t e r , h e l d i n a 47 mm Swin-Lok membrane h o l d e r , i n t o a 1 l i t e r container
(Cubi-tainer).
unfiltered,
collapsible
plastic
The a c i d i f i e d s a m p l e s were t r e a t e d by a d d i n g a b o u t 3 ml of
c o n c e n t r a t e d n i t r i c a c i d to about 1 l i t e r Temperature, conductivity,
of f i l t e r e d
water.
c h l o r i d e , and pH were measured i n t h e
field.
T e m p e r a t u r e s were measured w i t h a p o r t a b l e d i g i t a l Markson 7 0 1 , which was found to be
a c c u r a t e t o 0.05°C o v e r the r a n g e of 5° t o 90°C.
C o n d u c t i v i t y was measured w i t h a
Hach Mini C o n d u c t i v i t y Meter model 17250, w i t h b u i l t - i n t e m p e r a t u r e
compensator.
C h l o r i d e c o n c e n t r a t i o n s were e s t i m a t e d u s i n g t h e Hach C h l o r i d e T e s t K i t 7 - P which employs a d r o p - t i t r a t i o n m e t h o d . Sticks.
I n many c a s e s ,
The pH was d e t e c t e d w i t h C o l o r p H a s t
t h e c h l o r i d e and pH were not measured i n t h e
Indicator field.
B a t t e l l e N o r t h w e s t L a b o r a t o r i e s a n a l y z e d a l l samples c o l l e c t e d d u r i n g t h e 1978 f i e l d season.
The f o l l o w i n g methods were u s e d : Cl-
AgNO3
HCO 3 - ,
Titration
CO3-2
Alkalinity
Titration
F-
Ion Chromatography
SiO 2
Molybdosilicate
SO4-2
Turbidimetric
All other
cations
Colorimetric
I n d u c t i v e l y Coupled Argon Plasma Emission Spectroscopy
Samples c o l l e c t e d d u r i n g t h e 1979 f i e l d s e a s o n were a n a l y z e d a t t h e D i v i s i o n ' s water chemistry l a b o r a t o r y .
The f o l l o w i n g methods were u s e d :
C I - , B r - , I-
S p e c i f i c Ion E l e c t r o d e s and Orion S p e c i f i c I o n Meter 901
Alk
Hach Model AL-DT D i g i t a l
SO4-2
Hach Model SF-1 T u b i m e t r i c T e s t K i t Molybdosilicate C o l o r i m e t r i c with S u l f i t e R e d u c t i o n ; Bausch and Lomb S p e c t r o n i c 710
SiO 2 All other
Titration
cations
V a r i a n AA575 ABQ Atomic A b s o r p t i o n photometer
Spectro-
Results S p r i n g c h e m i s t r y d a t a have been d i v i d e d i n t o two t a b l e s , d i f f e r e n t l a b o r a t o r i e s which a n a l y z e d t h e w a t e r s .
r e f l e c t i n g t h e two
Table 4 . 2 c o n t a i n s analyses
for
s p r i n g s c o l l e c t e d by the a u t h o r d u r i n g t h e 1979 f i e l d s e a s o n , and a n a l y z e d by the
author at contains
t h e D i v i s i o n of G e o l o g y and E a r t h R e s o u r c e s analyses
for springs
collected
during
lab f a c i l i t i e s .
t h e 1978 f i e l d
Table
4.3
s e a s o n by D i v i s i o n
s o n n e l and a n a l y z e d by B a t t e l l e N o r t h w e s t L a b o r a t o r i e s .
Table 4 . 5 summarizes
location,
i n f o r m a t i o n on many of
springs.
temperature,
conductivity,
and g e o t h e r m o m e t r i c
per-
the the
T a b l e 4 . 1 - T h e r m a l a n d M i n e r a l S p r i n g s of W a s h i n g t o n
Chelan L i t t l e Wenatchee Soda Medicine
Spring
Spring
Clallam Olympic Hot
Springs
Piedmont S u l f u r S o l Duc Hot
Spring
Springs
Cowlitz Green R i v e r Soda Pigeon
Grays
Springs
Springs
Harbor Newskah M i n e r a l
Springs
Diamond M i n e r a l
Spring
Flaming Geyser
Springs
King
State
Goldmeyer Hot L e s t e r Hot
Springs
Springs
Money C r e e k Soda
Springs
Ravenna P a r k S u l f u r S c e n i c Hot
Spring
Springs
Skykomish Soda
Springs
Kitsap Bremerton Sulphur
Spring
Kittitas Medicine Creek Mineral
Spring
Klickitat Blockhouse Mineral
Springs
F i s h H a t c h Warm S p r i n g Klickitat
Mineral
Klickitat
Soda
Springs
Springs
Lewis Alpha M i n e r a l
Spring
O h a n a p e c o s h Hot Packwood Hot
Springs
Spring
Packwood M i n e r a l Well ( S p r i n g ) Summit C r e e k Soda Vance M i n e r a l
Springs
Spring
Okanogan Hot L a k e P o i s o n Lake
Pierce Longmire M i n e r a l Mt. R a i n i e r
Springs
Fumaroles
S t . Andrews Soda
Spring
Skamania B o n n e v i l l e Hot C o l l i n s Hot
Springs
Springs
Skamania Government M i n e r a l L i t t l e Soda
Springs
Spring
L i t t l e Wind R i v e r M i n e r a l Mount
S t . Helens
Seep
Fumaroles
O r r C r e e k Warm S p r i n g s Rock C r e e k Hot S h i p e r d s Hot
Springs
Springs
S t . M a r t i n Hot
Springs
Snohomish Gamma Hot
Springs
Garland Mineral Kennedy Hot
Springs
Springs
S u i a t t l e River Mineral S u l p h u r C r e e k Hot
Seep
Springs
Walla Walla Warm S p r i n g s Canyon Warm S p r i n g
Whatcom B a k e r Hot
Springs
Dorr Fumarole
Field
Sherman C r a t e r
Fumaroles
Yakima Ahtanum Soda
Springs
Bumping R i v e r Soda
Springs
Goose Egg Soda
Spring
Indian Mineral
Springs
Klickitat
Meadow Soda
Springs
L i t t l e R a t t l e s n a k e Soda McCormick Meadow Soda
Springs
Springs
M t . Adams F u m a r o l e s Simcoe Soda
Springs
Soda S p r i n g C r e e k Soda
Spring
T a b l e 4 . 2 - THERMAL AND MINERAL SPRING CHEMISTRY ( A n a l y s e s by D i v i s i o n of G e o l o g y and E a r t h R e s o u r c e s l a b )
T a b l e 4 . 2 - THERMAL AND MINERAL SPRING CHEMISTRY ( A n a l y s e s by D i v i s i o n of Geology and E a r t h Resources l a b ) ( C o n t . )
T a b l e 4 . 3 - THERMAL AND MINERAL SPRING CHEMISTRY ( b y B a t t e l l e
Northwest
Lab)
T a b l e 4 . 4 - Water I d e n t i f i e r Codes
OH
Ohanapecosh Hot S p r i n g s
GE
Goose Egg Soda S p r i n g s
OC
Orr Creek Warm S p r i n g s
SC
Summit Creek Soda S p r i n g s
LS
L e s t e r Hot S p r i n g s
CS
C o r b e t t S t a t i o n Warm S p r i n g s
YM
YMCA Warm Well
NS
Newskah Warm S p r i n g s
MC
M e d i c i n e Creek M i n e r a l
LM
Longmire M i n e r a l
BV
B o n n e v i l l e Hot
SB
Studebaker Mineral
SD
Sol Duc Hot
SM
S t . M a r t i n Hot
BK
Baker Hot
KN
Kennedy Hot S p r i n g s
OL
Olympic Hot
SF
S u l f u r Hot
SR
S u i a t t l e R i v e r M i n e r a l Seeps
Springs
Springs
Springs Springs
Springs Springs
Springs
Springs Springs
53
TABLE 4 . 5 - THERMAL AND MINERAL SPRING DATA
Baker Hot
Springs
B o n n e v i l l e Hot Springs
Goose Egg Soda Spring Kennedy Hot Springs
L e s t e r Hot Springs
Longmire M i n e r a l Springs
MedicineCreekMineralSpring Newskah Warm S p r s .
Ohanapecosh Hot Springs
Olympic Hot Springs
OrrCreekWarm Springs Sol
Duc Hot Springs
S t . M a r t i n Hot S p r s . S u i a t t l eRiverMineralSeep S u l p h u rCreekHot Springs SummitCreekSoda Spring
I n d i v i d u a l S p r i n g System
Investigations
T h i s s e c t i o n c o n t a i n s 12 r e p o r t s on i n d i v i d u a l s p r i n g s y s t e m s . been d i v i d e d i n t o f o u r s e c t i o n s : reach the a r e a ;
bedrock u n i t s ,
an I n t r o d u c t i o n , which d e s c r i b e s d i r e c t i o n s
G e o t h e r m a l F e a t u r e s , where s p r i n g s t a t i s t i c s ,
mometers a r e d i s c u s s e d ;
Each r e p o r t
c h e m i s t r y and
has
to geother-
Geology, where a v a i l a b l e g e o l o g i c i n f o r m a t i o n such as mapped
p r o x i m i t y of Q u a t e r n a r y v o l c a n i c and T e r t i a r y i n t r u s i v e r o c k s ,
and
h e a t - f l o w i n f o r m a t i o n a r e p r e s e n t e d ; and Comments, i n which t h e a u t h o r examines available
i n f o r m a t i o n and p r e s e n t s c o n j e c t u r e s and
interpretations.
A t h r e e l e t t e r and one number i d e n t i f i c a t i o n s y s t e m h a s been c o n t r i v e d and used i n t h e t a b l e s . The t h i r d l e t t e r etc.), Table
The f i r s t
the
is
two l e t t e r s a r e an a b b r e v i a t i o n of t h e s p r i n g name.
r e f e r s t o a s p e c i f i c s p r i n g w i t h i n a f a m i l y of s p r i n g s (A, B, C,
and t h e number k e y s t o t h e time d u r i n g which t h e sample was c o l l e c t e d
...
(see
4.4).
Several springs are described in g r e a t e r d e t a i l than o t h e r s .
This i s a r e s u l t
t h e a v a i l a b i l i t y of p u b l i s h e d i n f o r m a t i o n and t h e r e l a t i v e t i m e s p e n t i n t h e of t h e s p r i n g
of
vicinity
systems.
A few s p r i n g s were v i s i t e d
j u s t long enough t o c o l l e c t w a t e r s a m p l e s .
Individual
r e p o r t s have n o t been w r i t t e n f o r t h e s e s p r i n g s , b u t t h e r e s u l t s of c h e m i c a l a r e p r e s e n t e d in t h e t a b l e s .
They i n c l u d e Kennedy Hot S p r i n g s (KN), S u i a t t l e
analyses River
M i n e r a l Seep ( S R ) , S a i n t M a r t i n Hot S p r i n g s (SM), Newskah Warm S p r i n g s (NS) and Olympic Hot S p r i n g s
(OL).
Baker Hot S p r i n g s Whatcom County T. 38 N., R. 9 E . , SW1/4 S e c . 20 Mt. Shuksan 1953, 1 5 ' USGS Quad. Baker Hot S p r i n g s , a l s o known a s Morovitz Hot S p r i n g s , a r e l o c a t e d on a h i l l s i d e i n t h e S w i f t Creek V a l l e y , n e a r Morovitz C r e e k , w i t h i n t h e Mount Baker R e c r e a t i o n They a r e found by f o l l o w i n g a t r a i l
1/2 m i l e from a p a r k i n g a r e a on F o r e s t Road 3816,
which i s r e a c h e d by f o l l o w i n g S t a t e Route 20 e a s t 385 (Baker Lake R o a d ) .
area
from S e d r o Woolley to F o r e s t Road
Use of a Mount B a k e r - S n o q u a l m i e N a t i o n a l F o r e s t Map i s
recommended.
Geothermal
Features
One main s p r i n g and s e v e r a l s m a l l e r s e e p s i s s u e from a h e a v i l y v e g e t a t e d
hillside
w i t h a t o t a l f l o w of 8 t o 10 gpm.
The immediate a r e a h a s been c l e a r e d and
picnic
f a c i l i t i e s have been c o n s t r u c t e d .
A wooden t u b which once c o l l e c t e d w a t e r s from t h e
main s p r i n g was removed by t h e N a t i o n a l F o r e s t S e r v i c e i n September 1978. Waters c o l l e c t e d from t h e main pool (BAK-1) and from a s m a l l e r s p r i n g (BKB-1) i n August 1978 were a n a l y z e d by B a t t e l l e N o r t h w e s t L a b o r a t o r y . are presented in table
R e s u l t s of t h e
analyses
4.3.
Both w a t e r s had h i g h S i O 2 , L i , F, and B c o n c e n t r a t i o n s , c o n c e n t r a t i o n s , and a r e l a t i v e l y h i g h K/Na r a t i o . dominant a n i o n s , but a s i g n i f i c a n t amount of SO4
low Ca and Mg
C h l o r i d e and b i c a r b o n a t e a r e is present.
The main s p r i n g
a b o u t 10 p e r c e n t t o 20 p e r c e n t h i g h e r c o n c e n t r a t i o n s f o r most s p e c i e s e x c e p t f o r Ca and Mg, which a r e s l i g h t l y h i g h e r f o r t h e s m a l l e r
When g e o t h e r m o m e t e r s a r e a p p l i e d ,
the has
measured,
spring.
p r e d i c t e d r e s e r v o i r t e m p e r a t u r e s a r e a b o u t 150°C
f o r t h e S i - Q u a r t z g e o t h e r m o m e t e r and 171°C w i t h t h e Na-K-Ca g e o t h e r m o m e t e r .
The
d i f f e r e n c e may be due t o m i x i n g w i t h ground w a t e r n e a r t h e s u r f a c e , or l o s s of SIO2 due t o p r e c i p i t a t i o n and r e - e q u i l i b r a t i o n w i t h i n t h e s y s t e m , a s s u g g e s t e d f l o w of w a t e r o b s e r v e d a t t h e
surface.
by t h e slow
Geology Baker Hot S p r i n g s i s l o c a t e d t h e summit.
j u s t e a s t of t h e f l a n k s of Mount B a k e r , 7 m i l e s from
Mount Baker i s a Q u a t e r n a r y a n d e s i t i c
show s i g n s of a c t i v i t y
s t r a t o v o l c a n o which c o n t i n u e s
to
i n t h e form of e x t e n s i v e s t e a m i n g f u m a r o l e s i n Sherman
C r a t e r and w i t h i n t h e D o r r Fumarole F i e l d on t h e n o r t h e a s t
slope.
G e o l o g i c r e p o r t s on Mount Baker i n c l u d e Coombs ( 1 9 3 9 ) , and S t a v e r t summary i s p r o v i d e d by B l o o m q u i s t ( 1 9 7 9 ) . o t h e r s ( 1 9 7 3 ) , Hyde and C r a n d e l l
( 1 9 7 1 ) , and a
H a z a r d s have been s t u d i e d by C r a n d e l l and
(1975, 1 9 7 8 ) , and e r u p t i v e s e q u e n c e s a r e r e p o r t e d by
E a s t e r b r o o k ( 1 9 7 5 , 1 9 7 6 ) , and Swan ( 1 9 7 8 ) .
Thermal a c t i v i t y h a s been examined by
McLane and o t h e r s ( 1 9 7 6 ) , S a t o and o t h e r s ( 1 9 7 6 ) , Frank and o t h e r s ( 1 9 7 5 , Malone ( 1 9 7 6 ) , and K i v e r There i s v e r y l i t t l e
1977),
(1978). p u b l i s h e d g e o l o g i c mapping t h a t c o v e r s t h e f a r e a s t
flanks
of Mount Baker and t h e S w i f t Creek v a l l e y between Mount Shuksan and Mount B a k e r . From u n p u b l i s h e d s k e t c h maps, i t a p p e a r s t h e h o t s p r i n g s f l o w from g l a c i a l
drift.
Somewhere below t h e u n c o n s o l i d a t e d m a t e r i a l , a Q u a t e r n a r y v o l c a n i c f l o w from t h e west t e r m i n a t e s a g a i n s t C a r b o n i f e r o u s - P e r m i a n v o l c a n i c s and s e d i m e n t s .
The o l d e r
unit,
which i s e x t e n s i v e l y exposed e a s t of S w i f t C r e e k , i s t h o u g h t to u n d e r l i e a s i g n i f i c a n t p o r t i o n of t h e
stratovolcano.
No h e a t - f l o w d a t a or t e m p e r a t u r e g r a d i e n t i n f o r m a t i o n is a v a i l a b l e d i a t e a r e a or f o r t h i s r e g i o n of t h e North
f o r t h e imme-
Cascades.
Comments
Because of t h e p r o x i m i t y of Baker Hot S p r i n g s t o t h e s t r a t o v o l c a n o and c h e m i c a l c o m p o s i t i o n of i t s w a t e r s , t h e r e i s l i t t l e d i r e c t l y r e l a t e d to the v o l c a n i c system.
doubt t h a t t h i s s p r i n g
the is
The p r e d i c t e d r e s e r v o i r t e m p e r a t u r e
is
h i g h , a t l e a s t 150° t o 170°C, and may be h i g h e r if mixing i s o c c u r r i n g .
A mixing
model h a s been c o n s t r u c t e d which assumes t h e c h e m i c a l c o n c e n t r a t i o n s and
temperature
of t h e ground w a t e r (10 t o 20 ppm S i O 2 , 2 t o 20 ppm Na, 0 t o 3 ppm K, and 5 t o 8 ppm
Ca, a t water. cools
10° t o 1 2 ° C ) . The r e s e r v o i r
T h i s model p r e d i c t s m i x i n g of a b o u t 2 / 3 t h e r m a l and 1 / 3 g r o u n d temperature
is predicted
through conductive or convective heat
t h e ground
loss
t o a b o u t 60°C b e f o r e i t
but
mixes w i t h
water.
Another hot spring i s
reported
m i l e s n o r t h of B a k e r Hot S p r i n g s ,
t o f l o w f r o m t h e c r e e k bed of S w i f t C r e e k , 3 t o 4 between the e l e v a t i o n s
s p r i n g may be p a r t i a l l y w i t h i n t h e c r e e k , water.
t o h a v e b e e n a b o u t 1 7 0 ° t o 175°C,
of 1 , 8 0 0 t o 2 , 2 0 0 f e e t .
completely covered during
t i m e s of
high
The
B o n n e v i l l e Hot S p r i n g s - M o f f e t t ' s Hot S p r i n g s Skamania County T . 2 N . , R. 7 E . , S e c . 16, SWl/4 B o n n e v i l l e Dam 1957, 1 5 ' USGS Quad. T h i s p r i v a t e l y owned r e s o r t ,
f o r m e r l y known a s M o f f e t t ' s Hot S p r i n g s ,
n o r t h e a s t of t h e town of North B o n n e v i l l e , a l o n g G r e e n l e a f C r e e k .
is
located
Two d r i l l e d
wells
s u p p l y w a t e r f o r a swimming p o o l and t u b s w i t h i n t h e main r e c r e a t i o n b u i l d i n g . facilities
i n c l u d e an o f f i c e , r e n t a l c a b i n s , and c a m p e r - t r a i l e r p a r k i n g
Geothermal
Features
I n 1971, b o t h w e l l s were i n u s e .
The w e l l was pumped f o r
y i e l d , b u t t h e owners r e p o r t e d i t would f l o w a r t e s i a n . s u p p l y m i n e r a l b a t h s and d r i n k i n g w a t e r f o r t h e c a b i n s . 82°F (28°C) and was d e f i n i t e l y n o t
BVA-).
I t s reported
r e l a t i v e to a l k a l i n i t y ,
temperature
(sample
The w a t e r s a r e v e r y The v a r i o u s
estimates:
NA-K-Ca
B = 1/3
T = 6 2 . 6 °C
Na-K-Ca
B = 4/3
T = 27.9
SiO 2
Quartz
T = 102.1
SiO 2
Alpha C r i s t o b a l i t e
T = 51.7
t e m p e r a t u r e s may not be t o o much h i g h e r t h a n t h e
o b s e r v e d w e l l head t e m p e r a t u r e , u n l e s s c h e m i c a l r e - e q u i l i b r a t i o n The s p r i n g w a t e r s a r e f l o w i n g t h r o u g h u n c o n s o l i d a t e d t i v e l y slow r a t e .
t e m p e r a t u r e was
w e l l head
low K/Na, and low L i / N a .
g e o t h e r m o m e t e r s produce t h e f o l l o w i n g r e s e r v o i r
R e s u l t s suggest the r e s e r v o i r
to
A r t e s i a n f l o w was p r o d u c i n g a b o u t 20
Waters were sampled from a s p i g o t n e a r t h e
Cl-
greater
The second w e l l was used
R e s u l t s of t h e a n a l y s e s a r e p r e s e n t e d i n t a b l e 4 . 2 .
b a s i c , have h i g h
flowing
artesian.
I n 1979, o n l y t h e main w e l l was b e i n g u s e d . gpm of 36°C w a t e r .
areas.
The main w e l l , r e p o r t e d l y 25 f e e t d e e p ,
90°F ( 3 2 ° C ) , was used t o s u p p l y t h e swimming p o o l .
Other
is taking
landslide debris at a rela-
S e v e r a l f r e s h - w a t e r c o l d s p r i n g s a r e found t h r o u g h o u t
and n e a r s u r f a c e mixing may c o n s e q u e n t l y be
place.
occurring.
the a r e a ,
About 50 m e t e r s n o r t h of t h e w e l l h e a d s a t B o n n e v i l l e Hot S p r i n g s , a gas l i n e u n d e r g r o u n d , r o u g h l y NE-SW t h r o u g h a c l e a r e d c o r r i d o r . the h i l l
By f o l l o w i n g t h i s l i n e up
(SW), a warm s p r i n g i s f o u n d , f o r m i n g a warm w a t e r d r a i n a g e f l o w i n g a c r o s s
the clearing.
The s p r i n g comes o u t a l o n g t h e h i l l s i d e on t h e n o r t h s i d e of
clearing,
10 t o 15 m e t e r s from t h e o l d r e s o r t
just
c i s t e r n (11.5°C).
The warm s p r i n g ,
v a r i e s f l o w f r o m 0 t o 10 gpm.
the
road which l e a d s t o a c o l d
over a 5-minute time i n t e r v a l .
spring
r e f e r r e d t o a s P i p e l i n e Warm S p r i n g o r BVB,
I t a p p e a r s t o be a s s o c i a t e d w i t h a c o l d w a t e r
where i t b r e a k s t h r o u g h a l l u v i u m .
spring,
The s p r i n g t e m p e r a t u r e r a n g e s from 17°C to 31.6°C
By d i g g i n g a r o u n d and d i v e r t i n g t h e c o l d w a t e r
f l o w from t h e warm w a t e r f l o w , t h e c o l d s p r i n g was found t o be 12.0°C a t c o l d e s t , b u t I t f l u c t u a t e d by a b o u t 4°C, s u g g e s t i n g s e p a r a t i o n was not
its
complete.
Warm w a t e r f l o w was accompanied by p e r i o d i c b u b b l i n g , p o s s i b l y CO2 g a s .
The t o t a l
c o n d u c t i v i t y and c h e m i c a l c o m p o s i t i o n of t h i s w a t e r i s v e r y s i m i l a r t o t h a t of main h o t w e l l and p r o b a b l y r e p r e s e n t s a s i m i l a r s o u r c e which h a s been s l i g h t l y more t h a n t h e h o t w e l l
H a m i l t o n Creek Warm S p r i n g and Bass Lake Hot S p r i n g s .
w a t e r a t 10 t o 20 gpm on t h e e a s t bank of t h e c r e e k . At t h a t
diluted
including
The b u i l d i n g of t h e new S t a t e
Hwy. 14 b r i d g e o v e r H a m i l t o n Creek c o v e r e d up a s p r i n g r e p o r t e d
f o u n d i n August 1979.
t o f l o w 2 5 ° t o 30°C
No t r a c e of t h i s s p r i n g was
t i m e , t h e c r e e k w a t e r s and a i r t e m p e r a t u r e were warm
a t 20°C and would have masked any t h e r m a l w a t e r s coming up w i t h i n t h e c r e e k Bass Lake Hot S p r i n g s , t h e e n t i r e a r e a around i t s
(SE1/4SE1/4 s e c . 16, T. 2 N . , R. 7 E . ) may s t i l l
bed.
exist,
but
r e p o r t e d s i t e h a s been d i s t u r b e d by t h e c o n s t r u c t i o n of
t h e second powerhouse a t B o n n e v i l l e Dam, and t h e s u b s e q u e n t r e r o u t i n g of railroad.
the
water.
S e v e r a l o t h e r warm t o h o t s p r i n g s h a v e been r e p o r t e d i n t h e a r e a ,
resort,
runs
the
The s p r i n g s , which a r e r e p o r t e d l y a s warm a s t h e s p r i n g s a t t h e
Bonneville
form p o o l s on t h e n o r t h s i d e of Bass Lake on p r o p e r t y once owned by
Mr. Z i e g l e r of North B o n n e v i l l e .
The s p r i n g s may o c c u r on t h e n o r t h end of a s m a l l
c l e a r i n g , r e a c h e d by f o l l o w i n g t h e r a i l r o a d t r a c k s e a s t t o t h e p o i n t where t h e c l e a r i n g and s l o u g h meet and t h e old- l a k e b a s i n
ends.
Warm s p r i n g s a r e a l s o r e p o r t e d t o o c c u r t h r o u g h o u t t h e a r e a w i t h i n a m i l e , and e a s t of B o n n e v i l l e
north
resort.
Geology The e n t i r e a r e a i s covered by a l a r g e r e c e n t l a n d s l i d e .
The m a t e r i a l
is
p r i m a r i l y Yakima B a s a l t and E a g l e Creek F o r m a t i o n (Miocene v o l c a n i c s ,
conglomerates,
and s e d i m e n t s ) which o v e r l i e h e a v i l y z e o l i t i z e d Ohanapecosh F o r m a t i o n
(Eocene
volcanics).
Waters ( 1 9 7 3 ) p r o v i d e s a g e o l o g i c map of t h e s l i d e and s u r r o u n d i n g
and p r e s e n t s a s i m p l e mechanism t o e x p l a i n t h e s l i d e , O h a n a p e c o s h - E a g l e Creek c o n t a c t due t o s a p r o l i t e
i n v o l v i n g f a i l u r e along
area,
the
clay.
W i t h i n a m i l e due n o r t h of t h e h o t w e l l s a t B o n n e v i l l e , Waters ( 1 9 7 3 ) h a s mapped two Q u a t e r n a r y i n t r u s i o n s of o l i v i n e b a s a l t i n t o t h e Yakima B a s a l t v e r y n e a r t h e head of t h e s l i d e (NEl/4 s e c . 17 and SEl/4 s e c . 8 , T. 2 N . , R. 7 E . ) .
Two o t h e r Q u a t e r n a r y
I n t r u s i o n s a r e mapped 3 m i l e s due n o r t h of t h e r e s o r t above t h e Red B l u f f s s c a r p (SE1/4 s e c . 3 2 , T. 3 N . , R. 7 E . ) .
These f e a t u r e s a r e not d i s c u s s e d w i t h i n t h e
H e a t - f l o w s t u d i e s i n t h e a r e a i n c l u d e t h e t e m p e r a t u r e l o g g i n g of t e s t d r i l l e d a s p a r t of t h e B o n n e v i l l e Dam powerhouse p r o j e c t .
Temperature
holes
gradients
r a n g e from 25° t o 70°C/km f o r h o l e s 50 t o 85 m e t e r s deep which have been d r i l l e d marily through sedimentary u n i t s (unconsolidated b u t bottom I n b e d r o c k .
text.
l a n d s l i d e d e b r i s and s l i d e
pri-
blocks),
Most g r a d i e n t s a r e 40° t o 50°C/km.
Comments: Thermal w a t e r s t h r o u g h o u t t h e a r e a may r e p r e s e n t a s i n g l e t h e r m a l s o u r c e f l o w i n g below t h e s l i d e and mixing w i t h ground w a t e r w i t h i n t h e s l i d e .
The mixed w a t e r s
s u r f a c i n g a l o n g c o n t a c t s or w e a k n e s s e s w i t h i n t h e s l i d e b l o c k .
The u l t i m a t e
are
thermal
s o u r c e s may be r e l a t e d t o t h e s o u r c e f o r Rock Creek Hot S p r i n g to t h e n o r t h and
the
v a r i o u s h o t s p r i n g s a l o n g t h e Wind R i v e r w i t h a n y d e g r e e of c e r t a i n t y springs.
to the n o r t h e a s t ,
due t o t h e l a c k of c h e m i c a l
B a s s L a k e , Rock C r e e k ,
but
this
c a n n o t be
stated
i n f o r m a t i o n on many of
and S h i p e r d s Hot S p r i n g s w i l l
be e x a m i n e d i n
the
1980.
C o l l i n s Hot S p r i n g s Skamania County T . 3 N . , R. 9 E . , S e c . 31 Hood R i v e r 1957, 15' USGS Quad.
L o c a t e d n e a r t h e j u n c t i o n of C o l l i n s Creek w i t h t h e Columbia R i v e r along Hwy. 14, a b o u t 8 m i l e s e a s t of
State
Stevenson.
A n a t u r a l h o t s p r i n g was c a s e d o f f f o r a r e s o r t h o t e l i n 1860. b u i l d i n g and a s i n g l e s t o r y b a t h h o u s e were t o r n down i n 1916.
The t w o - s t o r y
The s i t e has
been f l o o d e d by w a t e r s of t h e Columbia R i v e r behind B o n n e v i l l e Dam.
since
The s p r i n g
is
r e p o r t e d l y capped and v a l v e d i n a s q u a r e s t e e l h o u s i n g which i s 3 f e e t by 3 f e e t t h e t o p and 5 f e e t by 5 f e e t a t t h e b a s e . w a t e r , a b o u t 30 f e e t from t h e
at
The s t r u c t u r e s t a n d s i n a b o u t 12 f e e t of
shore.
The a c r e a g e a l o n g t h i s p o r t i o n of t h e Columbia R i v e r and C o l l i n s Creek was p r i v a t e l y owned, a s of 1971 (Merle B u r g e s s F a m i l y , Tacoma, WA), b u t t h e G i f f o r d P i n c h o t N a t i o n a l F o r e s t Map of 1975 shows t h i s a r e a a s N a t i o n a l
Geothermal
Forest.
Features
No s p e c i f i c t e m p e r a t u r e or c h e m i c a l d a t a a r e a v a i l a b l e
on t h e h o t
spring.
E a r l i e r r e p o r t s seem t o i n d i c a t e t h a t t h e a r t e s i a n p r e s s u r e was s u f f i c i e n t to s p o u t i n g to 6 meters through a r e s t r i c t e d v a l v e .
create
The t e m p e r a t u r e i s t h o u g h t to have
been between 40°C and 50°C. Geology The a r e a i s l o c a t e d on the lower p o r t i o n of t h e Wind R i v e r L a n d s l i d e . i s p r o b a b l y Yakima B a s a l t ( M i o c e n e ) . immediate v i c i n i t y ,
There a r e s e v e r a l T e r t i a r y i n t r u s i v e s
The d e b r i s in the
and t h e T r o u t Creek H i l l Q u a t e r n a r y b a s a l t f l o w e x t e n d s down t h e
Wind R i v e r v a l l e y 2 m i l e s to t h e e a s t ( W i s e , 1 9 7 0 ) . C e n t e r s a r e mapped 5 t o 8 m i l e s n o r t h e a s t
of the a r e a (Hammond, P . E . ,
map). No h e a t - f l o w d a t a a r e a v a i l a b l e
Several Quaternary
f o r the
area.
Volcanic unpublished
Comments: This thermal f e a t u r e i s very l i k e l y r e l a t e d p r o d u c e h o t s p r i n g s a l o n g t h e Wind R i v e r , Springs.
t o t h e t h e r m a l s y s t e m s working
to
i n c l u d i n g S t . M a r t i n and S h i p e r d s Hot
S i n c e t h i s s p r i n g i s in or n e a r a s l i d e ,
t h e t h e r m a l w a t e r s may be
f r o m some s o u r c e b e n e a t h t h e s l i d e , a s was s u g g e s t e d f o r B o n n e v i l l e Hot
issuing
Springs.
Goose Egg Soda S p r i n g Yakima County T. 14 N . , R. 14 E . , SWl/4, SWl/4 S e c . 33 T i e t o n B a s i n , 1967, 7-1/2' USGS Quad. The s p r i n g i s l o c a t e d a l o n g F o r e s t Road 1430 i n t h e T i e t o n Ranger D i s t r i c t of Wenatchee N a t i o n a l F o r e s t .
I t i s r e a c h e d by t a k i n g t h e White P a s s Highway
Route 12) t o T i e t o n R i v e r Road, a b o u t 1-1/2 m i l e s e a s t of Rlmrock V i l l a g e .
the
(State The road
is
f o l l o w e d s o u t h , a l o n g Milk Creek f o r 1-1/2 m i l e s , where a g r a v e l road t a k e s off to t h e southeast.
The l e f t f o r k of t h e g r a v e l road t u r n s n o r t h e a s t and p a s s e s e a s t of
spring shelter,
1/4 m i l e up t h e r o a d .
the
The a r e a i s used a s a cow p a s t u r e , and i s
a p r i v a t e l n - h o l d i n g o r i s l e a s e d from t h e N a t i o n a l
either
Forest.
Geothermal F e a t u r e s Under t h e s h e l t e r , a s i n g l e s p r i n g f l o w s 15 t o 20 gpm c o l d CO2 c h a r g e d w a t e r from an i r o n - s t a i n e d c o n c r e t e c i s t e r n .
During a s u r v e y and s a m p l i n g t r i p i n J u n e 1979,
t h e w a t e r had a t e m p e r a t u r e of 9 . 5 ° C , 2 , 7 0 0 umhos/cm c o n d u c t i v i t y ,
and a pH of
6.0.
R e s u l t s of c h e m i c a l a n a l y s e s a r e p r e s e n t e d i n t a b l e 4 . 2 ( s e e GEA-1). The s p r i n g w a t e r h a s a h i g h a l k a l i n i t y and and shows a s i g n i f i c a n t Br
concentration.
Cl
c o n t e n t , with very l i t t l e
SO4-,
C a t i o n s a r e dominated by Na and Ca, w i t h
a h i g h Ca/Na r a t i o and o n l y a m o d e r a t e K/Na r a t i o .
Both t h e SiO 2 and Mg con-
c e n t r a t i o n s a r e r e l a t i v e l y h i g h , b u t o n l y a t r a c e of Li was d e t e c t e d . The Q u a r t z - S i l i c a g e o t h e r m o m e t e r p r e d i c t s a r e s e r v o i r w h i l e t h e Na-K-Ca g e o t h e r m o m e t e r g i v e s 124°C.
t e m p e r a t u r e of
137°C,
The Mg c o r r e c t i o n to t h e Na-K-Ca t e m -
p e r a t u r e I s dT Mg = 75°C, p r o d u c i n g a p r e d i c t e d r e s e r v o i r
t e m p e r a t u r e of 49°C.
Geology The r e g i o n a l g e o l o g y around Goose Egg Soda S p r i n g h a s been mapped by B e c r a f t ( 1 9 5 0 ) and Swanson ( 1 9 6 4 , 1966, 1 9 7 8 ) .
The T i e t o n b a s i n i s covered by a l a r g e
landslide,
B l o c k s of upper Miocene Yakima B a s a l t
s t i l l a c t i v e i n some a r e a s .
recent are
g l i d i n g n o r t h w e s t from D i v i d e Ridge o v e r c l a y e y t i l l and b e n t o n i t e s of t h e S p e n c e r
C r e e k and W i l d c a t Creek F o r m a t i o n s ( O l i g o c e n e - M i o c e n e )
(Swanson, 1 9 6 4 ) .
It
is
b e l i e v e d t h a t t h e s l i d e h a s changed t h e c o u r s e of t h e T i e t o n R i v e r , which may have once f l o w e d between Goose Egg Mountain and Kloochman Rock, a l o n g what i s now Milk Creek. S e v e r a l a n d e s i t e i n t r u s i v e s p r o t r u d e above t h e l a n d s l i d e d e b r i s , Egg M o u n t a i n , Chimney P e a k s , and Kloochman Rock. of a u g i t e - h y p e r s t h e n e
composition
(Swanson,
i n c l u d i n g Goose
They a r e middle Miocene i n a g e , and
1978).
About 1/2 m i l e due n o r t h of t h e s p r i n g , a P l e i s t o c e n e o l i v i n e b a s a l t h a s been mapped by Swanson.
S e v e r a l o t h e r s a r e found t h r o u g h o u t
n o r t h of t h e T i e t o n R i v e r .
t h e a r e a , i n c l u d i n g two a r e a s
These r o c k s a r e most l i k e l y r e m n a n t s of f l o w s
on t h e Cascade Ridge t o t h e west (Swanson,
1964).
No h e a t f l o w o r t e m p e r a t u r e g r a d i e n t i n f o r m a t i o n i s a v a i l a b l e f o r t h e area.
originating
immediate
The W a s h i n g t o n D i v i s i o n of Geology and E a r t h R e s o u r c e s G e o t h e r m a l A s s e s s m e n t
Project will d r i l l
s e v e r a l h e a t - f l o w h o l e s a l o n g t h e White P a s s highway between
Cascade C r e s t and Yakima V a l l e y d u r i n g f a l l 1 9 8 0 .
the
This w i l l probably include a
s i t e w i t h i n a few m i l e s of Goose Egg Soda S p r i n g , n e a r Goose Egg M o u n t a i n .
Comments: A v e r y o l d r e p o r t by F . G. Plummer, 1900, (USGS 2 1 s t Annual R e p o r t , p t . 5 ) ment i o n s a hot spring In t h i s r e g i o n .
The s p r i n g , whose t e m p e r a t u r e was r e p o r t e d
to be
a b o u t 100°F, was l o c a t e d s o u t h of the T i e t o n R i v e r , i n s e c . 3 4 , T. 14 N . , R. 14 E. F o r e s t Rangers f a m i l i a r with the r e g i o n r e p o r t s p r i n g s in the
t h e y have n e v e r found any t h e r m a l
vicinity.
There a r e s e v e r a l c o l d - w a t e r soda s p r i n g s t h r o u g h o u t t h e s o u t h e a s t and C a s c a d e s , many i n c l o s e p r o x i m i t y t o a r e a s of Q u a t e r n a r y v o l c a n i c s . of t h e s e s p r i n g s y s t e m s w i l l be d i f f i c u l t u n t i l e a c h of them.
Interpretation
f u r t h e r information i s gathered
T h e i r o r i g i n may or may n o t be t i e d t o t h e r m a l s y s t e m s a t d e p t h ,
the s p r i n g s could have a g r e a t e r p o t e n t i a l peratures
central
suggest.
than t h e i r discouraging s u r f a c e
tem-
on and
L e s t e r Hot S p r i n g s King County T. 20 N . , R. 10 E . , S e c . 21 G r e e n w a t e r 1956, 15' USGS Quad.
The s p r i n g s a r e l o c a t e d a l o n g Green R i v e r Road (Road Number 2 1 2 ) a b o u t 25 m i l e s e a s t of Palmer J u n c t i o n , 2 m i l e s west of L e s t e r , and a b o u t 13 m i l e s west of Stampede Pass.
The s p r i n g s f l o w from t h e h i l l s i d e above t h e r i v e r ( n o r t h s i d e ) ,
the road.
just
below
In 1900, t h e Green R i v e r Hot S p r i n g s H o t e l and s a n i t a r i u m were b u i l t
t h e f l a t f i e l d which l i e s between t h e r a i l r o a d t r a c k s and t h e r i v e r bank, the hot s p r i n g s .
opposite
T h i s grew i n t o a p r o m i n e n t r e s o r t , b u t was abandoned and
sometime b e f o r e 1935.
on
destroyed
The l a n d i s p r e s e n t l y p a r t of t h e C i t y of Tacoma W a t e r s h e d .
Geothermal F e a t u r e s A s u r v e y and s a m p l i n g t r i p t o L e s t e r Hot S p r i n g s was c o n d u c t e d i n August 1979. R e s u l t s of a n a l y s e s a r e p r e s e n t e d i n t a b l e 4 . 2 .
The main s p r i n g
(LSA) f l o w s a t a b o u t
20 gpm, 4 8 . 4 ° C , from a cave which r u n s back 3 t o 4 m e t e r s i n t o t h e h i l l s i d e .
The
c a v e is a b o u t 1-1/2 m e t e r s h i g h and c o n t a i n s w a t e r a b o u t 3 / 4 m e t e r s d e e p , dammed by a p i l e of r o c k s and a s h e e t of p l a s t i c j u s t beyond t h e mouth of t h e c a v e .
The w a t e r
f l o w s from a h o l e r o u g h l y 8 cm i n d i a m e t e r n e a r t h e back c o r n e r of t h e c a v e ' s forming a small w a t e r f a l l .
The roof of t h e cave is c o v e r e d by w h i t e
s a l t s and s e v e r a l 2 t o 5 cm s t a l a c t i t e s .
roof,
crystalline
The w a t e r was v e r y c l e a r , w i t h a c o n d u c -
t i v i t y of 520 umhos/cm and pH of 7 . 6 ( s e e a n a l y s i s f o r sample LSA-1). About 6 m e t e r s a l o n g t h e t r a i l i m m e d i a t e l y west of t h e c a v e , a s m a l l e r (LSB) f l o w s a t a b o u t 4 t o 5 gpm.
spring
I t s t e m p e r a t u r e was measured a t 4 4 . 5 ° C i n August
1979. S p r i n g LSC i s l o c a t e d and s l i g h t l y d o w n s l o p e .
I m m e d i a t e l y e a s t of t h e c a v e , a b o u t 3 m e t e r s o f f
the
A moderate s i z e d o r i f i c e with s e v e r a l smaller seeps
a f l o w of a b o u t 5 t o 10 gpm of 4 8 . 4 ° C w a t e r . t h e r i v e r , a b o u t 10 v e r t i c a l m e t e r s
below.
trail
produce
The w a t e r f l o w s d i r e c t l y downslope
to
LSD e n c o m p a s s e s many s m a l l a r e a s of s e e p s w i t h t e m p e r a t u r e s r a n g i n g up t o 45°C w i t h a combined f l o w of a b o u t 5 gpm.
The a r e a i s l o c a t e d a t a b o u t t h e same l e v e l on
t h e h i l l s i d e a s t h e c a v e , and e x t e n d s f o r a b o u t 6 m e t e r s e a s t of t h e
cave.
LSE has s e v e r a l h o t s p r i n g s f l o w i n g d i r e c t l y o u t of t h e b e d r o c k f r a c t u r e s on a s t e e p s l o p e a b o u t 3 m e t e r s above t h e r i v e r .
These s p r i n g s l i e w e s t of t h e main
a r e a , on t h e f a r s i d e of a c r e e k d r a i n a g e , and a r e e a s i l y found by w a l k i n g a l o n g r i v e r a t low w a t e r . highest
The t o t a l f l o w was e s t i m a t e d
t o be a b o u t 10 gpm, w i t h
the
the
t e m p e r a t u r e r e a c h i n g 45°C ( s e e a n a l y s i s f o r L S E - 1 ) .
F o l l o w i n g t h e c r e e k d r a i n a g e u p s l o p e f r o m a r e a E, a n o t h e r s p r i n g i s found a b o u t 2 / 3 of t h e way t o t h e r o a d .
The p a t h from t h e road p a s s e s v e r y c l o s e t o
l o c a t i o n , and game t r a i l s l e a d d i r e c t l y to the s p r i n g .
this
Water f l o w s a t a b o u t 5 gpm
f r o m under a l a r g e b o u l d e r i n t h e d r a i n a g e a t 45°C ( s e e a n a l y s i s f o r L S F - 1 ) . R e s i d e n t s from t h e town of L e s t e r have i n d i c a t e d
t h a t s e v e r a l a r e a s i n t h e meadow
a c r o s s t h e r i v e r from t h e main s p r i n g s ( a t t h e s i t e of t h e o l d r e s o r t ) r e m a i n snow f r e e in t h e w i n t e r .
These a r e a s a r e rumored t o be b u r i e d h o t s p r i n g s .
The most
p r o m i n e n t a r e a i s l o c a t e d on t h e e x t r e m e e a s t end of t h e meadow. L e s t e r Hot S p r i n g s w a t e r s a r e r e l a t i v e l y low in t o t a l d i s s o l v e d s o l i d s d e t e r m i n e d by c o n d u c t i v i t y ) , w i t h
l i n i t y and S O 4 ( - 2 ) . and Mg. Li/Na
Cl-
dominating the a n i o n s ,
(as
and r e l a t i v e l y low a l k a -
The K/Na r a t i o i s f a i r l y low, as a r e t h e c o n c e n t r a t i o n s of Ca
A s i g n i f i c a n t L i c o n c e n t r a t i o n was d e t e c t e d ,
r e s u l t i n g in a r e l a t i v e l y
ratio.
The S i - Q u a r t z and Na-K-Ca g e o t h e r m o m e t e r s p r e d i c t o n l y m o d e r a t e temperatures,
b u t do d e m o n s t r a t e f a i r l y good a g r e e m e n t .
reservoir
high
Geology P . E. Hammond (1963) p r o v i d e s a g e o l o g i c map f o r t h i s r e g i o n i n t h e Cascades.
west-central
The a l l u v i a l - f i l l e d v a l l e y c u t s t h e H u c k l e b e r r y Mountain F o r m a t i o n of
K e e c h e l u s V o l c a n i c Group (Ohanapecosh F o r m a t i o n ) ( O l i g o c e n e ) .
The h o t s p r i n g s
the
are
l o c a t e d on t h e c o n t a c t of a T e r t i a r y i n t r u s i v e which forms t h e m o u n t a i n t o the n o r t h . The m a t e r i a l i s h o r n b l e n d e d a c i t e p o r p h y r y of l a t e Miocene or P l i o c e n e a g e .
About 1/4
m i l e w e s t , on t h e n o r t h s i d e of t h e r i v e r , a s m a l l e r i n t r u s i v e h a s been mapped by Hammond, c o n s i s t i n g of p y r o x e n e - h o r n b l e n d e a n d e s i t e b e l i e v e d to be e a r l y Miocene. The c l o s e s t exposed Q u a t e r n a r y v o l c a n i c s a r e found a b o u t 10 m i l e s s o u t h of the on D a l l e R i d g e . a r e a or the
area,
No h e a t f l o w or measured t e m p e r a t u r e g r a d i e n t s a r e a v a i l a b l e f o r
the
region.
Comments: The good agreement between S i - Q u a r t z and Na-K-Ca g e o t h e r m o m e t e r s s u g g e s t s v a l u e s r e p r e s e n t t h e a c t u a l r e s e r v o i r t e m p e r a t u r e , w i t h h e a t l o s s due t o and minimal mixing w i t h ground w a t e r .
these
conduction
However, i t h a s a l s o been s u g g e s t e d by o t h e r
g e o l o g i s t s working i n t h e a r e a t h a t t h e s p r i n g w a t e r s a r e r e - e q u i l i b r a t i n g w i t h b e d r o c k a n d / o r s u r f i c i a l d e b r i s and o b s e r v e d c h e m i s t r y may not r e p r e s e n t r e s e r v o i r e q u i l i b r i u m c h e m i s t r y (Dan V i c e , B u r l i n g t o n N o r t h e r n , communication,
1979).
personal
actual
the
Longmire M i n e r a l
Springs
P i e r c e County T. 15 N . , R. 8 E . , SEl/4 S e c . 29 Mt. R a i n i e r West, 1 9 7 1 , 7 . 5 ' USGS Quad.
Longmire M i n e r a l S p r i n g s a r e s c a t t e r e d Rainier within the National Park.
t h r o u g h o u t a meadow s o u t h w e s t of Mount
The a r e a i s r e a c h e d by f o l l o w i n g S t a t e Highway 706
f r o m E l b e , 6 m i l e s beyond t h e L o n g m i r e .
The meadow i s n o r t h of t h e r o a d , a c r o s s from
the National Park Headquarters,
s t o r e , and gas s t a t i o n .
a hotel,
Park s e r v i c e
per-
s o n n e l c o n d u c t g u i d e d walks t h r o u g h t h e meadow, w i t h an e m p h a s i s on b i o l o g i c a l a s p e c t s of the
area.
The s p r i n g s were d i s c o v e r e d i n 1883 by James L o n g m i r e . and s e v e r a l b a t h h o u s e s were a p o p u l a r a t t r a c t i o n , v a l u e of t h e m i n e r a l w a t e r s .
By t h e 1 8 9 0 ' s , a h o t e l
owing to t h e p r o c l a i m e d
The P a r k S e r v i c e h a s r e s t o r e d
the area to a n a t u r a l
s t a t e , and v e r y few s i g n s of t h i s d e v e l o p m e n t can be d e t e c t e d Geothermal
medicinal
today.
Features
On a s u r v e y i n g and s a m p l i n g t r i p i n J u l y 1979, t h e numerous t h e r m a l and m i n e r a l s p r i n g s a t Longmire were o b s e r v e d u s i n g H a r r y M. M a j o r s '
" S p r i n g s of L a s s e n and Mt.
R a i n i e r N a t i o n a l Parks" (1964, unpublished) as a g u i d e .
Using a numbering s y s t e m s e t
up i n 1919, an a t t e m p t was made t o l o c a t e each of t h e 50 l i s t e d
springs.
This goal
was soon abandoned b e c a u s e much of t h e marsh has been i n u n d a t e d o v e r t h e l a s t d e c a d e s by i n c r e a s e d b e a v e r a c t i v i t y . ponds.
two
The e n t i r e upper marsh is now c o v e r e d by
Gas b u b b l i n g and i r o n s t a i n i n g c o n t i n u e s in t h e s e a r e a s but w a t e r s a m p l i n g
extremely
is
difficult.
Many of t h e s p r i n g s i n t h e s o u t h e a s t b u b b l e , b u t do n o t seem t o be f l o w i n g .
c o r n e r of t h e meadow a r e s m a l l p o o l s which Some a r e c o m p l e t e l y d r i e d u p , b u t commence to
f l o w a g a i n i n t h e l a t e f a l l , a c c o r d i n g t o park
rangers.
Springs 1, l a , several air
and 2 a r e f i l l e d
in.
The a r e a a r o u n d s p r i n g s 3 t h r o u g h 11 h a s
small bubbling springs with temperatures
t e m p e r a t u r e was 2 7 ° C , on a p a r t l y c l o u d y
ranging from 21.5°C to 25°C.
(The
day).
S p r i n g s 1 3 , 1 4 , and 15 f o r m s m a l l p o o l s w i t h t e m p e r a t u r e s a r o u n d 2 5 . 1 ° C , 6.2,
and c o n d u c t i v i t y
of 6550 u m h o s / c m .
Marsh S p r i n g o r Rim S p r i n g
A s a m p l e was c o l l e c t e d
(see analysis
f o r LMC i n t a b l e
S p r i n g s 16 t h r o u g h 18 had t e m p e r a t u r e s 5070 umhos/cm t o 5400 u m h o s / c m . with a conductivity
S p r i n g 16,
of
t h e meadow.
springs,
Its
4.2).
f o r LMA i n t a b l e
1 1 . 2 ° C w i t h a pH of 5 . 8 and c o n d u c t i v i t y
t o be 5 . 2
(see
of 1 o r 2 gpm.
is
Several
but
fir
of 1 , 9 2 0 u m h o s / c m .
tree.
cabin).
per minute
(see analysis
S p r i n g 4 7 , known a s L i t t l e
t h e v a l u e s were v e r y s i m i l a r
for
at
sample
flowing
I r o n Mike,
information for this
t o t h o s e of I r o n Mike s p r i n g .
flows
spring A partial
f o u n d i n t a b l e 4 . 2 u n d e r LME. s m a l l warm s p r i n g s w i t h m o d e r a t e f l o w s a r e f o u n d a r o u n d
p o o l s which form h o l e s were 2 4 . 1 ° , 2 6 . 7 ° ,
tial
water a few g a l l o n s
T e m p e r a t u r e and c o n d u c t i v i t y
a t u f a p l a t f o r m in the northwest
terrace,
analysis
s p r i n g was f o u n d b e l o w t h e p a t h a c r o s s f r o m t h e c a b i n
f r o m n e a r t h e b a s e of a l a r g e
analysis
other
4.2).
A smaller iron-soda
were l o s t ,
t h e edge
4.3).
The s p r i n g , known a s I r o n M i k e , f l o w s i r o n - s t a i n e d
a rate
22.0°C
a r e s i g n i f i c a n t l y lower than
S p r i n g 46 f l o w s f r o m a s t o n e c i s t e r n n e a r an o l d l o g c a b i n ( h o m e s t e a d
at
of
4.2).
b u b b l e s and f l o w s f r o m a s t o n e b a s i n a t
a t 1 3 . 3 ° C and 600 u m h o s / c m , and t h e pH was m e a s u r e d
LMD i n t a b l e
called
c a l l e d P o s t S p r i n g , was s a m p l e d a t
t e m p e r a t u r e and c o n d u c t i v i t y
f o r LUM i n t a b l e s 4 . 2 and
a t s p r i n g 15,
f r o m 22°C t o 2 6 ° C , w i t h a c o n d u c t i v i t y
of 5 , 4 0 0 umhos/cm ( s e e a n a l y s i s
S p r i n g 1 9 , c a l l e d Soda S p r i n g ,
pH of
in the
28.3°,
c o r n e r of
terrace.
and 2 9 . 2 ° C .
flowed a t 23.1° t o 26.2°C.
analysis
is presented
in table
t h e meadow.
Various
No. 2 6 ,
Sample LMG was c o l l e c t e d 4.2.
Terrace,
They f l o w f r o m a l g a e
temperatures
Ledge S p r i n g ,
the Iron
measured
in
these
filled pools
on t h e e a s t e r n edge of in the a r e a ,
and a
the
par-
Sand S p r i n g ,
t h e s p r i n g which p r e v i o u s l y had been measured to be t h e warmest
L o n g m i r e , r e p o r t e d l y 4° t o 5°C warmer t h a n s p r i n g s i n t h e s o u t h e a s t c o r n e r of m a r s h , was l o c a t e d on t h e n o r t h e a s t latest
trip,
beaver
activity.
s i d e of t h e I r o n T e r r a c e i n t h e 1 9 6 0 ! s .
t h e s p r i n g c o u l d n o t be d i s c e r n e d ,
the On t h i s
p r o b a b l y b e c a u s e of f l o o d i n g due t o
At t r a i l marker No. 1 6 , s p r i n g s 29 and 30 were found a l o n g w i t h s e v e r a l s p r i n g s f l o w i n g 5 t o 8 gpm a t 1 9 . 1 ° C , and b u i l d i n g up a new i r o n - s t a i n e d terrace.
at
newer
tufa
Pronounced b u b b l i n g o c c u r s i n t h e main p o o l n e x t t o t h e b o a r d w a l k .
This
s p r i n g , c a l l e d M e d i c i n e S p r i n g , had a c o n d u c t i v i t y of 6 , 0 0 0 umhos/cm and a pH of
6.6.
An a n a l y s i s of t h e s e w a t e r s i s found i n t a b l e 4 . 2 a s LMF. A n a l y s e s of w a t e r s c o l l e c t e d a t Longmire show l a r g e v a r i a t i o n s between v a r i o u s s p r i n g s in the a r e a . m i x i n g w i t h c o l d e r ground
the
P a r t of t h e v a r i a t i o n can be e x p l a i n e d by t h e d e g r e e of
water.
The f o l l o w i n g t a b l e summarizes some of t h e g e o c h e m i c a l i n f o r m a t i o n on t h e s p r i n g s sampled i n 1979. table
4.2.
A more c o m p l e t e a n a l y s i s of t h e s e w a t e r s
is presented
in
Geology
The s p r i n g s a t Longmire a r e l o c a t e d o n l y 8 m i l e s from t h e c r e s t of s t r a t o v o l c a n o Mount R a i n i e r , and a b o u t 2 m i l e s from t h e b a s e . t h e g e o l o g y of t h e p a r k a r e a i s p r o v i d e d by F i s k e and o t h e r s Longmire Meadow i s a l a r g e a l l u v i a l
flat situated
of t h e g l a c i a t e d v a l l e y of the N i s q u a l l y R i v e r . t h e Ohanapecosh F o r m a t i o n .
the
A detailed
s t u d y of
(1963).
in a s l i g h t l y elevated
The b e d r o c k i s Eocene v o l c a n i c s of
Rampart Ridge i m m e d i a t e l y n o r t h and west of t h e meadow
r e p r e s e n t s a Q u a t e r n a r y h y p e r s t h e n e - a u g i t e a n d e s i t e f l o w from Mount R a i n i e r and o t h e r s ,
portion
(Fiske
1963).
Several intrusives
i n v a d e t h e r o c k s of t h e Ohanapecosh and S t e v e n s
F o r m a t i o n s i n t h i s a r e a of the p a r k . d i a t e l y n o r t h of t h e meadow. s o u t h e a s t of t h e a r e a .
Ridge
Three s i l l s of d i a b a s e and b a s a l t o u t c r o p imme-
S e v e r a l l a r g e r s i l l s a r e found about 1 m i l e e a s t
These s i l l s a r e c o n s i d e r e d t o be p r e - T a t o o s h I n t r u s i v e
O l i g o c e n e t o Miocene i n a g e .
( F i s k e and o t h e r s ,
I n t h e same a r e a n o r t h of t h e s e s i l l s ,
rocks,
1963).
s e v e r a l d i o r i t e and q u a r t z d i o r i t e
s i v e s a s s o c i a t e d w i t h the. T a t o o s h P l u t o n a r e mapped by F i s k e and o t h e r s , r o c k s a r e of Miocene t o P l i o c e n e
to
intru-
1963.
These
age.
The c l o s e s t Q u a t e r n a r y v o l c a n i c c e n t e r s a r e t h e c r a t e r s and p l u g s a t o p Mount Rainier. During t h e summer of 1979, a h e a t f l o w h o l e was d r i l l e d R i v e r , a b o u t 2-1/4 m i l e s s o u t h w e s t of L o n g m i r e .
s o u t h of t h e N i s q u a l l y
The 1 0 0 - m e t e r - d e e p h o l e had a bottom
h o l e t e m p e r a t u r e of o n l y 8 . 5 ° C , but t h e t e m p e r a t u r e change measured over t h e bottom 20 m e t e r s i n d i c a t e d a t e m p e r a t u r e g r a d i e n t of 69°C/km, w e l l above t h e
regional
g r a d i e n t s which r a n g e from 45° t o 55°C/km, b u t t h i s might not be a t r u e gradient.
equilibrium
Comments: The s p r i n g s a t Longmire p r o b a b l y r e p r e s e n t h o t , h i g h s a l i n i t y w a t e r s l e a k i n g from a h y d r o t h e r m a l s y s t e m a s s o c i a t e d w i t h Mount R a i n i e r ' s v o l c a n i c s y s t e m , which m i x i n g w i t h c o l d ground w a t e r n e a r t h e s u r f a c e . quite high. this
The r e l a t i v e l y h i g h c o n c e n t r a t i o n s
are
The r e s e r v o i r t e m p e r a t u r e s might be of c a l c i u m and magnesium c o m p l i c a t e
interpretation. Because Longmire i s ( w i t h i n ) a N a t i o n a l P a r k , any f u r t h e r
h a v e t o be c o n s i d e r e d a s a c a d e m i c s t u d i e s
r a t h e r than d i r e c t
investigations commercial
exploration.
Reference
T a b o r , R. W.; W a i t e , R. B . , J r . ;
F r i z z e l l , V. A . , J r . ;
Swanson, D. A . ;
B y e r l y , G. R . , 1977, P r e l i m i n a r y map of Wenatchee 1 : 1 0 0 , 0 0 0 q u a d r a n g l e , Washington:
U.S. G e o l o g i c a l Survey Open-File Report
77-531.
will
M e d i c i n e Creek M i n e r a l
Spring
K i t t i t a s County T. 21 N . , R. 17 E . , SE1/4SW1/4 S e c . 22 L i b e r t y 1961, 15' USGS Quad. T h i s c o l d m i n e r a l s p r i n g i s r e a c h e d by t a k i n g S t a t e Route 97 f r o m Cle Elum n o r t h t o M i n e r a l S p r i n g s R e s o r t , l o c a t e d a l o n g Swauk C r e e k , a few m i l e s s o u t h of and Swauk P a s s e s .
The s p r i n g i s found a l o n g a s h o r t d i r t p a t h which f o l l o w s Mineral
Creek west from t h e campground. of t h e Wenatchee N a t i o n a l
Geothermal
Blewett
The a r e a I s p a r t of t h e E l l e n s b u r g Ranger D i s t r i c t
Forest.
Features
T h i s s p r i n g h a s a v e r y c o l d , f e e b l e f l o w of m i n e r a l w a t e r , e m i t t i n g a b o u t 1 t o 2 gpm from a packed d i r t bank on t h e n o r t h s i d e of t h e c r e e k .
There i s a s l i g h t
H 2 S o d o r p r e s e n t , and w h i t e f i l a m e n t o u s b a c t e r i a grow a l o n g s i d e t h e s m a l l pool formed by t h e s p r i n g .
A s m a l l c o n c r e t e c i s t e r n was dug o u t from around t h e s p r i n g i n 1979.
D u r i n g a s a m p l i n g t r i p i n September 1979, t h e w a t e r was measured a t 8 . 7 ° C w i t h a c o n d u c t i v i t y of 300 umhos/cm and pH of 7 . 4 .
A p a r t i a l a n a l y s i s of t h e s e w a t e r s
is
f o u n d i n t a b l e 4 . 2 , u n d e r MCA.
Geology The s p r i n g i s l o c a t e d i n an a r e a u n d e r l a i n by t h e Swauk F o r m a t i o n , a lower Eocene c o n t i n e n t a l u n i t c o m p r i s i n g t h i n t o t h i c k l y bedded z e o l i t i c , m i c a c e o u s , l i t h o f e l d s p a t h i c s a n d s t o n e (Tabor and o t h e r , 1 9 7 7 ) . Eocene Teanaway B a s a l t ,
The c l o s e s t v o l c a n i c s a r e t h e lower to m i d d l e
found i n a broad band 3 m i l e s west of t h e s p r i n g .
b a s a l t s a r e c u t by r h y o l i t i c d i k e s of middle t o upper Eocene a g e .
The e n t i r e a r e a
u n d e r l a i n by t h e J u r a s s i c I n g a l l s complex, which i n c l u d e s u l t r a m a f i c s , massive s e r p e n t i n i t e s ,
and s e r p e n t i n i z e d
p e r i d o t i t e , and s i l i c a
sium c a r b o n a t e s d e r i v e d from a l t e r a t i o n of s e r p e n t i n i t e s
The is
foliated
c a r b o n a t e s and magne-
( T a b o r and o t h e r s ,
1977).
Comments:
,
Not enough i n f o r m a t i o n i s a v a i l a b l e t o a p p l y g e o t h e r m o m e t e r s .
Further
chemical
a n a l y s i s i s needed t o b e t t e r u n d e r s t a n d t h i s s y s t e m , b u t t h e v e r y low f l o w , temperatures,
low c o n d u c t i v i t y ( c o n s e q u e n t
cold
low t o t a l d i s s o l v e d s o l i d s ) and t h e
and r e g i o n a l g e o l o g y v i r t u a l l y remove t h i s a r e a f r o m g e o t h e r m a l
local
consideration.
Reference
T a b o r , R. W.; W a i t e , R. B . , J r . ;
F r i z z e l l , V. A . , J r . ;
Swanson, D. A . ; B y e r l y , G. R . ,
1977, P r e l i m i n a r y map of Wenatchee 1 : 1 0 0 , 0 0 0 q u a d r a n g l e , W a s h i n g t o n : G e o l o g i c a l Survey Open-File Report
77-531.
U.S.
Ohanapecosh Hot S p r i n g s Lewis County T . 14 N., R. 10 E . , NWl/4 S e c . 4 Packwood 1962, 1 5 ' USGS Quad. Ohanapecosh Hot S p r i n g s a r e l o c a t e d w i t h i n t h e s o u t h e a s t s e c t i o n of Mount R a i n i e r N a t i o n a l P a r k a l o n g t h e Ohanapecosh R i v e r .
The campground i s l o c a t e d a b o u t 12 m i l e s
n o r t h of Packwood, 4 m i l e s n o r t h of U . S . Route 12 on S t a t e Route 123, and about m i l e s beyond t h e p a r k b o u n d a r y . the 1 9 2 0 ' s .
A s m a l l h e a l t h r e s o r t was o p e r a t i n g i n t h i s a r e a
to a natural s t a t e ,
The N a t i o n a l P a r k S e r v i c e h a s r e s t o r e d
e x c e p t f o r a s e l f - g u i d e d n a t u r e t r a i l which c i r c l e s
the area
the hot
area.
Geothermal F e a t u r e s
,
Ohanapecosh i s a complex s y s t e m of warm t o h o t s p r i n g s , w i t h a t o t a l e s t i m a t e d t o be 100 t o 120 l i t e r s
per m i n u t e .
flow
The s p r i n g s a r e s c a t t e r e d over an
a r e a of a b o u t 40 a c r e s between t h e Ohanapecosh R i v e r on t h e west and a r i d g e to east.
in
By t h e 1 9 4 0 ' s i t had grown t o i n c l u d e a l o d g e , b a t h h o u s e , and 30 c a b i n s ,
b u t t h e r e s o r t c l o s e d down i n 1961.
springs
1.5
the
The v e g e t a t i v e c o v e r t h r o u g h o u t t h e r e g i o n i s v e r y t h i c k and may c o n c e a l
additional
springs.
During two t r i p s i n J u l y and August 1979, t h e f o l l o w i n g i n f o r m a t i o n and w a t e r s a m p l e s were c o l l e c t e d .
By f o l l o w i n g t h e e s t a b l i s h e d n a t u r e t r a i l
w i s e ( o p p o s i t e of t h e recommended r o u t e i n t h e t r a i l
pamphlet),
loop
counterclock-
t h e f i r s t group of
s p r i n g s was found j u s t e a s t of t h e p a t h , p a r t way up a s l o p e , (Area A ) .
Several
s m a l l o r i f i c e s , p r o d u c i n g a t o t a l f l o w of 5 t o 10 gpm of 39.5°C w a t e r , have b u i l t a t e r r a c e of i r o n - s t a i n e d
tufa.
A m o d e r a t e H 2 S o d o r was d e t e c t e d , and t h e w a t e r was
measured to have a c o n d u c t i v i t y of 4 , 4 0 0 umhos/cm. point.
up
Sample OHA was c o l l e c t e d a t
this
I m m e d i a t e l y n o r t h a l o n g t h e p a t h , a second g r o u p of s p r i n g s was f l o w i n g w i t h a t o t a l p r o d u c t i o n of a b o u t 566 gpm w i t h an a v e r a g e c o n d u c t i v i t y of 4 , 5 0 0 umhos/cm, (area B). across,
W i t h i n t h e p o o l formed by t h e s p r i n g s , m e a s u r i n g r o u g h l y 2 t o 3 m e t e r s
t h r e e s e p a r a t e s p r i n g s were b u b b l i n g away, a b o u t 3 / 4 m e t e r s a p a r t ,
t e m p e r a t u r e s of 4 5 . 6 ° and 4 5 . 2 ° C ( f r o m w e s t to e a s t ) . f r o m above t h e warmest
with
Sample OHB was c o l l e c t e d
spring.
Next t o a r e a B, t o t h e n o r t h , a p o o l w i t h a d i a m e t e r of about 1 m e t e r was f i l l e d w i t h a l g a e and s u r r o u n d e d by t r e e r o o t s ( a r e a C ) . f l o w of 3 gpm was d r a i n i n g t h e p o o l .
No b u b b l i n g was o b s e r v e d but a
Sample OHC was c o l l e c t e d d i r e c t l y from t h e
p o o l , where a t e m p e r a t u r e of 4 3 . 6 ° C was m e a s u r e d . About 8 m e t e r s f a r t h e r n o r t h , a t o t a l f l o w of 15 t o 20 gpm.
t h e main s p r i n g s form a s e r i e s of p o o l s ,
producing
B u b b l i n g o c c u r r e d a t s e v e r a l p o i n t s a l o n g t h e sandy
b o t t o m of t h e p o o l , and a m o d e r a t e l y s t r o n g H 2 S o d o r was d e t e c t e d .
The maximum
t e m p e r a t u r e r e c o r d e d was 5 0 . 1 ° C , b u t a r e l i a b l e c o n d u c t i v i t y c o u l d n o t be measured b e c a u s e of t h e t e m p e r a t u r e l i m i t a t i o n s
of t h e p o r t a b l e c o n d u c t i v i t y m e t e r . .
Area E was found s e v e r a l m e t e r s f a r t h e r up t h e t r a i l
j u s t e a s t of t h e p a t h .
Warm
i r o n - s t a i n e d w a t e r was s l o w l y s e e p i n g o u t from two s m a l l s e e p s i n a s h a l l o w e r o s i o n c h a n n e l , d r a i n i n g i n t o a s m a l l c r e e k formed by a n e a r b y c o l d s p r i n g . s e e p s had t e m p e r a t u r e s of 3 6 . 2 ° C and 3 7 . 1 ° C . b u t had been r e d u c e d to a t r i c k l e
The f l o w in J u l y 1979 was a b o u t 1/2 gpm,
by A u g u s t .
Area F i s west of t h e main s p r i n g a r e a , where t h e t r a i l t h e camping a r e a .
The two warm
l o o p s around back t o w a r d s
A l a r g e t u f a t e r r a c e h a s been b u i l t u p , o v e r which f l o w s h o t
f r o m t h e main s p r i n g s of a r e a s A, B, C and D. d i s t a n c e of a b o u t 4 t o 5 m e t e r s ,
water
The c a s c a d i n g w a t e r s f a l l a v e r t i c a l
t h e n s p r e a d o u t i n t o a marshy a r e a b e l o w .
addition,
s e v e r a l s m a l l s p r i n g s f l o w d i r e c t l y out of t h e t u f a t e r r a c e ,
measuring
44.3°C.
In
t h e warmest
Near t h e t o p of t h e l a r g e t u f a t e r r a c e , 4 7 . 8 ° C w a t e r was f l o w i n g o u t of a c r u s t e d o v e r p i p e a t a b o u t 5 t o 8 gpm.
Sample OHG was c o l l e c t e d
d i r e c t l y from t h e
pipe.
On t h e f a r n o r t h w e s t c o r n e r of t h e campground, a b o u t 1/4 km from t h e o t h e r a s m a l l warm s p r i n g was f o u n d , which measured a b o u t 1/2 m e t e r i n d i a m e t e r .
springs,
The pool
had a maximum t e m p e r a t u r e of 3 0 . 6 ° C n e a r i t s n o r t h e r n s i d e , where b u b b l e s were p e r i o d i c a l l y produced.
Sample OHH was c o l l e c t e d from t h e p o o l .
surround the a r e a , suggesting t h a t spring a c t i v i t y
S e v e r a l old t u f a s
i n t h e a r e a was a t one time much
greater. The t a b l e below summarizes some of t h e d a t a c o l l e c t e d f o r t h e Ohanapecosh Hot S p r i n g s and t h e r e s u l t s of g e o t h e r m o m e t e r s
applied.
B e s i d e s t h e r e l a t i v e l y h i g h s i l i c a and p o t a s s i u m c o n t e n t , in lithium,
producing a high lithium/sodium
t h e w a t e r s were
rich
ratio.
Geology A d e t a i l e d s t u d y of t h e g e o l o g y of Mount R a i n i e r N a t i o n a l P a r k i s p r o v i d e d by F i s k e and o t h e r s ( 1 9 6 3 ) . Ohanapecosh f o r m a t i o n .
The s p r i n g s f l o w from O l i g o c e n e - E o c e n e v o l c a n i c s of S e v e r a l d i o r i t e s i l l s and d i k e s of t h e
the
Miocene-Pliocene
T a t o o s h p l u t o n o u t c r o p w i t h i n a few m i l e s s u r r o u n d i n g t h e s p r i n g s .
The Q u a t e r n a r y
v e n t s a t t h e c r e s t of Mount R a i n i e r a r e a b o u t 12 m i l e s away, but a n d e s i t e f l o w s from
t h e s e v e n t s e x t e n d t o w i t h i n 5 m i l e s of t h e a r e a .
No s i g n i f i c a n t s t r u c t u r a l
features
have been mapped i n t h e immediate v i c i n i t y of t h e s p r i n g s , b u t t h i s may be due t o heavy v e g e t a t i v e
the
cover.
A h e a t f l o w h o l e was d r i l l e d i n 1979 w i t h i n t h e Ohanapecosh R i v e r v a l l e y , s o u t h of t h e p a r k boundary and a b o u t 1 . 5 m i l e s s o u t h - s o u t h w e s t from t h e
just
springs.
The h o l e , completed t o a d e p t h of 115 m e t e r s , had a bottom h o l e t e m p e r a t u r e of and a g r a d i e n t of 4 6 . 5 ° C / k m .
T h i s i s t h o u g h t to r e p r e s e n t t h e r e g i o n a l
g r a d i e n t and t h e r e f o r e showed no anomalous
11.1°C
temperature
conditions.
Comments : Because of i t s p r o x i m i t y t o Mount R a i n i e r , h i g h l i t h i u m c o n t e n t , and h i g h geothermometer r e s u l t s ,
i t i s s u s p e c t e d t h a t Ohanapecosh Hot S p r i n g s a r e
r e l a t e d t o t h e t h e r m a l s y s t e m of t h e s t r a t o v o l c a n o .
The wide range i n
directly
temperatures
and s a l i n i t i e s o b s e r v e d from s p r i n g t o s p r i n g w i t h i n t h e s p r i n g s y s t e m s u g g e s t s mixing with cold water i s t a k i n g p l a c e , probably very close to the s u r f a c e .
that
The
v a l u e s do not f a l l a l o n g a s i m p l e mixing l i n e when t e m p e r a t u r e i s p l o t t e d a g a i n s t v a r i o u s chemical s p e c i e s ,
s u g g e s t i n g t h a t t h e r e may be s i g n i f i c a n t c o n d u c t i v e
l o s s a n d / o r t h e mixing i s v e r y complex.
heat
the
O r r Creek Warm S p r i n g s Skamania County T . 10 N . , R. 10 E . , NEl/4 S e c . 19 Green Mountain 1970, 71/2' USGS Quad. About 11 m i l e s n o r t h w e s t of t h e summit of Mount Adams, s m a l l warm s p r i n g s f l o w down t o Orr Creek from a c r e e k d r a i n a g e i n a l o g g i n g c l e a r c u t . l o c a t e d a b o u t 20 m i l e s s o u t h e a s t of R a n d l e , a b o u t 28 m i l e s by r o a d .
This area
is
I t i s found by
f o l l o w i n g F o r e s t Road 123 s o u t h from Randle to Road 101, which c r o s s e s t h e Cispus R i v e r and Orr C r e e k .
About 2 . 5 m i l e s e a s t and n o r t h on t h i s r o a d , Road 101 t u r n s
t o t h e s o u t h e a s t and c r o s s e s Orr Creek a g a i n . c r e e k , a t i m b e r s a l e a c c e s s road t a k e s o f f
S e v e r a l hundred y a r d s beyond
to t h e s o u t h w e s t .
T h i s road i s
f o r a b o u t 1 / 3 m i l e t h r o u g h a f i r s t c u t (which h a s been growing back f o r y e a r s ) and i n t o a second newer c l e a r c u t .
a c r o s s f i e l d cut to the
Geothermal
the followed
several
The s p r i n g i s found on t h e f a r west
of t h e c u t , a b o u t 1/2 of t h e way down t h e c l e a r e d s l o p e .
off
S e v e r a l game t r a i l s
side
lead
spring.
Features
The main s p r i n g f l o w s from u n d e r some l a r g e o v e r t u r n e d d e p r e s s i o n which forms a d r a i n a g e f o r t h e upper s l o p e . disturbed during logging o p e r a t i o n s .
stumps i n a s h a l l o w
The a r e a was o b v i o u s l y
During an August 1979 s a m p l i n g t r i p ,
the
spring
was p r o d u c i n g 21.8°C w a t e r a t 20 t o 30 gpm w i t h a c o n d u c t i v i t y of 175 umhos/cm ( s e e OCA-l i n t a b l e 4 . 2 f o r a c o m p l e t e a n a l y s i s of t h e w a t e r ) . was d e t e c t e d , and w h i t e f i l a m e n t o u s b a c t e r i a o b s e r v e d growing n e a r t h e
A s l i g h t H2S odor
(probably Sphaerotilus s p . ) ,
was
orifice.
T r e e s r e p l a n t e d i n t h e c l e a r c u t seem t o be growing much f a s t e r around t h e and i t s d r a i n a g e , i n a band r o u g h l y 7 m e t e r s w i d e . tial
spring
The f o r e s t e r who p r o v i d e d t h e
i n f o r m a t i o n on t h e r m a l w a t e r s i n t h e a r e a had c o n f i r m e d t h a t
warm y e a r r o u n d , p r o d u c i n g s n o w - f r e e ground d u r i n g t h e
winter.
the spring
ini-
remains
A q u i c k s u r v e y of t h e i m m e d i a t e a r e a showed a number of s m a l l warm s e e p s t h r o u g h o u t t h e a r e a , i n c l u d i n g a c o u p l e i n t h e woods i m m e d i a t e l y west of t h e C o n s i d e r i n g t h e r e l a t i v e l y warm t e m p e r a t u r e of t h i s s p r i n g ,
the t o t a l
area.
dissolved
s o l i d s , a s e s t i m a t e d by c o n d u c t i v i t y m e a s u r e m e n t s ,
i s q u i t e low.
low, w h i l e c a r b o n a t e and
The K/Na r a t i o i s h i g h , w h i l e Ca
Cl
dominate the a n i o n s .
and Mg c o n c e n t r a t i o n s a r e v e r y low.
Li c o u l d n o t be
The low c o n c e n t r a t i o n of SiO 2 r e s u l t s f o r the r e s e r v o i r , sharp contrast
i n a r e l a t i v e l y low t e m p e r a t u r e
mined by t h e Na-K-Ca
reservoir
extremely
detected.
a s d e t e r m i n e d by t h e S i - Q u a r t z g e o t h e r m o m e t e r
to the very high p r e d i c t e d
Sulfate is
(78° C ) .
predicted This i s
t e m p e r a t u r e of 231° C a s
in
deter-
geothermometer.
Geology The Orr Creek Warm S p r i n g s a r e a i s i n c l u d e d i n p r e l i m i n a r y g e o l o g i c maps of s o u t h Cascades by P . E. Hammond ( 1 9 7 3 , 1 9 7 5 ) .
The s p r i n g s f l o w from t h e lower
of Green M o u n t a i n , which i s mapped a s p a r t of t h e Eocene Ohanapecosh Green Mountain may be r e l a t e d by D. S. H a r l e ( 1 9 7 4 ) .
the slopes
Formation.
to t h e E a s t Canyon Ridge U n i t which h a s been d e s c r i b e d
The c l o s e s t Q u a t e r n a r y v o l c a n i c s a r e Mount Adams l a v a f l o w s
which c o v e r t h e v a l l e y f l o o r s of t h e C i s p u s R i v e r and O r r C r e e k .
About 5 t o 6 m i l e s
west of the s p r i n g s , Q u a t e r n a r y v o l c a n i c c e n t e r s a r e mapped on Spud H i l l and a t
the
j u n c t i o n of E a s t Canyon Creek w i t h t h e C i s p u s R i v e r .
the
springs,
s e v e r a l v e r y young v o l c a n i c c e n t e r s a r e mapped, i n c l u d i n g Two Lakes Volcano
( 3 0 , 0 0 0 y e a r s ) , Walupt Lake Volcano ( 1 5 , 0 0 0 y e a r s ) , miles east,
t h e P o t a t o H i l l Volcano ( 1 0 , 0 0 0 y e a r s
No h e a t f l o w or t e m p e r a t u r e g r a d i e n t region.
From 4 t o 6 m i l e s e a s t of
and t h e c l o s e s t c e n t e r , a b o u t 4 old).
i n f o r m a t i o n i s a v a i l a b l e f o r t h i s a r e a or
Comments: The p r o x i m i t y of t h i s s p r i n g s y s t e m to t h e l a t e Q u a t e r n a r y v o l c a n i c c e n t e r s
in
t h e r e g i o n s u g g e s t s t h e t h e r m a l w a t e r s may be d e r i v i n g t h e i r h e a t from magmatic sources.
The low t o t a l s a l t s and l a r g e d i s c r e p a n c y between t h e
geothermometers
s u g g e s t a h i g h d e g r e e of mixing w i t h ground w a t e r s i s o c c u r r i n g or t h e a q u i f e r b e i n g h e a t e d by c o n d u c t i v e h e a t t r a n s f e r . Li v a l u e s .
T h i s would e x p l a i n t h e low SiO 2 and
A more d e t a i l e d s u r v e y of t h e a r e a i s
recommended.
is
S o l Duc Hot S p r i n g s C l a l l a m County T . 29 N . , R 9 W., NWl/4 S e c . 32 B o g a c h i e l Peak 1950, 7-/2' USGS Quad. T h i s s p r i n g i s w i t h i n t h e Olympic N a t i o n a l P a r k , and i s l o c a t e d s o u t h w e s t of P o r t A n g e l e s on t h e n o r t h e r n m a r g i n of t h e Olympic M o u n t a i n s , a l o n g t h e Sol D u c R i v e r .
A l a r g e r e s o r t was b u i l t in 1912, c o n s i s t i n g of a 4 - s t o r y h o t e l , 3 - s t o r y 40 f e e t by 100 f e e t s a n a t o r i u m , 40 f e e t by 200 f e e t b a t h h o u s e , gymnasium, and smaller buildings.
A f i r e destroyed
1 9 2 0 ' s and 1 9 3 0 ' s , a l o d g e ,
the e n t i r e
resort
i n 1916.
several
During t h e
late
two p o o l s , and a b o u t 40 c a b i n s were c o n s t r u c t e d .
p r e s e n t - d a y f a c i l i t i e s i n c l u d e t h e newer m o t e l , h o t e l ,
p o o l s , s e v e r a l of t h e
and f a c i l i t i e s f o r camping and r e c r e a t i o n a l v e h i c l e p a r k i n g .
The cabins,
P l a n s to upgrade and
m o d e r n i z e t h e f a c i l i t i e s a r e now b e i n g c o n s i d e r e d by t h e N a t i o n a l P a r k
Service.
B l o o m q u i s t ( 1 9 7 9 ) p r o v i d e s a b a s e l i n e s t u d y of t h i s r e s o r t and i t s r e s o u r c e from t h e s t a n d p o i n t of g e o t h e r m a l d e v e l o p m e n t . geochemical, geological,
The s t u d y i n c l u d e s
land
classification;
and g e o p h y s i c a l d a t a s u m m a r i e s ; and d e t a i l s on development
status.
Geothermal
Features
The m a j o r s p r i n g s a t S o l Duc have been c a s e d o f f cisterns.
into concrete
Three c i s t e r n s a r e l o c a t e d a l o n g the west s i d e of t h e hot swimming pool
and a f o u r t h c o l l e c t s w a t e r s under t h e l o d g e b a s e m e n t . reports),
collecting
the southernmost
number 2 , t h e n o r t h e r n m o s t
By c o n v e n t i o n ( f r o m e a r l i e r
c i s t e r n i s i d e n t i f i e d a s number 1, t h e c e n t e r c i s t e r n i s number 3 , and t h e basement c i s t e r n i s number 4 .
C h e m i c a l a n a l y s e s d e t e r m i n e d f o r w a t e r s c o l l e c t e d from t h e s e c i s t e r n s are reported in table
in April,
1979,
4.2.
C i s t e r n 1 c o n s i s t s of a p i t e x c a v a t e d t o t h e e a s t w a r d s l o p i n g s u r f a c e of bedrock t h a t u n d e r l i e s
is
the a l l u v i a l g r a v e l
(K. L. W a l t e r s ,
1967, u n p u b l i s h e d
the report).
An e s t i m a t e d 20 gpm of 48°C w a t e r s e n t e r s from t h e s o u t h e a s t c o r n e r , a b o u t 20 gpm of 41°C e n t e r s from t h e s o u t h e a s t c o r n e r , and a b o u t 5 gpm of 31.5°C w a t e r f r o m a 4 - i n c h c o n c r e t e p i p e n e a r t h e c e n t e r base of t h e s o u t h w a l l .
discharges
An i r o n pipe
c o n n e c t s c i s t e r n 1 and 2 , p r o d u c i n g a f l o w of 2 gpm i n t o c i s t e r n 1 ( W a l t e r s , unpublished r e p o r t ) .
During an A p r i l s a m p l i n g t r i p ,
t h e c i s t e r n s were not
1969,
being
pumped, b u t were f l o w i n g a r t e s i a n and emptying i n t o a s t o r m d r a i n n o r t h of t h e
area.
The combined w a t e r s w i t h i n c i s t e r n 1 had a t e m p e r a t u r e of 40°C and c o n d u c t i v i t y of 345 umhos/cm ( s e e a n a l y s e s f o r sample SDC-1).
No o v e r f l o w d i s c h a r g e e x i s t s
for
t h i s c i s t e r n when n o t b e i n g pumped, s u g g e s t i n g h y d r o l o g i c e q u i l i b r i u m between s p r i n g i n f l o w and l e a k a g e t h r o u g h t h e w a l l s and a l o n g t h e bottom c o n t a c t of t h e C i s t e r n 2 i s s i m i l a r i n c o n s t r u c t i o n t o number 1 . e n t e r s t h e c i s t e r n from t h e n o r t h e a s t
cistern.
About 15 gpm of 48°C w a t e r
c o r n e r , and an a d d i t i o n a l 15 gpm of 48°C w a t e r
f l o w s from t h e r o c k n e a r t h e c e n t e r of t h e f l o o r ( W a l t e r s , 1969, u n p u b l i s h e d T h i s c i s t e r n i s f r e e of a pump, b u t h a s an o v e r f l o w p o r t a t t h e h i g h w a t e r which l e a d s t o c i s t e r n 3 .
report). line
I n A p r i l 1979 t h e s e w a t e r s were t h e c o l d e s t , a t 34°C,
but
had t h e h i g h e s t c o n d u c t i v i t y a t 355 umhos/cm ( s e e a n a l y s e s f o r sample SDA-1). C i s t e r n 3 , s i m i l a r t o number 2 , can be pumped a t a s u s t a i n e d pumping r a t e of 40 gpm a t 50°C w i t h o u t a drawdown.
The t e m p e r a t u r e i n A p r i l 1979 was a l s o 50°C,
with
a c o n d u c t i v i t y of 342 umhos/cm ( s e e a n a l y s e s f o r SDB-1). C i s t e r n 4 i s l o c a t e d below t h e basement f l o o r of t e m p e r a t u r e between 42°C and 44°C a r e r e p o r t e d pipe in the south w a l l .
the l o d g e .
Waters r a n g i n g
to f l o w i n t o t h i s c i s t e r n from a
T h i s may r e p r e s e n t a c o m b i n a t i o n of w a t e r s s e e p i n g from
u n d e r t h e p o o l and f r o m t h e o t h e r c i s t e r n s
(Walters,
1967, u n p u b l i s h e d r e p o r t ) .
s u b m e r s i b l e pump p r o d u c e s 20 gpm f o r use i n the pool and s u p p l i e s h o t w a t e r f o r l o d g e and i t s
tubs.
in
A the
In A p r i l 1979, t h e t e m p e r a t u r e was 46°C, w i t h a c o n d u c t i v i t y of
305 umhos/cm ( s e e a n a l y s i s
f o r SDD-1).
A f l u o r e s c e n t dye e x p e r i m e n t by N. P . Dion ( u n p u b l i s h e d
r e p o r t , USGS, 1978)
s u g g e s t s c i s t e r n s 2 and 3 a r e h y d r a u l i c a l l y c o n n e c t e d and s e e p i n t o c i s t e r n cistern
1 s e e p s i n t o c i s t e r n 4 , and c i s t e r n s 2 and 4 f l o w i n t o t h e s t o r m
T o t a l d i s c h a r g e from t h e s y s t e m i s e s t i m a t e d
drain.
t o be 150 t o 170 gpm.
F u r t h e r h y d r o l o g i c i n f o r m a t i o n i s r e p o r t e d by W a l t e r s and D i o n , hydrostatic
1,
l e v e l c o m p a r i s o n s and r e c o m m e n d a t i o n s f o r i n c r e a s i n g
including
t e m p e r a t u r e and
flow. D u r i n g t h e A p r i l 1979 s a m p l i n g t r i p , R i v e r i n t h e v i c i n i t y of t h e r e s o r t
a s u r v e y of t h e banks a l o n g t h e S o l Duc
l o c a t e d s e v e r a l a r e a s where t h e r m a l w a t e r s were
s e e p i n g o u t of t h e a l l u v i u m and i n t o t h e r i v e r .
They r a n g e i n t e m p e r a t u r e from 11°C
t o 45°C, w i t h f l o w s up t o 3 o r 4 gpm b u t t y p i c a l l y l e s s t h a n 1 gpm. d e s c r i p t i o n of t h e s e s e e p s i n c l u d i n g t h e i r
l o c a t i o n , t e m p e r a t u r e s , and
was made, and w i l l be p r e s e n t e d i n o t h e r r e p o r t s . d e t a i l e d chemical a n a l y s i s ,
conductivity
Waters were not c o l l e c t e d
for
t o w a t e r s c o l l e c t e d from t h e c i s t e r n s
are
however.
R e s u l t s of g e o t h e r m o m e t e r s a p p l i e d h i g h e r than observed t e m p e r a t u r e s ,
b u t r e p r e s e n t a r e l a t i v e l y low t e m p e r a t u r e
v o i r with r e s p e c t to other geothermal
SDC-1 C i s t e r n 1
A detailed
Measured T 40° C
reser-
systems.
SiO2-Quartz T 114
Na-K-Ca T 98
SDA-1 C i s t e r n 2
34° C
114
93
SDB-1 C i s t e r n 4
50° C
114
99
SDD-1 C i s t e r n 4
46° C
109
97
The w a t e r s have r e l a t i v e l y h i g h a l k a l i n i t y , m o d e r a t e s u l f a t e , and low c h l o r i d e , w i t h a r e l a t i v e l y low t o t a l s a l i n i t y ,
considering i t s
temperature.
The K/Na r a t i o
low, a s i s t h e L i c o n c e n t r a t i o n .
Campbell and o t h e r s ( 1 9 7 0 ) c l a s s i f y t h e w a t e r s
t h e r m a l m e t e o r i c u n d e r g o i n g deep
circulation.
as
is
Geology R e g i o n a l g e o l o g y of t h e a r e a is b e s t p r e s e n t e d by Tabor and Cady ( 1 9 7 8 ) . Duc R i v e r v a l l e y i s f i l l e d w i t h Olympic a l p i n e g l a c i a l d e b r i s . v a l l e y f i l l at the r e s o r t
The Sol
The bedrock below t h e
i s p r o j e c t e d t o be a c o n t a c t between two d i f f e r e n t
sandstone
u n i t s of t h e Western Olympic L i t h i c a s s e m b l a g e , upper Eocene to O l i g o c e n e . s a n d s t o n e s a r e t h i c k bedded t o t h e s o u t h w e s t , but more b r e c c i a t e d and conglomeratic to the n o r t h e a s t .
The
granular
The c l o s e s t v o l c a n i c s a r e Eocene b a s a l t s of
C r e s c e n t F o r m a t i o n , found 4 t o 10 m i l e s t o t h e
the
north.
Comments: Thermal w a t e r s a r e e a s i l y s p o t t e d i n t h e v i c i n i t y . the w a t e r , white filamentous b a c t e r i a
(probably
Because of t h e H 2 S c o n t e n t of
S p h a e r o t i l u s ) p r o l i f e r a t e s where t h e
t e m p e r a t u r e i s 13° t o 4 0 ° C . Because of t h e l a c k of P l e i s t o c e n e t o Recent v o l c a n i c s i n t h e a r e a ,
the
thermal
w a t e r s a r e most l i k e l y t h e r e s u l t of deep c i r c u l a t i o n of ground w a t e r s which a r e conv e c t i n g up a l o n g a m a j o r s t r u c t u r a l f e a t u r e , such a s a f a u l t p l a n e .
This i s
further
s u g g e s t e d by t h e low Cl and L i c o n c e n t r a t i o n s , low K/Na r a t i o , and r e l a t i v e l y low reservoir
t e m p e r a t u r e s s u g g e s t e d by g e o t h e r m o m e t e r s .
No i n f o r m a t i o n i s a v a i l a b l e on the t h e r m a l g r a d i e n t calculations dient
of d e p t h of c i r c u l a t i o n
purely speculative.
i n t h i s a r e a , making However, i f
an a v e r a g e
of 20° t o 30°/km I s u s e d , 2-1/2 t o 3 km deep c i r c u l a t i o n c o u l d p r o d u c e
p e r a t u r e s p r e d i c t e d by the The c h e m i s t r i e s ,
gra-
tem-
geothermometers.
surface temperatures,
and p r e d i c t e d r e s e r v o i r
v e r y s i m i l a r f o r Sol Duc and Olympic Hot S p r i n g s . o r i g i n , or g e n e t i c c o n d i t i o n s of
formation.
temperatures
are
These w a t e r s may s h a r e a common
S u l p h u r C r e e k Hot S p r i n g s Snohomish County T . 32 N . , R. 13 E . , NEl/4, S e c . 19 Downey Mtn. 1963, 7-1/2' USGS Quad. These s p r i n g s a r e l o c a t e d w i t h i n t h e G l a c i e r Peak W i l d e r n e s s A r e a . R i v e r Road i s f o l l o w e d n o r t h from D a r r i n g t o n o r s o u t h f r o m R o c k p o r t t o
The Sauk Forest
Road 3 4 5 , which i s f o l l o w e d e a s t a l o n g t h e S u i a t t l e R i v e r f o r 20 t o 25 m i l e s S u l p h u r C r e e k Campground.
A dirt
trail
l e a v e s t h e a r e a from t h e n o r t h e a s t
of t h e r o a d , r u n n i n g a l o n g t h e n o r t h s i d e of S u l p h u r C r e e k . trail,
a s i g n marks t h e W i l d e r n e s s b o u n d a r y .
b r i d g e c r o s s e s t h e c r e e k and j o i n s a d i r t creek.
side
About 1 . 5 km up t h e
A s h o r t d i s t a n c e beyond t h i s ,
a log
p a t h which c o n t i n u e s n o r t h e a s t a l o n g
The h o t s p r i n g s a r e found a b o u t 100 m e t e r s up t h e
Geothermal
to
the
trail.
Features
S e v e r a l warm and h o t s p r i n g s a r e f o u n d a l o n g a d r a i n a g e which s t e e p l y s l o p e s down t o the creek from the s o u t h . springs.
The t e m p e r a t u r e was a b o u t 37°C d u r i n g a s a m p l i n g t r i p i n A u g u s t ,
The h o t w a t e r was f l o w i n g t h r o u g h a s i n t e r - l i n e d
the creek bank. channel.
the
The main s p r i n g f l o w s from a f r a c t u r e i n t h e b e d r o c k exposed j u s t above t h e
bank of t h e c r e e k . 1978.
The a r e a i s h e a v i l y v e g e t a t e d and c o n c e a l s most of
White f i l a m e n t o u s b a c t e r i a
c h a n n e l i n t o a p o o l dug i n t o
formed a l o n g s t r i n g y masses w i t h i n
The s p r i n g s f a r t h e r up the d r a i n a g e were a few d e g r e e s c o o l e r .
p o o l s were f i l l e d w i t h d a r k g r e e n a l g a e , b u t no i n o r g a n i c d e p o s i t s were
Their
presented
small
detected.
The d r a i n a g e s l e a d i n g from t h e s e s p r i n g s c o n t a i n w h i t e f i l a m e n t o u s b a c t e r i a . a n a l y s i s of w a t e r c o l l e c t e d in August 1978 i s
the
An
i n t a b l e 4 . 3 , a s sample SFA.
The s p e c i f i c c o n d u c t i v i t y i s q u i t e low, a t a b o u t 480 umhos/cm, and t h e
relative
c o n c e n t r a t i o n of M, K, L i , and B a r e a l s o v e r y low.
When g e o t h e r m o m e t e r s
applied,
t e m p e r a t u r e s of 137°C by t h e
t h e s p r i n g s a r e p r e d i c t e d t o have r e s e r v o i r
Q u a r t z method and 131°C by t h e Na-K-Ca m e t h o d .
are Si-
Geology Very l i t t l e Creek.
d e t a i l e d g e o l o g i c mapping i s a v a i l a b l e
I n a l a r g e a r e a l s t u d y by Grant ( 1 9 6 6 ) ,
p r e - J u r a s s i c Cascade m e t a m o r p h i c s .
f o r t h e a r e a around S u l p h u r
t h e b e d r o c k was m a p p e d a s
The s p r i n g i s l o c a t e d a l o n g an i n f e r r e d f a u l t
which r u n s t h r o u g h t h e c r e e k N. 55° E. and c u t s t h e Green Mountain U n i t , a b i o t i t e biote hornblende s c h i s t . northwest. gneissose,
The f a u l t i s t h o u g h t to be a h i g h a n g l e , d i p p i n g 25° t o
the
S u l p h u r M o u n t a i n , s o u t h and e a s t of t h e s p r i n g s , was mapped a s a pyroxene-bearing
trondhjemite.
No h e a t f l o w or t e m p e r a t u r e g r a d i e n t i n f o r m a t i o n i s a v a i l a b l e f o r t h e a r e a or the
region.
Comments: S u l p h u r Creek Hot S p r i n g s may be t h e r e s u l t of deep c i r c u l a t i o n t h r o u g h a f a u l t or f r a c t u r e s y s t e m .
D e s p i t e i t s c l o s e p r o x i m i t y t o t h e Q u a t e r n a r y Cascade s t r a t o -
v o l c a n o G l a c i e r P e a k , t h e c h e m i s t r y of w a t e r s from t h e s p r i n g s do not s u g g e s t a v o l c a n i c o r i g i n ( r e l a t i v e l y low Li and B ) .
I t i s l i k e l y , however, t h a t the
w a t e r s have been d i l u t e d by s h a l l o w ground w a t e r .
spring
Some d e g r e e of mixing can be s e e n
t a k i n g p l a c e a t t h e s u r f a c e , c r e a t i n g d i f f e r e n t c o n d i t i o n s from s p r i n g t o s p r i n g . more c o m p l e t e s u r v e y i s recommended, w i t h c o m p l e t e a n a l y s e s f o r each of t h e in the
springs
system.
Reference G r a n t , A. R . , 1966, Bedrock g e o l o g y of t h e Dome Peak a r e a , C h e l a n , S k a g i t , Snohomish C o u n t i e s , n o r t h e r n C a s c a d e s , W a s h i n g t o n : Ph.D.
thesis.
U n i v e r s i t y of
A
and
Washington
Summit Creek Soda S p r i n g Lewis County T . 14 N . , R. 11 E . , NE1/4SW1/4, S e c . 18 White P a s s 1962, 1 5 ' USGS Quad. The a r e a i s r e a c h e d by t a k i n g t h e White P a s s Highway, S t a t e Route 1 2 , t o Road 1400, and f o l l o w i n g t h i s d i r t and g r a v e l road t o Creek Soda S p r i n g s
Geothermal
its
Forest
e a s t e r n t e r m i n u s , a t Summit
Campground.
Features
Along t h e n o r t h e a s t a large iron-stained
s i d e of Summit Creek a c o l d , CO2 c h a r g e d s p r i n g has b u i l t
t u f a t e r r a c e , a b o u t 7 m e t e r s above t h e r i v e r b e d .
up
The main soda
s p r i n g f l o w s f r o m a manmade r o c k and cement c i s t e r n which s t a n d s about 3 / 4 m e t e r s above ground
level.
On a J u l y 1979 s u r v e y and c o l l e c t i n g gpm a t 1 1 . 6 ° C .
trip,
t h e s p r i n g was f l o w i n g a b o u t 40 t o 50
Water s a m p l e s were c o l l e c t e d f r o m t h e c i s t e r n
(SCA) and f r o m a
s m a l l e r s p r i n g which f l o w s from t h e lower n o r t h s i d e of t h e l a r g e t u f a mounts (SCB). T h i s second s p r i n g had a t e m p e r a t u r e of 9 . 7 ° C and a c o n d u c t i v i t y of 2000 umhos/cm. The c h e m i c a l a n a l y s e s a r e p r e s e n t e d i n t a b l e 4 . 2 . reservoir
temperatures are c a l c u l a t e d as
When g e o t h e r m o m e t e r s a r e
follows:
T
T
Si-Quartz
Na-K-Ca
SCA
140
155
SCB
80
155
The Li c o n c e n t r a t i o n
applied,
i s q u i t e h i g h , as i s the r e s u l t i n g Li/Na r a t i o .
The w a t e r
is
c h a r g e d w i t h d i s s o l v e d CO2 which v i g o r o u s l y b u b b l e s out a t t h e s u r f a c e , b u t a l s o h a s a very high
Cl-
content.
SCB w a t e r a p p e a r s t o be d i l u t e d SCA w a t e r .
Geology Summit Creek v a l l e y h a s been c u t i n t o t h e P l i o c e n e Ridge Top a n d e s i t e .
The
P l e i s t o c e n e V a l l e y f l o w b a s a l t , which o r i g i n a t e d from v e n t s n e a r t h e Cascade Divide t o t h e e a s t of C o w l i t z P a s s , c o v e r s t h e v a l l e y f l o o r from t h e c r e s t west of the s p r i n g s .
I n t h e a r e a around t h e s p r i n g s ,
by t h e c r e e k ( E l l i n g s o n ,
1959).
c o v e r e d by Recent a l l u v i u m . Miocene J u g Lake d i o r i t e
to a few m i l e s
t h e b a s a l t f l o w h a s been eroded
The immediate a r e a s u r r o u n d i n g t h e s p r i n g s has been
About 1 . 5 km n o r t h e a s t and 2 . 5 km s o u t h of t h e a r e a ,
i n t r u s i v e i s exposed.
(Ellingson,
the
1959.)
Comments: S e v e r a l o t h e r c o l d soda s p r i n g s w i t h t u f a mounds a r e r e p o r t e d
to e x i s t
Summit Creek f a r t h e r up t h e v a l l e y t o t h e e a s t , w i t h i n a m i l e of t h e main Despite t h e i r very cold t e m p e r a t u r e s ,
t h e s e Soda S p r i n g s may be r e l a t e d
v o l c a n i c s y s t e m s which e x i s t i n t h e r e g i o n .
along spring.
to the
The r a t i o s of v a r i o u s c h e m i c a l
species
f o r w a t e r s from Summit Creek Soda S p r i n g , e s p e c i a l l y N a / L i , l o o k v e r y s i m i l a r
to
v a l u e s c a l c u l a t e d f o r Ohanapecosh Hot S p r i n g s which i s s o u t h e a s t of Mount R a i n i e r and o n l y a b o u t 7 km n o r t h w e s t of Summit Creek Soda S p r i n g .
V.
REGIONAL GRAVITY SURVEY OF THE SOUTHERN CASCADES, WASHINGTON
by
Z. Frank Danes U n i v e r s i t y of P u g e t Sound Tacoma, Washington
V.
REGIONAL GRAVITY SURVEY OF THE SOUTHERN CASCADES, WASHINGTON
by Z. F. Danes U n i v e r s i t y of Puget Sound Introduction I n numerous a r e a s of r e c e n t v o l c a n i s m t h r o u g h o u t t h e w o r l d , g e o t h e r m a l
systems
h a v e been d i s c o v e r e d , d e v e l o p e d , and a r e now making s i g n i f i c a n t c o n t r i b u t i o n s e n e r g y n e e d s of the r e s p e c t i v e a r e a s .
The S t a t e of W a s h i n g t o n , h a v i n g f i v e
to t h e strato-
v o l c a n o e s and numerous s m a l l e r v o l c a n i c c e n t e r s , a l l of Q u a t e r n a r y a g e , must a b u n d a n t , but as yet u n d i s c o v e r e d ,
commercially developable geothermal
contain
systems.
D i s c o v e r y and development of g e o t h e r m a l s y s t e m s i n o t h e r a r e a s of t h e world have o c c u r r e d b e c a u s e t h o s e a r e a s e x h i b i t abundant s u r f i c i a l m a n i f e s t a t i o n s g e y s e r s s u l f a t a r a s ) of t h e g e o t h e r m a l s y s t e m s . s u r f i c i a l manifestations are largely lacking.
(hot
In t h e S t a t e of W a s h i n g t o n ,
springs, these
Thermal s p r i n g s , w i t h t h e e x c e p t i o n of
t h o s e n e a r Mount R a i n i e r and Mount B a k e r , have c h e m i c a l c o m p o s i t i o n s
i n d i c a t i v e of
t e m p e r a t u r e g e o t h e r m a l s y s t e m s ( S c h u s t e r and o t h e r s , 1978 p . 2 0 - 2 1 ) .
The l a c k of
t h e r m a l s p r i n g s i n t h e Mount S t . Helens/Mount Adams a r e a may i n d i c a t e t h a t i f
low
high
temperature geothermal systems e x i s t
i n t h e a r e a , t h e y a r e b u r i e d by young v o l c a n i c s
( S c h u s t e r and o t h e r s ,
The few h e a t f l o w measurements made i n t h e
1978, p. 4 4 ) .
s o u t h e r n C a s c a d e s do not r e v e a l a r e a s h a v i n g r e q u i s i t e h i g h g e o t h e r m a l The a v a i l a b l e d a t a i n d i c a t e
gradients.
t h a t t h e s e a r c h f o r g e o t h e r m a l power i n the S t a t e of
Washington w i l l be d i f f i c u l t , and w i l l have t o r e l y upon e x p l o r a t i o n
techniques
c a p a b l e of d e t e c t i n g p o s s i b l e b u r l e d g e o t h e r m a l s y s t e m s which have no s u r f i c i a l manifestation. G r a v i t y s u r v e y s g i v e u s e f u l d a t a which can be i n t e r p r e t e d l o c a l s t r u c t u r e s and s u b s u r f a c e l i t h o l o g i e s .
to r e v e a l
regional
G r a v i t y s u r v e y s in t h e G e y s e r s
( 1 9 6 6 , C a l i f o r n i a D i v i s i o n of Mines and G e o l o g y ) ,
and
area
i n t h e B r o a d l a n d s a r e a of New Z e a l a n d
( 1 9 7 0 , H o c h s t e i n and H u n t ) ,
i n t h e R a f t R i v e r a r e a of I d a h o ( 1 9 7 8 , Maybe and
others),
and i n t h e R o o s e v e l t Hot S p r i n g s a r e a of Utah r e v e a l t h a t g r a v i t y a n o m a l i e s a r e a s s o c i a t e d with geothermal systems.
We make and e m p h a s i z e t h e p o i n t t h a t g r a v i t y
alone cannot r e v e a l geothermal s y s t e m s . i n f i n i t e c o m b i n a t i o n of v a r i a b l e s .
G r a v i t y a n o m a l i e s can be produced by an
However, g r a v i t y s u r v e y s c o u p l e d w i t h
bedrock
g e o l o g y and w a t e r g e o c h e m i s t r y can r e v e a l t a r g e t a r e a s which can be e x p l o r e d o t h e r more s i t e s p e c i f i c and e x p e n s i v e
data
with
techniques.
Research We have c o m p l e t e d a r e g i o n a l g r a v i t y s u r v e y of t h e s o u t h e r n C a s c a d e s of W a s h i n g t o n , w i t h t h e p u r p o s e of d e l i n e a t i n g r e g i o n a l g e o l o g i c a l a r e a s which can be e x p l o r e d w i t h more s i t e s p e c i f i c t e c h n i q u e s . a r e a comprised a p p r o x i m a t e l y twenty-two 15' q u a d r a n g l e s ,
s t r u c t u r e s and The i n i t i a l
target
study
bounded by t h e Columbia
R i v e r on t h e s o u t h , by 4 6 ° 3 0 ' on t h e n o r t h , by 1 2 2 ° 3 0 ' on t h e w e s t , and by 121° on the e a s t .
T h i s a r e a , h a v i n g t h e most i n t e n s i v e and e x t e n s i v e r e c e n t v o l c a n i s m of any
a r e a of c o m p a r a b l e s i z e i n t h e s t a t e must be c o n s i d e r e d a s t h e s t a t e ' s The p r o j e c t o b j e c t i v e s were a s
(Hammond, 1975; and C r a n d e l l and M u l l i n e a u x ) ,
prime t a r g e t a r e a f o r g e o t h e r m a l
power.
follows:
1.
Compile e x i s t i n g g r a v i t y d a t a f o r t h e map a r e a .
2.
O b t a i n s u f f i c i e n t new g r a v i t y d a t a t o c o m p l e t e u n i f o r m r e g i o n a l c o v e r a g e of a r e a w i t h a s t a t i o n d e n s i t y of 1 p e r 5 s q u a r e m i l e s .
3.
Reduce e x i s t i n g and new g r a v i t y d a t a u s i n g t h e s t a n d a r d i z e d g r a v i t y d a t a by t h e U . S . G e o l o g i c a l S u r v e y i n D e n v e r .
4.
Compile t h e r e d u c e d d a t a i n t o f r e e - a i r and Bouguer g r a v i t y maps a t a s c a l e of 1:100,000.
5.
E s t a b l i s h a c o m p u t e r i z e d f i l e of a l l raw and reduced g r a v i t y d a t a f o r t h e map a r e a t o f a c i l i t a t e d a t a e x c h a n g e and i n t e r p r e t a t i o n .
reductions applied
D u r i n g t h e p e r i o d of J u l y 1979 t h r o u g h J u n e 1980, g r a v i t y o b s e r v a t i o n s
were
c a r r i e d o u t i n the a r e a from 4 5 ° 3 0 ' N t o 4 6 ° 3 0 ' N and from 1 2 1 ° 4 5 ' E t o 122°30'W. A l s o s u r v e y e d was a s m a l l a r e a from 4 6 ° 3 0 ' N and
121°30'E.
the
to
A l t o g e t h e r , 877 g r a v i t y r e a d i n g s have been t a k e n ; of t h o s e , a b o u t 250 a r e base readings,
r e p e a t s , c a l i b r a t i o n s and t i e s ;
t h e r e s t a r e new v a l u e s .
A l l s t a t i o n s were i n c o r p o r a t e d i n t o our e x i s t i n g network and both new and old v a l u e s have been s u b m i t t e d t o t h e Denver O f f i c e of t h e U . S . G e o l o g i c a l Survey f o r terrain corrections.
A.
15'
These
comprise:
Quadrangles
B o n n e v i l l e Dam Bridal Veil Camas Cougar E l k Rock Husum Lookout Mtn.
118 S t a t i o n s 43 117
Mount S t . Helens S p i r i t Lake White P a s s
71 53 82 58
Willard Wind R i v e r Yacolt
TOTAL
B.
169 S t a t i o n s 65 20 46 61 62
965 S t a t i o n s
7-1/2' Q u a d r a n g l e s Blue Lake B u r n t Peak E a s t Canyon B u t t e French Butte
12 S t a t i o n s 11 14 10
L o s t Horse P l a t e a u McCoy Peak P i s c o e Meadows Q u a r t z Creek B u t t e
Glenwood Greenhorn Buttes Jennies Butte Lone B u t t e
51 12 11 45
S l e e p i n g Beauty Spencer Butte Twin B u t t e s W a l l u p t Lake
TOTAL
While i t be w a r r a n t e d , 1.
1219 S t a t i o n s
prepared.
i s always d a n g e r o u s to i n t e r p r e t but s h o u l d s t i l l
49 5 2 16
254 S t a t i o n s
GRAND TOTAL
Base maps on a s c a l e 1 : 6 2 , 5 0 0 have been
2 Stations 7 2 5
be t a k e n w i t h
p r e l i m i n a r y d a t a , a few c o n c l u s i o n s may caution.
The d o m i n a t i n g f e a t u r e i n t h e a r e a i s t h e r e g i o n a l w e s t e r l y g r a v i t y of a b o u t one mgal/km.
gradient
2.
S u p e r p o s e d o v e r t h i s g r a d i e n t a r e n u m e r o u s l o c a l a n o m a l i e s t h a t seem t o c l u s t e r a l o n g " t r e n d s " , m a r k e d r e d ( p o s i t i v e ) and y e l l o w ( n e g a t i v e ) on t h e p r e l i m i n a r y map. S u r p r i s i n g l y , t h o s e " t r e n d s " seem t o s t r i k e a t r i g h t a n g l e s t o t h e known t e c t o n i c t r e n d s i n t h e s o u t h C a s c a d e s .
3.
A r e a s of known r e c e n t v o l c a n i c a c t i v i t y ( t h a t i s , Mount S t . H e l e n s , 4 6 ° 1 0 ' N , 1 2 2 ° 1 0 ' W ; and G o a t R o c k s , 4 6 ° 2 5 ' N , 1 2 1 ° 2 0 ' W ) a r e a c c o m p a n i e d by w e l l e s t a b l i s h e d g r a v i t y m i n i m a , p o s s i b l y due t o l a r g e q u a n t i t i e s of low d e n s i t y i n t r u sive rocks at shallow c r u s t a l d e p t h s .
4.
A r e a s of s i m i l a r n e g a t i v e a n o m a l i e s , a n d , t h e r e f o r e , p r o s p e c t i v e g e o t h e r m a l e n e r g y r e s o u r c e s , a r e f o u n d i n s o u t h e r n E l k Rock d i s t r i c t ; e a s t of S p i r i t L a k e ; I n s o u t h e r n C o u g a r d i s t r i c t ; and n o r t h e r n L o o k o u t M o u n t a i n d i s t r i c t .
Again, all
those conclusions
the c o r r e c t i o n s
delineate
a r e b a s e d on p r e l i m i n a r y d a t a ,
have been a p p l i e d .
geothermal prospects
in this
Nevertheless, area,
and may be m o d i f i e d when
gravity
and t h e p r e s e n t
anomalies probably survey should
can
continue.
A d d i t i o n s and Comments by M i c h a e l A. Korosec
The 1979 g r a v i t y d a t a p r o v i d e a tremendous number of s t a t i o n s w i t h
sufficient
s t a t i o n d e n s i t y t o e n a b l e t h e c o n s t r u c t i o n of a r e l i a b l e r e g i o n a l g r a v i t y map f o r southern Cascades.
Work b e i n g c a r r i e d out i n 1980 w i l l a l l o w f o r t h e c o n s t r u c t i o n of
a s i m i l a r map f o r t h e c e n t r a l C a s c a d e s and p o r t i o n s of t h e n o r t h e r n e s p e c i a l l y around t h e Mount Baker a r e a . maps w i l l e x i s t north Cascades.
the
Cascades,
The o n l y " h o l e s " which w i l l remain on t h e
i n t h e c e n t r a l i n t e r i o r and t h e c e n t r a l and e a s t e r n p o r t i o n s of S i n c e t h e s e unmeasured r e g i o n s a r e a ) r e m o t e , w i t h d i f f i c u l t
the
access,
b ) w i t h i n N a t i o n a l P a r k s and W i l d e r n e s s A r e a s , and c ) not s u s p e c t e d t o be s i g n i f i c a n t g e o t h e r m a l p r o v i n c e s by t h e known g e o l o g y ( e x c e p t f o r t h e G l a c i e r Peak a r e a ) or open t o development even If
they a r e ,
t h e r e g i o n a l p o r t i o n of t h e g r a v i t y s u r v e y
can be c o n s i d e r e d n e a r l y c o m p l e t e . southeast
program
The o n l y e x c e p t i o n i s t h e a r e a s o u t h and
t o Mr. Baker (down t o t h e South Fork S t i l l a g u a m i s h and e a s t to t h e G l a c i e r
Peak W i l d e r n e s s A r e a ) .
T h i s r e g i o n w i l l l i k e l y be s u r v e y e d i n 1981.
F u t u r e work s h o u l d f o c u s on s p e c i f i c a r e a s of i n t e r e s t ,
either coinciding
with
g e o t h e r m a l p r o v i n c e s b e i n g examined by o t h e r p r o j e c t s of t h e D i v i s i o n ' s
geothermal
p r o g r a m , or on a r e a s which s u g g e s t
anomalies
f r o m t h e r e g i o n a l map.
t h e e x i s t e n c e of s i g n i f i c a n t g r a v i t y
For e x a m p l e , t h e r e g i o n a l g r a v i t y s u r v e y around t h e Mount
H e l e n s a r e a showed a pronounced g r a v i t y kilometers north-northwest
low i n the C o l d w a t e r Creek a r e a 10 t o 15
of t h e v o l c a n o .
The e x t e n t and s i g n i f i c a n c e of t h i s
can o n l y be g u e s s e d , b e c a u s e of t h e r e l a t i v e l y low s t a t i o n d e n s i t y i n t h e a r e a low i s d e f i n e d by o n l y a few g r a v i t y v a l u e s ) . north-northwest
it
low (the
S i n c e a f a u l t zone e x t e n d s
from t h e v o l c a n o t h r o u g h t h i s a r e a , and s i n c e t h e s h a l l o w ( o r
i n t e r m e d i a t e ) magma chamber i s s u s p e c t e d crater,
St.
Is p o s s i b l e
to be o f f s e t n o r t h w e s t of t h e
central
t h a t a s i g n i f i c a n t g e o t h e r m a l r e s e r v o i r may u n d e r l i e t h e
T i g h t e r g r a v i t y s t a t i o n d e n s i t y may p r o v i d e u s e f u l i n f o r m a t i o n which w i l l b e g i n answer some of t h e q u e s t i o n s which t h i s anomaly
generates.
area. to
I n t h e n e a r f u t u r e , a t h o r o u g h e x a m i n a t i o n of carried
o u t i n an e f f o r t
to i d e n t i f y a l l
of
the s i g n i f i c a n t
s o u t h and c e n t r a l C a s c a d e s ,
and t h e a r e a s
cannot
by known g e o l o g y ,
be r e a d i l y e x p l a i n e d
p o o r l y d e f i n e d , a program should possibly leading f u t u r e heat
flow d r i l l i n g ,
of
geochemical
detailed soil
g r a v i t y maps s h o u l d be
anomalies within
a r o u n d Mount B a k e r .
be d e v e l o p e d
to the p r o d u c t i o n
the regional
Where t h e
anomalies
and w h e r e t h e y a r e q u e s t i o n a b l e to s y s t e m a t i c a l l y
the
survey these
or areas,
g r a v i t y maps w h i c h c a n be used t o
surveys,
or o t h e r g e o p h y s i c a l
site
surveys.
VI.
GEOLOGY OF THE WHITE PASS - TUMAC MOUNTAIN AREA, WASHINGTON
by
G e o f f r e y A. C l a y t o n G e o l o g i s t - U n i v e r s i t y of Washington S e a t t l e , Washington
VI.
GEOLOGY OF THE WHITE PASS-TUMAC MOUNTAIN AREA, WASHINGTON by G e o f f r e y A. C l a y t o n
Abstract
The Tumac P l a t e a u - W h i t e P a s s - R i m r o c k L a k e - n o r t h e r n Goat Rocks r e g i o n i n
the
s o u t h e r n Cascade Range Washington l i e s a t t h e c r e s t and on t h e e a s t e r n s l o p e of C a s c a d e s 35 t o 45 km s o u t h e a s t
of Mount R a i n i e r .
on the 1 : 2 5 0 , 0 0 0 Yakima r a i s e d
relief
When viewed on t o p o g r a p h i c maps, or
map, t h e Tumac P l a t e a u a p p e a r s a s an anomalous
b u l g i n g a r e a , r e l a t i v e l y u n d i s s e c t e d by r i v e r s ,
and d o t t e d w i t h l a k e s .
This
morphology is due t o t h e e r u p t i o n of l a v a f r o m a t l e a s t 10 l a t e Q u a t e r n a r y d i s t r i b u t e d on and a r o u n d t h e Tumac P l a t e a u .
r a n g e i n c o m p o s i t i o n from o l i v i n e b a s a l t and h i g h - a l u m i n a b a s a l t t o Structurally
t h e a r e a may be a dome.
amphibolite,
t h e o n l y e x p o s u r e of p r e - T e r t i a r y
bulging
vents
To t h e s o u t h , Hogback Mountain and
Goat Rocks a r e more e r o s i o n a l l y d i s s e c t e d c e n t e r s of Q u a t e r n a r y v o l c a n i s m .
the
Lavas
rhyolite.
The R u s s e l l Ranch f o r m a t i o n and I n d i a n Creek r o c k s i n t h e s o u t h e r n C a s c a d e s of
Washington, crop out a t a l t i t u d e s as high as 6,000 f t .
T e r t i a r y f o r m a t i o n s tend
d i p away from t h e Tumac P l a t e a u .
The Ohanapecosh F o r m a t i o n ,
t o t h e west of t h e Cascade c r e s t ,
i s a b s e n t a t t h e c r e s t and i s not y e t
c o r r e l a t e d w i t h T e r t i a r y r o c k s on t h e e a s t faults paralleling
the
several kilometers
s i d e of t h e c r e s t .
to thick
definitely
The age and throw of
t h e C a r l t o n C r e e k , C l e a r F o r k , C o w l i t z R i v e r , and I n d i a n Creek
v a l l e y s a r e unknown.
Detailed
f i e l d mapping, p e t r o l o g i c and g e o c h e m i c a l s t u d i e s ,
r a d i o m e t r i c d a t i n g of rock u n i t s Quaternary volcanism,
i n t h e a r e a , was d e s i g n e d
to c l a r i f y t h e r e c o r d of
d e f i n e t h e m a j o r s t r u c t u r e s which c o n t r o l
h i g h - l e v e l s i l i c i c magma chamber i n f e r r e d
to e x i s t
beneath
and
t h e l o c a t i o n of a
the n o r t h w e s t e r n p o r t i o n of
t h e a r e a , and p e r m i t a b e t t e r u n d e r s t a n d i n g of s m a l l e r s c a l e s t r u c t u r e s which might c o n t r o l h y d r o t h e r m a l s y s t e m s and l o c a l i z a t i o n of
heat.
,
Introduction:
The S t r u c t u r e and S t r a t i g r a p h y of t h e T e r t i a r y Rocks i n
the
C a r l t o n P a s s - W h i t e P a s s - R i m r o c k Lake-Goat Rocks Region
The 1979 g e o l o g i c mapping was p a r t of a l a r g e r s t u d y by J o s e p h Vance and Geoffrey Clayton.
T h i s s t u d y of t h e s t r u c t u r e and s t r a t i g r a p h y of t h e
Tertiary
r o c k s of t h e C a r l t o n P a s s - W h i t e P a s s - R i m r o c k Lake-Goat Rocks r e g i o n f o c u s e s on a d e t a i l e d s u b d i v i s i o n and c h r o n o l o g y of t h e s t r a t i g r a p h i c
section, identifying
zones
of c r u s t a l w e a k n e s s , and e s t i m a t i n g d i s p l a c e m e n t a l o n g T e r t i a r y and Q u a t e r n a r y faults.
F i n d i n g s w i l l a l l o w c o r r e l a t i o n and c o m p a r i s o n of the v o l c a n i c h i s t o r y of
t h e s t u d y r e g i o n w i t h v o l c a n i c e p i s o d e s e l s e w h e r e i n t h e Cascade Range and w i l l clarify relationships
between d e f o r m a t i o n , v o l c a n i s m ,
and s u b d u c t i o n , and
help
regional
t e c t o n i c s in the Northwest. P r e v i o u s Work A b b o t t ( 1 9 5 3 ) s t u d i e d t h e r o c k s i n t h e n o r t h e a s t e r n p o r t i o n of C a r l t o n P a s s .
He
mapped v o l c a n i c r o c k s now a s s i g n e d t o t h e Ohanapecosh Formation ( F i s k e , Hopson, and W a t e r s , 1964) a s o v e r l y i n g Puget Group s a n d s t o n e s a l o n g t h e n o r t h w e s t s i d e of Bumping R i v e r v a l l e y .
the
Abbott a l s o mapped a f a u l t zone i n t h e upper C a r l t o n Creek -
u p p e r Bumping R i v e r v a l l e y s e p a r a t i n g u p l i f t e d lower T e r t i a r y r o c k s to t h e
northwest
from down-dropped m i d d l e T e r t i a r y Ohanapecosh F o r m a t i o n to t h e s o u t h e a s t .
Thus he
i n f e r r e d f a u l t i n g was younger t h a n m i d d l e T e r t i a r y .
The T e r t i a r y r o c k s of t h e White
Pass - T i e t o n P a s s - Goat Rocks a r e a were s t u d i e d i n r e c o n n a i s s a n c e (1968).
Ellingson
by E l l i n g s o n
( 1 9 6 8 ) a l s o d e s c r i b e d f a u l t zones a t C l e a r L a k e , a l o n g the
s i d e of Rimrock L a k e , a c r o s s C a r t r i g h t age and d i s p l a c e m e n t
south
C r e e k , and p a r a l l e l i n g I n d i a n C r e e k , but
of t h e s e f a u l t s i s u n c e r t a i n .
the
Swanson (1964) mapped and
d e s c r i b e d T e r t i a r y r o c k s around t h e e a s t e r n end of Rimrock Lake, but was u n a b l e d e f i n i t i v e l y c o r r e l a t e t h e s e r o c k s w i t h u n i t s west of the Cascade c r e s t .
to
Swanson's
1964 mapping and rock d e s c r i p t i o n s were f i e l d checked and found to be q u i t e
accurate,
s o i t was d e c i d e d n o t t o u n d e r t a k e f u r t h e r mapping i n t h i s a r e a .
Radiometric
dates
on t h e s e r o c k s of t h e e a s t e r n s l o p e of t h e C a s c a d e s a r e n e e d e d , h o w e v e r , to
test
l i t h o l o g i c c o r r e l a t i o n s w i t h u n i t s on t h e w e s t e r n s l o p e of t h e C a s c a d e s .
O b j e c t i v e s and P r o b l e m s The o b j e c t i v e s of t h i s s t u d y have been a s (1)
follows:
T e r t i a r y v o l c a n i c and p l u t o n i c r o c k s a r e b e i n g mapped and sampled i n f i e l d ; they s p e c i f i c a l l y included:
welded t u f f s a t Spencer C r e e k ,
the
crystal
t u f f s s o u t h of Kloochman Rock, W i l d c a t Creek F o r m a t i o n and o v e r l y i n g
ash
f l o w s and t u f f s , p y r o c l a s t i c f l o w s i n t h e F i f e s Peak of T i e t o n V o l c a n o , a n d e s i t e at Shellrock Peak, b r e c c i a a t Bootjack rock,
the m i c r o d i o r i t e of
Kloochman Rock, Goose Egg M o u n t a i n , W e s t f a l l Rocks and unnamed h i l l s
in
n o r t h w e s t - t r e n d i n g zone of i n t r u s i o n s
in
(Swanson, 1 9 6 4 ) , r h y o l i t i c a s h
I n d i a n C r e e k , i n t r u s i v e r o c k s a t J u g Lake and Twin P e a k s ,
this
silicified
b a s a l t s a t T i e t o n P a s s , o l i v i n e b a s a l t n e a r Conrad Meadows,
basal
Ohanapecosh F o r m a t i o n i n Summit Creek ( E l l i n g s o n , 1959, 1968, 1 9 7 2 ) , and C a r l t o n P a s s ( A b b o t t , 1 9 5 3 ) , Ohanapecosh F o r m a t i o n c r o p p i n g o u t on t h e s i d e of J o h n s o n P e a k , q u a r t z t u f f
i n t h e n o r t h e r n Tumac P l a t e a u ,
in
north
intrusive
r o c k s a t P e a r B u t t e and C a r l t o n R i d g e , h o r n b l e n d e p o r p h y r y a t McNiel P e a k , and p y r o c l a s t i c b r e c c i a a t t h e D e v i l s (2)
Horns.
D e t a i l e d mapping p r o j e c t s have been p l a n n e d f o r t h e C l e a r Lake f a u l t t h e I n d i a n Creek f a u l t zone and t h e f a u l t in C a r t w r i g h t Creek 1 9 7 2 ) , t h e C a r l t o n Creek f a u l t ( A b b o t t ,
zone,
(Ellingson,
1 9 5 3 ) , and f a u l t s i n l a t e
Pleistocene
l a k e s e d i m e n t s west of P e n o y e r Lake ( o b s e r v e d by C l a y t o n and P o r t e r of U n i v e r s i t y of (3)
Washington).
Rocks a r e b e i n g c o r r e l a t e d on t h e b a s i s of l i t h o l o g y , position,
petrographic similarity,
and K-Ar r a d i o m e t r i c d a t i n g
stratigraphic
and by a g e s o b t a i n e d by t h e
techniques.
fission-track
(4)
A map of t h e T e r t i a r y r o c k s h a s been d r a f t e d .
The p r o b l e m s t h i s s t u d y s e e k s to s o l v e i n c l u d e :
i d e n t i f y i n g and mapping T e r t i a r y
and younger f r a c t u r e zones and f a u l t s which may l o c a l i z e t h e c i r c u l a t i o n of mal f l u i d s ; d e t e r m i n i n g
t h e age and d i s p l a c e m e n t of f a u l t s which may have
geothercontrolled
t h e a s c e n t of magma; e v a l u a t i n g the T e r t i a r y s e c t i o n a s a cap rock which may f o c u s t h e g e o t h e r m a l r e s o u r c e a t t h e c r e s t of a n t i c l i n a l and domal s t r u c t u r e s , and d e f i n i t i o n of t h e age of T e r t i a r y v o l c a n i c e p i s o d e s i n t h i s p o r t i o n of t h e
the
Cascades,
and t h e i r i n t e r r e l a t i o n s w i t h movement of t h e P a c i f i c and J u a n de Fuca P l a t e s and with regional
tectonics.
E l l i n g s o n ( 1 9 7 2 ) c o n c l u d e s t h a t t h e White P a s s r e g i o n h a s been p o s i t i v e
relief
s i n c e t h e E o c e n e , and t h a t Q u a t e r n a r y f a u l t i n g h a s lowered t h e s o u t h e a s t e r n Tumac P l a t e a u 2 , 3 0 0 f e e t r e l a t i v e to R u s s e l l Ridge to t h e e a s t .
I f t h e doming and u p l i f t
of t h i s r e g i o n a r e i n d e p e n d e n t of t h e g e n e r a l p a t t e r n of t h e Cascade Orogeny, t h e n a h o t - s p o t model (Suppe and o t h e r s 1975) may be a p p l i c a b l e to t h e r e g i o n . the study,
As p a r t of
f i e l d work and r a d i o m e t r i c d a t i n g have been d e s i g n e d to p r o v i d e d a t a to
determine if
late Tertiary precursors
to t h e u n u s u a l l y time c o n t i n u o u s and com-
p o s i t i o n a l l y diverse Quaternary volcanic rocks e x i s t .
Although t h e p r e s e n t
sub-
c r u s t a l s t r u c t u r e and r a t e of p o s s i b l e s u b d u c t i o n b e n e a t h w e s t e r n Washington a r e uncertain,
t h e C e n o z o i c dynamics of o c e a n i c p l a t e s i n t h e P a c i f i c N o r t h w e s t a r e w e l l
known ( A t w a t e r 1970; S i l v e r 1971; Riddihough 1 9 7 8 ) . motions, spreading at others,
By comparing t h e s e
plate
t h e J u a n de Fuca R i s e (Vine and Mathews, 1963; Kennet and
1 9 7 7 ) , and t h e r e c o r d of v o l c a n i s m i n t h e s t u d y r e g i o n , t h e r e h a s been an
a t t e m p t to determine the r e l a t i o n s h i p s and t e c t o n i c s .
between r a t e of s u b d u c t i o n , v o l c a n i c
activity,
The Cenozoic r e c o r d of v o l c a n i s m and t e c t o n i c s of t h i s r e g i o n have
been compared w i t h d a t a from s t u d i e s by Armstrong ( 1 9 7 8 ) , C h r i s t i a n s e n and Lipman ( 1 9 7 2 ) , Hamilton and Myers ( 1 9 6 6 ) , Vance and N a e s e r
( 1 9 7 7 ) , Vance (1977 and
1979),
Vogt and o t h e r s
(1976),
to see
if
patterns
t o t h o s e of
the study
area.
Another
important
and u n i q u e a s p e c t
that
six important Tertiary
Eocene v o l c a n i c
rock u n i t s
rocks s i m i l a r
of
Columbia R i v e r B a s a l t between t h e s e nic units Vance
record
(Ellingson
F i f e s Peak F o r m a t i o n ,
crop out elsewhere
i n sympathy w i t h 1977).
similar
in the study region
1968,
is
it.
Stratigraphic
Radiometric
allow evaluation
t h e r o t a t i o n of
Puget
S t e v e n s Ridge Formation
In the r e g i o n .
studies
p . 2 8 ) and t h e
d a t i n g of
of
t h e C a s c a d e Range u n d e r w e n t a m a j o r c l o c k w i s e
by ( S i m p s o n and C o x ,
are
t o t h o s e mapped i n w e s t e r n m o s t W a s h i n g t o n by S n a v e l y
along with paleomagnetic
early Tertiary
the T e r t i a r y
rocks are being c a r e f u l l y s t u d i e d .
(1979) t h a t
by t h e a b o v e a u t h o r s
of w e s t e r n W a s h i n g t o n c r o p o u t w i t h i n
and Wagner ( 1 9 6 3 ) c r o p o u t a t T i e t o n P a s s Group, Ohanapecosh F o r m a t i o n ,
inferred
and,
relationships these
the suggestion rotation
t h e Oregon c o a s t a l
block
volcaby
during
the
recognized
Q u a t e r n a r y V o l c a n i c Rocks i n t h e Tumac P l a t e a u - White P a s s - Goat Rocks Area
The Tumac P l a t e a u - W h i t e P a s s - G o a t Rocks a r e a c o n t a i n s a r e c o r d of Q u a t e r n a r y v o l c a n i c r o c k s u n i q u e i n t h e S t a t e of W a s h i n g t o n .
Hundreds of e r u p t i o n s
o c c u r r e d i n the r e g i o n a t v a r y i n g i n t e r v a l s d u r i n g Q u a t e r n a r y t i m e .
have
F i f t e e n vents
have been l o c a t e d and t h e e x i s t e n c e of o t h e r s a r e i n f e r r e d b e c a u s e many l a v a s be c o r r e l a t e d w i t h the known v e n t s .
The v o l c a n i c r o c k s r a n g e w i d e l y i n
and i n c l u d e h i g h - a l u m i n a b a s a l t , o l i v i n e b a s a l t , and
cannot
composition
basaltic andesite, andesite,
dacite,
rhyolite. Q u a t e r n a r y v o l c a n i s m i n Washington S t a t e n o r t h of t h e Tumac P l a t e a u - W h i t e P a s s -
Goat Rocks s t u d y a r e a h a s been l a r g e l y r e s t r i c t e d
to a n d e s i t i c
stratovolcanoes.
The
dominant t y p e of Q u a t e r n a r y v o l c a n i s m i n Washington S t a t e s o u t h of t h e s t u d y a r e a h a s been t h e e r u p t i o n of b a s a l t i n f i s s u r e zones and t h e f o r m a t i o n of two l a r g e stratovolcanoes.
andesitic
The Tumac P l a t e a u may be t h e n o r t h e r n t e r m i n u s of a f i s s u r e
zone,
p o s s i b l y t h e I n d i a n Heaven f i s s u r e zone d e s c r i b e d by Hammond and o t h e r s ( 1 9 7 6 ) .
The
I n d i a n Heaven f i s s u r e zone i s o r i e n t e d n o r t h - s o u t h and p a s s e s t h r o u g h t h e w e s t e r n f l a n k of Mount Adams.
The Tumac P l a t e a u , Hogback M o u n t a i n , t h e Goat Rocks, and Lake
View Mountain d e f i n e a l i n e a r n o r t h - s o u t h zone of Q u a t e r n a r y v o l c a n i s m t h a t
also
i n t e r s e c t s Mount Adams. Two m a j o r s e t s of l i n e a m e n t s v i s i b l e on L a n d s a t p h o t o g r a p h s converge a t n o r t h e r n boundary of southwest,
is traceable
Tumac P l a t e a u . parallel valley,
the Tumac P l a t e a u .
The S t . Helens l i n e a m e n t , o r i e n t e d
the northeast-
t h r o u g h C a r l t o n P a s s , d e f i n i n g t h e n o r t h w e s t boundary of
An e n - e c h e l o n s e t of l i n e a m e n t s o r i e n t e d n o r t h w e s t - s o u t h e a s t ,
the
sub-
t o the Olympic-Wallowa l i n e a m e n t , a r e t r a c e a b l e a l o n g the I n d i a n Creek t h r o u g h P e a r B u t t e , and t h r o u g h t h e R a t t l e s n a k e Peaks ( L e p l e y ,
munication 1978).
These l i n e a m e n t s may c o r r e s p o n d
e x t e n d to s u f f i c i e n t d e p t h to have c o n t r o l l e d
personal
to m a j o r c r u s t a l s t r u c t u r e s
the a s c e n t of magma.
comwhich
P r e v i o u s f i e l d mapping had i n d i c a t e d P l a t e a u a r e a was r e s t r i c t e d lineaments.
t h a t Q u a t e r n a r y v o l c a n i s m i n t h e Tumac
t o an a r e a between t h e S t . Helens and I n d i a n Creek
K i n c a i d Mountain 1 km n o r t h w e s t of J u g L a k e , S u g a r l o a f Mountain 2 km
s o u t h of Bumping L a k e , and an e r o d e d v o l c a n i c cone and f l o w t h a t dams upper
Indian
C r e e k f o r m i n g P e a r Lake a r e Q u a t e r n a r y v e n t s a t t h e n o r t h e r n p e r i m e t e r of t h e area.
L i n e s drawn on a map to c o n n e c t K i n c a i d Mountain and S u g a r l o a f
M o u n t a i n , and
t h e P e a r Lake v e n t and S u g a r l o a f
Mountain, c l o s e l y p a r a l l e l
Creek l i n e a m e n t s ,
The Tumac P l a t e a u , w i t h a t l e a s t 5 a d d i t i o n a l
respectively.
study
t h e S t . Helens and I n d i a n vents,
t h e Summit Creek soda s p r i n g s , w i t h an i n f e r r e d h i g h t e m p e r a t u r e s o u r c e , t h e C l e a r Fork C o w l i t z R i v e r d a c i t e v e n t , t h e Hogback Mountain v e n t , and t h e Round Mountain vent area (Ellingson 1968), a l l
H e between t h e t r a c e s of t h e two s e t s of
The n o r t h e r n p o r t i o n of t h e s t u d y a r e a c o n t a i n s t h e Tumac P l a t e a u , olivine basalt
shield volcano.
lava.
Abbott
and e a s t e r n Tumac P l a t e a u a r e a ,
or
E l l i n g s o n ( 1 9 5 9 ) mapped a
l a v a i n t h e C o w l i t z P a s s a r e a and named i t Ridge Top a n d e s i t e . ( 1 9 6 8 ) grouped a l l
are
the
l a v a s he i n f e r r e d to be P l i o c e n e
y o u n g e r i n t o a s i n g l e u n i t named Deep Creek a n d e s i t e .
f u r t h e r f i e l d work, E l l i n g s o n
1953),
Around t h e Tumac P l a t e a u
( 1 9 5 3 ) mapped t h e n o r t h w e s t p o r t i o n of
Tumac P l a t e a u and grouped a l l t h e l e u c o c r a t i c
leucocratic
a 40 km2
Tumac M o u n t a i n , a Holocene c i n d e r cone (Abott
i s t h e c e n t r a l l y l o c a t e d v e n t of t h e s h i e l d v o l c a n o . o u t c r o p s of l e u c o c r a t i c
lineaments.
leucocratic
l a v a s of t h e
After southern
renamed them S p i r a l B u t t e a n d e s i t e , and i n f e r r e d
they
are Pliocene in age. F i e l d mapping, g e o c h e m i c a l , and p e t r o g r a p h i c s t u d i e s by t h e a u t h o r i n d i c a t e t h e "Ridge T o p - S p i r a l B u t t e " a n d e s i t e Pleistocene
in age.
i s a s e q u e n c e of b a s a l t
that
f l o w s , p r o b a b l y mid-
The b a s a l t s were e r u p t e d i n t o a p a l e o - v a l l e y s y s t e m o r i e n t e d
n o r t h - s o u t h across the present v a l l e y system. s l o n a l i n v e r s i o n of t o p o g r a p h y ,
a process
The r i d g e t o p p o s i t i o n i s due t o e r o -
t h a t has a l s o p e r c h e d t h e T i e t o n
Andesite
( t o be d i s c u s s e d l a t e r ) h i g h above p r e s e n t v a l l e y b o t t o m s .
Furthermore,
other
l e u c o c r a t i c l a v a s grouped i n t h e S p i r a l B u t t e a n d e s i t e a r e now known t o be s i l i c e o u s a n d e s i t e s e r u p t e d from a t l e a s t 8 v e n t s i n f e r r e d to m i d - l a t e P l e i s t o c e n e i n a g e .
The
v e n t s a r e i d e n t i f i a b l e by t h e i r h i g h t o p o g r a p h i c r e l i e f , t h e i r p r i m a r y v o l c a n i c morphology, a n d / o r t h e p r e s e n c e of w e l d e d , s c o r i a b r e c c i a , w i t h m o t t l e d primary o x i d a t i o n p a t t e r n s , and o t h e r v e n t a g g l o m e r a t e s . Mountain, Sugarloaf
Lava e r u p t e d from v e n t s a t Deer Lake
M o u n t a i n , and 500 m s o u t h of P e a r Lake f o r m s d i s t i n c t
f i l l i n g flows In the p r e s e n t l y e x i s t i n g drainage system.
valley-
The smooth U-shaped morpho-
l o g y u s u a l l y o b s e r v e d i n t h e g l a c i a l l y s c o u r e d v a l l e y s i n t h i s a r e a i s m o d i f i e d by bulging lava flow morphology.
Because t h e s e l a v a f l o w s have not been p r o f o u n d l y
s c o u r e d by g l a c i e r s and a r e c o n t a i n e d i n t h e bottoms of p r e s e n t l y e x i s t i n g t h e y a r e i n f e r r e d to be l a t e P l e i s t o c e n e i n a g e .
S p i r a l B u t t e , with
valleys,
well-preserved
p a i r e d l a v a l e v e e s d e f i n i n g a t i g h t s p i r a l around t h e v e n t , may have been formed subglacially.
I t s anomalous shape h a s been only s l i g h t l y a f f e c t e d by t h e I c e cap
t h a t c o v e r e d t h e Tumac P l a t e a u d u r i n g t h e Evans Creek ( o r F r a s e r ) G l a c i a t i o n . C l e a r Fork C o w l i t z R i v e r d a c i t e f l o w h a s been g l a c i a t e d on i t s
The
lower p o r t i o n but
gla-
c i a l i c e has d e s t r o y e d t h e v e n t a r e a and s c o u r e d t h e upper p o r t i o n of t h e f l o w (Ellingson 1968). butary glacier
S i n c e t h e C l e a r Fork C o w l i t z R i v e r v a l l e y c o n t a i n e d an a c t i v e
t o t h e C o w l i t z g l a c i e r d u r i n g t h e Evans Creek G l a c i a t i o n ,
f l o w must be p o s t Evans Creek i n a g e , and t h u s l e s s
than 1 4 , 0 0 0 y e a r s
Hogback Mountain and Round Mountain a r e i n t h e middle of t h e s t u d y Ellingson
dacite
old. area.
(1968) i n f e r r e d t h a t Round Mountain i s a Q u a t e r n a r y v e n t which e r u p t e d
basaltic lava.
At Hogback M o u n t a i n , a sequence of more t h a n 125, 1 - 2 m t h i c k ,
s c o r i a c e o u s , b l o c k y l a v a f l o w s of h i g h alumina b a s a l t crop o u t . that
the
tri-
Ellingson
inferred
l a v a ponded In a c r a t e r a b o u t 1 t o 2 km in d i a m e t e r a t t h e summit of Hogback
Mountain and flowed down a p a l e o - v a l l e y to the n o r t h w e s t , o b l i q u e l y a c r o s s
the
present
drainage system.
crater.
volcanic
p o r t i o n of
source
perhaps
of
has r e s i s t e d
1977).
erosion,
Tieton River,
above the p r e s e n t
in the Goat
Pleistocene
is
andesites
flowed south
this
causing inversion the
of
of
Rocks t o i t s
lava are found c l i n g i n g
interpretation
similar
magnitude
an a b s o l u t e
trends,
to t h a t
(Ellingson
terminus
(Bentley,
In
personal
I n t h e c a n y o n of
the
followed a paleo-valley
observed
and o c c u p i e s to c l a r i f y
petrographic,
and r a d i o m e t r i c
Sr87/Sr86
ratios,
and
trace
of
t h e magma and i t s
examined.
The p r o b a b i l i t y
of
the e x i s t e n c e
other heat
sources p o t e n t i a l l y
important
the present
element
ascent
studies
dating
the a r e a .
should
With
as a geothermal
valley.
Pleistocene
have
allowed establish
geochemical
concentrations,
to the s u r f a c e a r e
of h i g h - l e v e l
Late
The Old Snowy
t h e e a r l y and m i d d l e
and g e o c h e m i c a l
pres-
The
a t Hogback M o u n t a i n .
t h e b o t t o m of
t h e e r u p t i v e h i s t o r y of
system
b e e n b r e a c h e d by t h e
from the Goat Rocks.
on t h e g e n e s i s
evaluated.
volcano
a r i d g e - t o p cap r o c k which
but has since
the s t r a t i g r a p h y ,
time framework f o r
differentiation
constraints
f i e l d mapping, of
Pliocene
which now f l o w s t o t h e s o u t h of W e s t f a l l R o c k s .
F u r t h e r work i n t h e a r e a was d e s i g n e d
accurate
dissected
t o v a l l e y w a l l s more t h a n 100 m
The T i e t o n A n d e s i t e
down G o a t C r e e k ,
Detailed
b.p.
the topography.
h a v e a l s o been e r u p t e d
record.
age.
The Goat Rocks
15,000 f e e t
lava flow is
s i d e of W e s t f a l l R o c k s ,
Tieton River,
d e g r e e of e r o s i o n
source,
v a l l e y bottom.
around the northwest ent east-west
Near i t s
r e m n a n t s of
in
summit
t h e w o r l d s l o n g e s t known a n d e -
T h i s l a v a f l o w h a s a K-Ar a g e of 6 9 0 , 0 0 0 y e a r s
communication,
andesite
late Pleistocene.
( B e c r a f t 1950) i s
f l o w , e x t e n d i n g 80 km f r o m U s
Yakima.
the
a g e may h a v e r e a c h e d a n a l t i t u d e
The T i e t o n A n d e s i t e
the
e r u p t i v e h i s t o r y i n l a t e Miocene o r e a r l y
t o be a c t i v e u n t i l
of m i d d l e P l e i s t o c e n e
site
has a l s o destroyed
the s t u d y a r e a a r e t h e Goat Rocks, a d e e p l y
complex which began i t s
and c o n t i n u e d
1968).
by c i r q u e g l a c i e r s
The H o g b a c k M o u n t a i n b a s a l t s a r e p r o b a b l y m i d d l e P l e i s t o c e n e
In the southern
time,
Erosion
silicic resource
being
magma c h a m b e r s is s t i l l
being
or
Results R e s u l t s of t h e 1979 f i e l d s t u d y a r e p r e s e n t e d on a map of s c a l e 1 : 2 4 , 0 0 0 , w i t h i n t h e p o c k e t on t h e back c o v e r of O p e n - F i l e R e p o r t 8 0 - 8 of
this
report.
The map was f i r s t
t h e W a s h i n g t o n D i v i s i o n of Geology and E a r t h
found
released Resources.
as
References Cited
A b b o t t , A. T . , 1953, The g e o l o g y of t h e n o r t h w e s t p o r t i o n of t h e Mt. Aix q u a d r a n g l e Washington:
U n i v e r s i t y of Washington P h . D .
t h e s i s , 256 p .
A r m s t r o n g , R. L . , 1978, Cenozoic i g n e o u s h i s t o r y of t h e U . S . C o r d i l l e r a 49° N. l a t i t u d e :
G e o l o g i c a l S o c i e t y of America Memoir ( i n
A t w a t e r , T . , 1970, I m p l i c a t i o n s
press).
of p l a t e t e c t o n i c s f o r t h e Cenozoic
e v o l u t i o n of w e s t e r n N o r t h America:
from 4 2 ° t o
tectonic
G e o l o g i c a l S o c i e t y of America B u l l e t i n ,
v.
8 1 , p. 3 5 1 3 - 3 5 3 6 .
B e c r a f t , G. E . , 1950, D e f i n i t i o n of t h e T i e t o n A n d e s i t e on l i t h o l o g y and Washington S t a t e U n i v e r s i t y P h . D .
structure
t h e s i s , 26 p .
C a m p b e l l , K. V . ; M i e r s , J . G . ; N i c h o l s , B. M.; O l i p h a n t , J . ;
Pytlak,
S . ; Race, R. W
Shaw, G. H.; G r e s e n s , R. W., 1970, A s u r v e y of t h e r m a l s p r i n g s i n Washington S t a t e : N o r t h w e s t S c i e n c e , v . 4 4 , n o . 1, p . 1 - 1 1 .
C h r i s t i a n s e n , R. W.; Lipman, P . W., 1972, Cenozoic v o l c a n i s m and p l a t e e v o l u t i o n of t h e w e s t e r n U n i t e d S t a t e s I I ; L a t e C e n o z o i c : T r a n s a c t i o n s of t h e Royal S o c i e t y ,
London, A. v . 2 7 1 , p.
Philosophical 249-284.
Dungan, M. A.; Vance, J . A.; B l a n c h a r d , D . , 1979, T e c t o n i c s e t t i n g and e l e m e n t g e o c h e m i s t r y of Mesozoic o p h i o l i t i c American J o u r n a l of S c i e n c e ( i n
tectonic
rocks in western
trace
Washington:
press).
E l l i n g s o n , J . A . , 1959, G e n e r a l g e o l o g y of t h e C o w l i t z P a s s a r e a , c e n t r a l Mountains, Washington:
U n i v e r s i t y of Washington M. S. t h e s i s , 60 p .
Cascade
Ellingson, J . A., area,
1 9 6 8 , L a t e C e n o z o i c v o l c a n i c g e o l o g y of t h e W h i t e P a s s - G o a t
Cascade Mountains, Washington:
Rocks
Washington S t a t e U n i v e r s i t y P h . D .
thesis,
112 p .
Ellingson,
J . A.,
1969, P a l e o z o i c
s e d i m e n t a r y and m e t a m o r p h i c r o c k s i n t h e
Cascade Mountains, Washington: Programs f o r 1969, P a r t 3,
Ellingson, J . A.,
1972,
p.
G e o l o g i c a l S o c i e t y of America A b s t r a c t s
R. S . ;
The r o c k s and s t r u c t u r e
Fox, P. J . ;
Schreiber,
E.;
of
t h e White P a s s a r e a ,
1 9 6 3 , G e o l o g y of Mount
Goetsch,
S. A.,
p.
R o w l e t t , H . ; McCamy, K . ,
1 9 7 6 , The g e o l o g y of
1 9 7 8 , The m e t a m o r p h i c and s t r u c t u r a l
of W a s h i n g t o n M. S. t h e s i s ,
H a m i l t o n , W.; M y e r s , W. B . ,
County,
Pederson,
1966, Cenozoic
h i s t o r y of
Geophysical,
the Quartz
Mountain-
c e n t r a l Cascades, Washington:
p.
tectonics
of
University
the western United
509-549.
F . A . ; H o p k i n s , K. D . ; A i k e n s ,
G e o l o g y and g r a v i m e t r y of Range, Washington:
of
86 p .
Review of G e o p h y s i c s , v . 4 ,
Hammond, P . E . ;
Journal
the
4117-4128.
Lookout Mountain a r e a , K i t t i t a s
States:
Rainier
U . S . G e o l o g i c a l S u r v e y P r o f e s s i o n a l P a p e r 4 4 4 , 93 p .
o c e a n o g r a p h e r f r a c t u r e zone-A model f o r f r a c t u r e z o n e s : Research, v . 81,
Washington:
9-24.
H o p s o n , C. A . ; and W a t e r s , A. C . ,
National Park, Washington:
with
15-16.
Northwest S c i e n c e , v . 46, n o . 1, p.
Fiske,
southern
the Q u a t e r n a r y b a s a l t i c
P r o c e e d i n g s of
D . ; and o t h e r s ,
volcanic
field,
south
t h e 2nd U n i t e d N a t i o n s Symposium on
D e v e l o p m e n t and u s e of G e o t h e r m a l R e s o u r c e s , v .
1,
p.
397-405.
1976, Cascade
the
Karson, J . ;
Dewey, J .
F.,
1978, C o a s t a l complex, w e s t e r n Newfoundland-An
Ordovician oceanic f r a c t u r e zone: p.
Geological Society
early
of America B u l l e t i n , v . 89
1037-1049.
Kennet, J .
P . ; M c B i r n e y , A. R . ;
Thunell,
volcanism in the c i r c u m - P a c i f i c Research, v. 2,
p.
Riddihough,
Saleeby, J . ,
Washington:
R. P . ,
of
California.
1978,
E. A . ,
Society
thesis,
The J u a n de Fuca P l a t e :
zone t e c t o n i c s ,
I n C o l e m a n , R. D . ;
Geothermal
p.
n e a r Mount 576-578.
EOS, v . 5 9 , n o . 9 ,
continental belt,
I r w i n , W. P . ,
1971, Small p l a t e
tectonics p.
p.
836-842.
margin f r a g m e n t a t i o n ,
southwest
editors,
Sierra
p.
in the n o r t h e a s t e r n P a c i f i c :
ophiolites
141-159.
Geological
3491-3496.
1 9 5 0 , The R u s s e l l Ranch F o r m a t i o n :
Washington S t a t e U n i v e r s i t y
M.S
26 p .
Simmons, G. C . ;
Van Noy, R. M.; Z i l k a ,
N. T . ,
1974, Mineral
resources
of
the
C o u g a r L a k e s - M o u n t Aix s t u d y a r e a , Yakima and L e w i s C o u n t i e s , W a s h i n g t o n : G e o l o g i c a l Survey O p e n - f i l e Report
Simpson,
and
Nevada,
North American
of G e o l o g y and M i n e r a l I n d u s t r i e s B u l l e t i n 9 5 ,
of A m e r i c a B u l l e t i n , v . 8 2 ,
Simmons, G. C . ,
Cenozoic
of V o l c a n o l o g y and
m e t a m o r p h i s m of b a s e m e n t g n e i s s e s
the Kings-Kaweah o p h i o l i t e
Oregon Department
Silver,
Journal
of
C a r n e g i e I n s t i t u t e Y e a r Book, n o . 7 1 ,
1977, F r a c t u r e
emplacement
region:
1977, E p i s o d e s
145-163.
M a t t i n s o n , J . M., 1972, J u r a s s i c Rainier,
R. C . ,
R. W.; Cox, A . ,
74-243,
1977, P a l e o m a g n e t i c
22 p .
evidence
t h e Oregon Coast Range: Geology, v . 5 , n o . 10,
p.
for tectonic 585-589.
rotation
of
U.S.
Snavely,
P. D., J r . ;
W a g n e r , H. C . ,
O r e g o n and W a s h i n g t o n : Investigations
1 9 6 3 , T e r t i a r y g e o l o g i c h i s t o r y of
W a s h i n g t o n D i v i s i o n of Mines and G e o l o g y R e p o r t of
2 2 , 25 p .
S t o u t , M. W., 1 9 6 4 , G e o l o g y of a p a r t Washington:
Suppe, J . ;
of
the s o u t h - c e n t r a l
G e o l o g i c a l S o c i e t y of America B u l l e t i n ,
Powell,
C.;
Berry,
Quaternary volcanism,
R.,
1975, R e g i o n a l
and t h e p r e s e n t - d a y
A m e r i c a n J o u r n a l of S c i e n c e , v . 275 A, p .
S w a n s o n , D. A . , area,
Vance, J .
1964,
Cascade
topography,
tectonics
Mountains,
v . 75, p.
of
317-337.
seismicity,
the western United
r o c k s of
t h e T i e t o n River
Johns Hopkins U n i v e r s i t y P h . D .
t h e s i s , 334 p .
1 9 7 7 , E a r l y and m i d d l e C e n o z o i c magmatism and t e c t o n i c s ,
Mountains, Washington:
Vance, J . A.,
EOS ( A b s . ) ,
v. 58,
p.
Cascade
1247.
1 9 7 9 , E a r l y and m i d d l e C e n o z o i c a r c magmatism and t e c t o n i c s
Washington S t a t e :
Geological Society
States
397-436.
The m i d d l e and l a t e C e n o z o i c v o l c a n i c
s o u t h - c e n t r a l Washington:
A.,
western
of America A b s t r a c t s
in
with Programs
(in
press).
Vance, J .
A.;
volcanic of
N a e s e r , C. W., 1 9 7 7 , F i s s i o n r o c k s of
the c e n t r a l Cascade Mountains,
America A b s t r a c t s
Vance, J .
A.; M i l l e r ,
structure
t r a c k g e o c h r o n o l o g y of
with Programs, v . 9, no. 4,
R. B . ,
1 9 7 9 , The S t r a i g h t
in the Washington Cascades:
Washington: p.
the
Geological
Society
520.
Creek f a u l t - A m a j o r
Submitted
Tertiary
Cenozoic
to S.E.P.M. volume,
Cenozoic
over ocean r i d g e s :
Nature,
Paleogeography.
Vine, v.
F. J . ;
M a t h e w s , D. H . ,
199, p .
947-949.
1963, Magnetic a n o m a l i e s
Vogt, P. R.; oceanic
Lowrie, A.;
Bracey,
D. R . ; Hey, R. N . ,
r i d g e s - E f f e c t s on s h a p e ,
suming p l a t e
boundaries:
seismicity,
Geological Society
1 9 7 6 , S u b d u c t i o n of
and o t h e r
seismic
characteristics
of
con-
of A m e r i c a S p e c i a l P a p e r 1 7 2 , 59
A d d i t i o n s and Comments by Michael A. Korosec
I n 1979 g e o l o g i c mapping i n t h e White Pass-Tumac Mountain a r e a of t h e Washington c e n t r a l C a s c a d e s , and a d d i t i o n a l mapping c a r r i e d out i n 1980 f o r t h e a r e a to
the
n o r t h (up t o Bumping L a k e ) , has g i v e n us a b e t t e r i d e a of t h e type and e x t e n t of v o l c a n i s m e x p e r i e n c e d by t h i s r e g i o n .
Geoff C l a y t o n h a s been a b l e to
demonstrate
t h a t t h i s s e c t i o n of t h e Cascades i s p o s s i b l y a huge d o m e - l i k e s t r u c t u r e , which h a s e x p e r i e n c e d n e a r l y c o n t i n u o u s v o l c a n i s m from t h e Miocene, t h r o u g h t h e P l i o c e n e and Pleistocene,
a c t i v i t y which has c o n t i n u e d i n t o the H o l o c e n e .
time, there are indications moving s l o w l y t o t h e
Through t h i s p e r i o d of
t h a t t h e " c e n t e r " of t h e b u l k v o l c a n i c a c t i v i t y may be
north.
F u r t h e r s t u d i e s by C l a y t o n w i l l b e g i n s h e d d i n g l i g h t on t h e complex n a t u r e of
the
r o c k s and magmas b e n e a t h the s t r u c t u r a l dome, and may l e a d to t h e development of g e n e r a l magma mixing models and d e t e r m i n a t i o n s of what t y p e s of magma chambers e x i s t . today.
Beyond t h e 1980 f i e l d mapping, a d d i t i o n a l work c o u l d be c a r r i e d out i n the r e g i o n t o t h e s o u t h , i n c l u d i n g t h e Goat Rocks v o l c a n i c s .
Working w i t h
g e o l o g i s t s who a r e s t u d y i n g v o l c a n i c f i e l d s of t h e s o u t h C a s c a d e s , ( D r . Hammond, P o r t l a n d S t a t e U n i v e r s i t y i n p a r t i c u l a r ) ,
Paul
time-space-composition
f o r most of W a s h i n g t o n ' s Q u a t e r n a r y t o r e c e n t v o l c a n i s m might be worked
models out.
T h i s s h o u l d l e a d to a b e t t e r u n d e r s t a n d i n g of t h i s complex g e o l o g i c p r o v i n c e and t o new methods which w i l l a l l o w f o r s p e c i f i c t a r g e t i n g of volcanic-related
geothermal
resources.
potential
VII.
GEOTHERMAL INVESTIGATIONS IN THE CAMAS AREA, WASHINGTON, 1979
by
M i c h a e l A. K o r o s e c and J . Eric Schuster
D i v i s i o n of Geology and E a r t h R e s o u r c e s O l y m p i a , Washington
VII.
GEOTHERMAL INVESTIGATIONS IN THE CAMAS AREA, WASHINGTON, 1979 by M i c h a e l A. Korosec and J . E r i c
Schuster
Introduction The town of Camas, W a s h i n g t o n , i s l o c a t e d a l o n g the Columbia R i v e r west of Cascade M o u n t a i n s . w i t h i n t h e town.
Crown Z e l l e r b a c h C o r p o r a t i o n o p e r a t e s a l a r g e p u l p and paper This m i l l
S t a t e of W a s h i n g t o n . f o r geothermal
is
the l a r g e s t
As s u c h , t h e Camas a r e a became a v e r y d e s i r a b l e p l a c e to look
energy.
geothermal r e s o u r c e s .
t h e p o s s i b l e e x i s t e n c e of
The Lacamas F a u l t e x t e n d s n o r t h w e s t from t h e Columbia R i v e r
n e a r Camas, and can be t r a c e d a l o n g Lacamas Lake t o a p o i n t about 8 m i l e s T h r o u g h o u t t h e r e g i o n , s e v e r a l s m a l l c i n d e r cones dot t h e
These b a s a l t i c v o l c a n i c s , Pleistocene
in
northlandscape.
p a r t of t h e B o r i n g L a v a , a r e t h o u g h t to be e a r l y to middle
age.
The b e s t i n d i c a t o r s of p o s s i b l e g e o t h e r m a l r e s o u r c e s , h o w e v e r , were t h e of a warm s p r i n g and warm w e l l a c r o s s the Columbia R i v e r i n O r e g o n . spring,
mill
s i n g l e i n d u s t r i a l e n e r g y consumer i n t h e
There were a few g e o l o g i c i n d i c a t o r s which s u g g e s t
west of town.
the
C o r b e t t warm
f l o w i n g a b o u t 10 gpm a t 18°C, l i e s on an e x t e n s i o n of the s t r i k e of
Lacamas F a u l t , a b o u t 6 m i l e s s o u t h e a s t of t h e town.
existence
The Y.M.C.A. w e l l ,
the
located 3
m i l e s f a r t h e r s o u t h , i s 313 f e e t d e e p , and p r o d u c e s w a t e r w i t h a t e m p e r a t u r e of 22°C. When Na-K-Ca g e o t h e r m o m e t e r s a r e a p p l i e d t o t h e s e w a t e r s ( u s i n g b e t a = l / 3 ) , Warm s p r i n g s and t h e Y.M.C.A. w e l l a r e both p r e d i c t e d t e m p e r a t u r e s of 177°C. reservoir
temperatures
The Q u a r t z - S i l i c a
to have e q u i l i b r i u m
geothermometer p r e d i c t s
of 107° and 115°C f o r t h e s p r i n g and
Corbett reservoir
equilibrium
well.
The 1979 P r o j e c t To b e t t e r d e l i n e a t e
t h e g e o t h e r m a l p o t e n t i a l of
the Camas a r e a , t h e D i v i s i o n
s u b c o n t r a c t e d a g r a v i t y s u r v e y of t h e r e g i o n ( c o n d u c t e d by Dr. Z. F. Danes,
U n i v e r s i t y of P u g e t Sound) and a DC R e s i s t i v i t y Survey of t h e f a u l t zone by R. B. McEuen of E x p l o r a t i o n G e o t h e r m i c s , and F . A. Rigby of S c i e n c e Inc.).
The f i n a l r e p o r t
addition,
from the r e s i s t i v i t y
(conducted
Applications,
s u r v e y i s p r e s e n t e d i n Appendix C.
t h e D i v i s i o n measured t e m p e r a t u r e g r a d i e n t s
in e x i s t i n g wells, d r i l l e d
h e a t f l o w h o l e s based on t h e r e s u l t s of t h e r e s i s t i v i t y and g r a v i t y s u r v e y s ,
In two
and
r e s a m p l e d and a n a l y z e d t h e w a t e r s from t h e s p r i n g and w e l l a c r o s s the Columbia R i v e r i n Oregon.
Results Measurements c o n d u c t e d f o r e x i s t i n g w e l l s in t h e Camas a r e a y i e l d e d g r a d i e n t s of l e s s
t h a n 40°C/km,
temperature
t y p i c a l l y f a l l i n g between 2 5 ° and 35°C/km.
Two w a t e r
w e l l s l o c a t e d t o t h e e a s t of 122°10'W, a b o u t 15 t o 18 m i l e s e a s t of Camas,
produced
g r a d i e n t s of a b o u t 53 and 69°C/km. The two g r a d i e n t - h e a t
f l o w w e l l s d r i l l e d by t h e D i v i s i o n , Camas No. 1 and Camas
No. 2 , gave t e m p e r a t u r e g r a d i e n t s of 3 1 . 5 and 37°C/km.
The f o r m e r w e l l was
drilled
152 m e t e r s i n t o T e r t i a r y v o l c a n i c s and s e d i m e n t s and t h e l a t t e r , 72 m e t e r s d e e p , was e n t i r e l y In l a t e ( ? ) T e r t i a r y
sediments.
The r e s u l t s of the w a t e r a n a l y s e s f o r t h e C o r b e t t e S p r i n g and t h e Y.M.C.A. were v i r t u a l l y t h e same a s p r e v i o u s a n a l y s e s ( s e e t a b l e
well
4.2).
Discussion D e s p i t e t h e e x i s t e n c e of Q u a t e r n a r y v o l c a n i c r o c k s i n t h e a r e a , Camas seems to l i e w i t h i n t h e low h e a t
f l o w p r o v i n c e of t h e P u g e t Lowland, j u s t west of
t r a n s i t i o n zone which l e a d s t o t h e h i g h e r h e a t f l o w p r o v i n c e of the s o u t h
the Cascades.
The B o r i n g B a s a l t s , which c r o p out n e a r t h e town (Green M o u n t a i n , Brunner H i l l , w e s t of P r u n e H i l l ) ,
are very small c e n t e r s ,
too o l d to have r e t a i n e d any h e a t .
and They
a r e t h o u g h t to be anywhere from 100,000 t o 1 m i l l i o n y e a r s o l d , a s r e p o r t e d by various geologists.
Some of the m a t e r i a l exposed i n t h e road c u t s n e a r Prune H i l l
l o o k s f r e s h enough t o be younger than 100,000 y e a r s o l d , but no work has been done to
q u a l i f y the a c t u a l a g e .
( A l t h o u g h o r i g i n a l l y proposed a s p a r t of t h e
geothermal
i n v e s t i g a t i o n a t Camas, g e o l o g i c mapping and age d a t i n g of t h e m a t e r i a l i n t h e v i c i n i t y of Camas was dropped i n f a v o r of t h e r e s i s t i v i t y
s u r v e y , a recommendation
handed down by an ad hoc committee of U . S . Department of Energy, U.S. S u r v e y , Department of N a t u r a l R e s o u r c e s , and c o n s u l t i n g g e o l o g i s t s Camas
project.)
No m a t t e r what the a g e , i t a p p e a r s t h a t
Geological
interested
in the
t h e s o u r c e s of magma f o r
t h e s e v o l c a n i c s were e i t h e r v e r y s m a l l or v e r y d e e p , and have s i n c e cooled and discontinued supplying heat to the
surface.
From p r e v i o u s mapping, t h e o n l y o t h e r s i g n i f i c a n t v o l c a n i c c e n t e r i s the Boring Basalt field at Battleground,
a b o u t 12 t o 14 m i l e s (20 t o 23 km) n o r t h of t h e town.
There have been a few rumors of t h e e x i s t e n c e of warm w a t e r w e l l s i n t h e a r e a , b u t none have been f o u n d .
The two w e l l s t h a t were deep enough t o measure
t h a t a r e a , o n l y 1 and 2 m i l e s from t h e v o l c a n i c s ,
T e m p e r a t u r e g r a d i e n t s do not s t a r t
in
produced t e m p e r a t u r e g r a d i e n t s of
25° and 40° C/km, s i m i l a r t o t h e low g r a d i e n t s found t h r o u g h o u t t h e
region.
t o i n c r e a s e s i g n i f i c a n t l y u n t i l one moves
a b o u t 15 t o 18 m i l e s e a s t t o a b o u t S k a m a n i a . flow p i c t u r e for southwestern Washington. mWatts/m 2
Battleground
F i g u r e 3 . 4 shows t h e c o n t o u r e d
heat
Camas f a l l s between t h e 40 and 50
contours.
D e s p i t e l y i n g w i t h i n a low h e a t f l o w p r o v i n c e , w i t h l i t t l e from a v o l c a n i c system,
i t was s t i l l
chance of t a p p i n g
p o s s i b l e t h a t deep s e a t e d s t r u c t u r e s ,
heat
like
f a u l t s or f r a c t u r e z o n e s , m i g h t have been a l l o w i n g r e l a t i v e l y moderate to h i g h t e m p e r a t u r e f l u i d s to m i g r a t e from d e e p e r d e p t h s i n t o s h a l l o w e r The Lacamas F a u l t was a l i k e l y c a n d i d a t e f o r t h i s , and w e l l r e c o g n i z e d f a u l t i n t h e a r e a . extending s t r u c t u r a l
features across
O r e g o n , i t was c u r i o u s of
that
it
being t h e most
Though many g e o l o g i s t s c a u t i o n
extensive against
t h e Columbia R i v e r between Washington and
C o r b e t t S t a t i o n warm s p r i n g s h o u l d f a l l on an e x t e n s i o n
the s t r i k e of the Lacamas F a u l t .
p a r t of t h e f a u l t ,
aquifers.
But even if t h i s warm s p r i n g i s c o n t r o l l e d
by
does not n e c e s s a r i l y mean t h a t warm w a t e r s a r e r i s i n g a l o n g
the
entire
l e n g t h of
the f a u l t ,
area.
The two a r e a s a r e
e s p e c i a l l y 6 t o 10 m i l e s
separated
very poorly understood.
to the northwest
by t h e C o l u m b i a R i v e r ,
Most g e o l o g i s t s
hesitate
i n t h e Camas
a m a j o r s t r u c t u r e which
projecting anything across
is
this
structure. None of
the temperature
suggesting that fault,
I n an e f f o r t
anomalies.
ohm-meters,
consisted
( j u s t n o r t h of
of
possible
These a n o m a l i e s ,
the town),
and t h e n o r t h e r n
Drill holes
the
located
gravels,
resistivity
identified
located
layers
of
north
resistive
lows w e r e m o d e l e d a s a l e s s
the (see
two a r e a s
lows w i t h v a l u e s of a b o u t
with
10 study
of Lacamas L a k e . and
The
conductive
complex, homogeneous
in close and h e a t
proximity flow,
to the c e n t e r s
similar
of
section
these anomalies
to v a l u e s measured
in existing
(at
least of
in
part)
is
likely
that
by " c l a y " z o n e s w i t h i n
the T r o u t d a l e
the T r o u t d a l e ,
it
and a s s u g g e s t e d
but
Formation.
t h e b a s a l t was p a r t and g r a v e l s u n d e r l i e
of
produced wells
the
formation,
c o n d u c t i v e and r e s i s t i v e
fitting strata.
it
materials
the r e s i s t i v i t y
bottomed
in basalt
lows
are
sands,
The n o r t h e r n h o l e was
the southern hole
the Skamania V o l c a n i c s ,
by
the T e r t i a r y
e i t h e r Miocene Columbia R i v e r complex or e a r l y P l e i s t o c e n e
alternating
local
t o w a r d s t h e s o u t h end on t h e
and a b r o a d e r a r e a
g e o l o g i c mapping i n the a r e a ,
and b r e c c i a s
e n t i r e l y within
the
o u t by a s u b c o n t r a c t o r
the r e s u l t s
small area
during the d r i l l i n g o p e r a t i o n ,
being produced
increase
the
region.
From a v a i l a b l e collected
along
points
ground.
only average gradients throughout
only i s o l a t e d
z o n e s of warm w a t e r u p w e l l i n g a l o n g
e a r t h m o d e l i n g of
of a r e l a t i v e l y
f a i r l y conductive
anomalous,
enough to a p p r e c i a b l y
s o u t h e r n a n o m a l y was m o d e l e d a s a l t e r n a t i n g material,
t h e town w e r e a t a l l
s u r v e y was d e s i g n e d and c a r r i e d
Two-dimensional
resistivity
area
significant
to pinpoint
a D.C. r e s i s t i v i t y
Appendix C ) .
measured near
warm w a t e r was f l o w i n g upward a t
t h e e f f e c t s were not
gradients. fault,
if
gradients
drilled ( w h i c h was
"Skamania V o l c a n i c s " ) .
is possible
that Troutdale
the two-dimensional
resistivity
If
clays model of
Conclusions The 1979 g e o t h e r m a l a s s e s s m e n t program i n the Camas a r e a did not f i n d any i n d i c a t i o n t h a t s i g n i f i c a n t g e o t h e r m a l r e s o u r c e s u n d e r l i e t h e Camas a r e a a t depths.
The r e s u l t s a l s o s u g g e s t t h a t
resources at intermediate
t h e r e a r e no l a r g e anomalous
to deeper d e p t h s .
t e m p e r a t u r e g r a d i e n t s and low h e a t
shallow
geothermal
The a r e a i s c h a r a c t e r i z e d
by a v e r a g e
flow.
I f economics d i c t a t e d t h a t p r o d u c t i o n w e l l s be 8 , 0 0 0 f e e t ( 2 . 4 km) deep f o r Crown Z e l l e r b a c h P a p e r M i l l P r o j e c t ,
t e m p e r a t u r e s e n c o u n t e r e d a t t h e bottoms of
the such
h o l e s may be in t h e r a n g e of 95 t o 115°C ( u s i n g t e m p e r a t u r e g r a d i e n t s of 35 t o 40°C/km).
I n o r d e r to r e a c h t h e t a r g e t e d t e m p e r a t u r e used in e a r l y
feasibility studies,
180°C, p r o d u c t i o n h o l e s would need to be d r i l l e d
14,000 t o 16,000 f e e t ( 4 . 2 t o 4 . 8 k m ) .
In a d d i t i o n ,
f l o w i n g a q u i f e r s e x i s t a t any of t h e s e d e p t h s .
project to d e p t h s of
t h e r e i s no g u a r a n t e e
O r i g i n a l s t u d i e s assumed t h e r e would
be f r a c t u r e z o n e s , a s s o c i a t e d w i t h t h e Lacamas F a u l t which would s e r v e a s There i s p r e s e n t l y no i n f o r m a t i o n on t h e n a t u r e of the Lacamas F a u l t or zones a t
that
aquifers. its
fracture
depth.
With what we know a t t h i s p o i n t i n t i m e , i t can be e c o n o m i c a l l y u t i l i z e d a t Camas.
i s u n l i k e l y that geothermal
resources
With so l i t t l e e n c o u r a g i n g i n f o r m a t i o n and so
much d i s c o u r a g i n g d a t a , t h e D i v i s i o n h a s no i n t e n t i o n of f u r t h e r p u r s u i n g any g e o t h e r m a l p r o j e c t s in t h e Camas a r e a .
VIII.
GEOTHERMAL ASSESSMENT OF MOUNT ST. HELENS, WASHINGTON, 1979
by
M i c h a e l A. K o r o s e c and J . Eric
Schuster
D i v i s i o n of Geology and E a r t h R e s o u r c e s O l y m p i a , Washington
VIII.
GEOTHERMAL ASSESSMENT OF MOUNT ST. HELENS, WASHINGTON, 1979 by M i c h a e l A. Korosec and J . E r i c
Schuster
Introduction The reawakened Cascade s t r a t o v o l c a n o Mount S t . Helens was a prime g e o t h e r m a l t a r g e t of t h e D i v i s i o n of Geology and E a r t h R e s o u r c e s i n 1979, p r i o r t o mountain's eruption.
Mount S t . Helens was known t o be a young v o l c a n o , h a v i n g
observed to erupt in h i s t o r i c a l and ended i n 1857.
time.
been
The p r e v i o u s v o l c a n i c e p i s o d e began a b o u t 1842
While o t h e r Cascade s t r a t o v o l c a n o e s
f e s t a t i o n s of e x i s t i n g t h e r m a l a c t i v i t y ,
e x h i b i t e d more s u r f a c e m a n i -
such a s Mount Baker w i t h i t s
large
f u m a r o l e s i n Sherman C r a t e r , Mount S t . Helens became t h e most a t t r a c t i v e p a r t b e c a u s e of i t s
the
land s t a t u s and p r o x i m i t y t o p o p u l a t i o n c e n t e r s .
steaming
target
in
The land
o w n e r s h i p in t h e r e g i o n , ( r o u g h l y 1 / 3 US F o r e s t S e r v i c e , 1 / 3 S t a t e l a n d s , and 1 / 3 private),
and i t s
p r o x i m i t y to t h e c i t i e s of V a n c o u v e r , P o r t l a n d , Longview,
and C a s t l e Rock, p l a c e d Mount S t . Helens a t t h e t o p of t h e l i s t ,
Kelso,
ahead of the more
remote s t r a t o v o l c a n o e s , most of which a r e l o c k e d up in N a t i o n a l P a r k s or W i l d e r n e s s Areas. D u r i n g 1979, t h e D i v i s i o n i n i t i a t e d a g e o t h e r m a l a s s e s s m e n t of Mount S t . w i t h an e x a m i n a t i o n of a v a i l a b l e
literature.
A g r a v i t y s u r v e y was c a r r i e d out by
Dr. Z. F. Danes, as p a r t of a b r o a d e r s u r v e y of t h e e n t i r e s o u t h C a s c a d e s , of on and around t h e f l a n k s , and d r i l l i n g
springs
t h r e e 125 t o 155 m e t e r cased d r i l l h o l e s
t h e p u r p o s e s of m e a s u r i n g t e m p e r a t u r e g r a d i e n t s and c a l c u l a t i n g h e a t From the l i t e r a t u r e ,
Helens
and from d i s c u s s i o n s w i t h l o c a l r e s i d e n t s
for
flow.
f a m i l i a r with
m o u n t a i n , t h e o n l y e x i s t i n g t h e r m a l s u r f a c e f e a t u r e s I n c l u d e d warm ground a t t h e
the site
of a r e p o r t e d f u m a r o l e n e a r t h e Boot on t h e upper n o r t h f l a n k a t an e l e v a t i o n of 2740
m e t e r s (9040 f e e t )
(Phillips,
1942; F r i e d m a n and F r a n k , 1 9 7 7 ) , warm ground on t h e
u p p e r s o u t h w e s t f l a n k a t an e l e v a t i o n between 2650 and 2750 m ( a b o u t 8800 f e e t ) a l o n g a c o n t a c t of t h e d a c i t e summit dome (Friedman and F r a n k ,
1 9 7 7 ) , warm ground
a l o n g t h e s o u t h e r n b a s e of Pumice B u t t e on t h e P l a i n s of Abraham, warm ground n e a r t h e u p p e r r e a c h e s ( n o r t h e r n s e c t i o n ) of t h e Ape Caves a r e a , and warm ground n e a r
the
t e r m i n o u s of the F l o a t i n g I s l a n d Lava Flow. The warm ground a r e a s n e a r t h e summit were d e t e c t a b l e
by a e r i a l
thermal
Infrared
s u r v e y s in 1966 (Moxham, 1970) and c o n f i r m e d by a e r i a l p h o t o g r a p h y and ground
verifi-
c a t i o n i n e a r l y 1972 ( F r i e d m a n and F r a n k ,
have
o n l y been c o n f i r m e d by o b s e r v a t i o n s
1977).
The o t h e r warm ground a r e a s
of l o c a l r e s i d e n t s
in the a r e a .
They have
r e p o r t e d deep h o l e s t h r o u g h t h e snow c o v e r , o v e r r e l a t i v e l y e x t e n s i v e a r e a s i n some c a s e s , a t t h e bottoms of which g r e e n g r a s s and p l a n t s grew y e a r a r o u n d . reason to question these o b s e r v a t i o n s ,
e s p e c i a l l y t h e o c c u r r e n c e a t t h e t e r m i n u s of
t h e F l o a t i n g I s l a n d Lava Flow, where t h e r e was a l s o r e p o r t e d elk
There i s no
t o be s u l f u r fumes and
licks.
Results S e v e r a l s p r i n g s were sampled d u r i n g t h e l a t e summer and f a l l around Mount Helens.
A l l were c o l d , w i t h v e r y low d i s s o l v e d s a l t s .
St.
A p a r t i a l a n a l y s i s of
these
w a t e r s was c a r r i e d o u t by t h e a u t h o r , and o n l y v e r y low l e v e l s of normal ground w a t e r i o n s (Na, K, Ca, S i O 2 , HCO3, and C l ) w i t h no l i t h i u m were d e t e c t e d .
Most s p r i n g s on
Mount S t . H e l e n s f l o w e d o u t f r o m l a v a f l o w s , such a s Kalama S p r i n g s on t h e s i d e and Moss S p r i n g s on the s o u t h e a s t
side.
The w a t e r s p r o b a b l y o r i g i n a t e
southwest as
m e t e o r i c w a t e r from snow and g l a c i a l i c e m e l t s , which f l o w t h r o u g h t h e l a v a f l o w s to t h e lower s l o p e s .
The w a t e r s p r o b a b l y n e v e r p e n e t r a t e deep enough to be h e a t e d
possible heat sources. prevent
This i d e a l i z e d
s h e e t f l o w of w a t e r down t h e f l a n k s may
t h e d e t e c t i o n of t h e r m a l f e a t u r e s a t
d i l u t i n g any h o t w a t e r s
by
that are convected
the s u r f a c e by d i s s i p a t i n g
upward.
the heat
and
FIGURE 8 . 1 . — T e m p e r a t u r e v s . d e p t h p r o f i l e s f o r M o u n t S t . H e l e n s drill
holes.
From m i d - S e p t e m b e r 1979 t h r o u g h mid-November 1979, t h r e e h e a t f l o w h o l e s were d r i l l e d around Mount S t . H e l e n s .
S t . Helens D r i l l Hole No. 1 (SHDH 1) was l o c a t e d
a l o n g t h e n o r t h s i d e of S t a t e Route 504 ( a l s o known a s t h e S p i r i t Lake Road) a t
the
S t u d e b a k e r Creek Road t u r n o f f
( T . 9 N . , R. 5 E . , NW1/4NW1/4 s e c t i o n 1 8 ) , a b o u t 8 km
north-northwest
The h o l e was f i n i s h e d and cased to a d e p t h of 125
meters.
of t h e p a r k .
The bottom h o l e t e m p e r a t u r e was measured t o 9.9°C and a r e l a t i v e l y
l i n e t e m p e r a t u r e g r a d i e n t was d e t e r m i n e d t o be 19°C/km.
straight
The s i t e was d e s t r o y e d by
t h e May 18, 1980 e r u p t i o n and now l i e s below 50 t o 80 m e t e r s of d e b r i s and pyroclastic
flows.
S t . Helens D r i l l Hole No. 2 (SHDH2) i s l o c a t e d above Goat Marsh on USFS Road N847, 8 km s o u t h e a s t from t h e f o r m e r summit.
The h o l e was completed a t a d e p t h of 154
m e t e r s , p r o d u c i n g a b o t t o m h o l e t e m p e r a t u r e of 8 . 2 ° C and a g r a d i e n t of 38°C/km. drill
s i t e seems t o have been s p a r e d by t h e f i r s t y e a r of e r u p t i v e
This
activity.
S t . Helens D r i l l Hole No. 3 (SHDH3) i s l o c a t e d n e a r t h e west end of an unnamed marsh, s o u t h - s o u t h e a s t
of the summit, i n a borrow p i t q u a r r y a l o n g t h e Marble
Mountain Road (USFS Road N809).
The s i t e i s a b o u t 8 km from t h e f o r m e r summit.
h o l e was c o m p l e t e d a t a d e p t h of 131 m e t e r s , b u t o n l y a f t e r c o n s i d e r a b l e b e c a u s e of poor d r i l l i n g c o n d i t i o n s .
difficulties
The f i r s t t e m p e r a t u r e measurements were made
May 3 , 1980, j u s t o v e r one month a f t e r t h e i n i t i a l
phreatic eruptions
two weeks b e f o r e t h e c a t a s t r o p h i c e r u p t i o n of May 18.
(March 2 7 ) and
The t e m p e r a t u r e measured
d e p t h v a r i e d by o n l y a b o u t 1°C t h e e n t i r e l e n g t h of t h e h o l e ( v i r t u a l l y a t t h e v e r y c o l d t e m p e r a t u r e of a b o u t 4°C. a c c e s s by r o a d s h a s been c u t o f f
The
The s i t e i s p r o b a b l y s t i l l
by mudflows from t h e v o l c a n o ' s
at
isothermal), preserved,
but
flanks.
Discussion The r e l a t i v e l y low t e m p e r a t u r e g r a d i e n t s of t h e Mount S t . Helens d r i l l r e s u l t e d i n s i m i l a r l y low h e a t f l o w .
holes
Hole SHDH 2 h a s a c a l c u l a t e d h e a t f l o w of
54 mW/m2, r e p r e s e n t i n g an e x p e c t e d r e g i o n a l v a l u e .
The SHDH 1 h e a t f l o w of 38 mW/m2
i s more t y p i c a l
of
h i g h d e g r e e of regime
doubt as to whether
than the Cascade Mountains.
these holes
( u n a f f e c t e d by a n o m a l o u s c o n d i t i o n s
the r e s u l t All rocks
the P u g e t Lowland
of
local hydrological
t o be c o l l a r e d
(Eocene to Oligocene a g e ) . basalt
and a n d e s i t e
than the younger m a t e r i a l these Tertiary
The r o c k s
lavas,
with t e r r a i n
of
complications.
But c o n s i d e r i n g
that
Q u a t e r n a r y r o c k s , and n o t i n g
the e x i s t e n c e
site
of
several
least
that
the area,
not
s p h e r e of
fall
water. are
proximity
to
the Toutle River could in
t h i s water is
rocks as w e l l
cold springs within
likely
as the
valley
flow In the
below the
have
c u t down t o
f l o w w o u l d be g r e a t l y
area
reduced,
at
" b l a n k e t " of
f l o w m e a s u r e m e n t s makes i t regional heat
the a c t u a l
thermal regime e x i s t i n g
conditions.
difficult
to give a f a i r
evaluation
flow.
drilled collared
into
In a d d i t i o n ,
t h e Ohanapecosh f o r m a t i o n ,
i n Marble Mountain v o l c a n i c s ,
it
is
despite
believing
likely that
In
But t h e a b s e n c e of
The same h y d r o l o g i c c o n d i t i o n s w h i c h a r e p o s s i b l y a t work n e a r SHDH 1 a r e d e f i n i t e l y o c c u r r i n g a t SHDH 3 .
cold
influence.
s i g n i f i c a n t l y a f f e c t e d by h y d r o l o g i c
SHDH 2 i n t h e c o n t e x t of
result,
c o u l d be t a k e n c a r e o f ,
to p e n e t r a t e
a t SHDH 2 m o s t l i k e l y r e p r e s e n t
any o t h e r n e a r b y h e a t of
holes
its
f l o w ) , any a n o m a l o u s h e a t
regional heat
The r e s u l t s
As a
t h e a r e a a s an open v a l l e y ,
w o u l d be w i p e d o u t , and t h e a c t u a l when m e a s u r e d i n d r i l l
but
flows through the T e r t i a r y
(suggesting vertical
g r o u n d w a t e r and i t s
volcanoclastics
f l o w of g r o u n d
t h e s o u r c e of much of
that
the d r i l l
rock,
This s i t u a t i o n
very cold g l a c i a l melt water
near
are
rocks.
t h e N o r t h F o r k of
c o r r e c t i o n s which t r e a t
some a s s u m e d d e p t h .
p e r c e n t a g e of
permeable to v e r t i c a l
through T e r t i a r y
p o s s i b l y deep Q u a t e r n a r y v a l l e y f i l l
part,
are
volcanic
beyond t h e l o w e r f l a n k s of Mount S t . H e l e n s
SHDH 1 was d e f i n i t e l y d r i l l e d
in hydrologic
Ohanapecosh
from the nearby Quaternary s t r a t o v o l c a n o .
just
flow
or whether the values
in the surrounding outcrops
t o p o g r a p h i c h i g h s or i s l a n d s above t h e Q u a t e r n a r y
resulted
the true regional heat
in Tertiary
with a smaller
rocks are i d e a l l y l e s s
The O h a n a p e c o s h o u t c r o p s
in the a r e a ) ,
a
problems.
t h r e e h o l e s were t h o u g h t
zeolitized
represent
There i s s t i l l
that
t h e h o l e was
t h e h o l e was
a m i d - Q u a t e r n a r y u n i t known t o
actually occur
t h r o u g h o u t t h e a r e a t o t h e s o u t h w e s t and s o u t h e a s t of SHDH 3 .
Rubbly
volcanoclastics
e n c o u n t e r e d b e n e a t h c o h e r e n t f l o w r o c k s may be a n c i e n t d e p o s i t s from a v e r y e a r l y Mount S t . H e l e n s or some o t h e r nearby Q u a t e r n a r y v o l c a n i c Assuming t h a t t h e r e s u l t s
center.
from SHDH 1 and 2 a r e c l o s e to t h e a c t u a l h e a t f l o w of
t h e a r e a , t h e r e g i o n a l h e a t f l o w s e t t i n g of Mount S t . Helens can be d i s c u s s e d r e s p e c t t o t h e r e s t of t h e s o u t h w e s t C a s c a d e s .
with
The map i n F i g u r e 3 . 4 ( i n c h a p t e r
p r e s e n t s a c o n t o u r e d p i c t u r e of t h e r e g i o n a l h e a t f l o w .
A sharp t r a n s i t i o n
3),
exists
between t h e Western Washington Region (Puget Lowland P r o v i n c e ) and t h e South Cascades Region.
This t r a n s i t i o n
r u n s r o u g h l y n o r t h - s o u t h , f r o m t h e Skamania a r e a on t h e
Columbia R i v e r , c r o s s i n g t h e C o w l i t z R i v e r v a l l e y between t h e towns of Morton and R a n d l e , and e x t e n d i n g f u r t h e r n o r t h on t h e west s i d e of Mount R a i n i e r N a t i o n a l Mount S t . Helens a p p e a r s to f a l l w i t h i n t h i s t r a n s i t i o n
zone.
Park.
R e s u l t s from a few
d r i l l h o l e s on t h e e a s t s i d e of Mount S t . Helens would be needed to c o n f i r m t h i s . At Mount S t . Helens i t s e l f , l o c a l heat flow regime.
t h e t h r e e d r i l l h o l e s had o n l y begun t o examine
The d i s c o u r a g i n g r e s u l t s by no means p r e c l u d e t h e
e x i s t e n c e of g e o t h e r m a l r e s o u r c e s beyond t h e f l a n k s of t h e v o l c a n o . i n v o l v e d i s r o u g h l y 200 t o 300 s q u a r e k i l o m e t e r s , most of which i s untested.
the
possible
The a r e a virtually
The p o t e n t i a l f o r anomalous t h e r m a l c o n d i t i o n s or g e o t h e r m a l r e s e r v o i r s
is
c o n c e p t u a l l y q u i t e h i g h , e s p e c i a l l y i n l i g h t of t h e v o l c a n o ' s 1980 e r u p t i o n s . Conclusions The 1979-80 g e o t h e r m a l a s s e s s m e n t e f f o r t added g r e a t l y to the r e l a t i v e l y
scant
g e o t h e r m a l and h y d r o l o g i c d a t a b a s e s f o r Mount S t . H e l e n s , but did not i d e n t i f y a g e o t h e r m a l r e s o u r c e or i n d i c a t e t h e impending e r u p t i o n of the v o l c a n o .
There may
i n d e e d be l a r g e h o t w a t e r r e s e r v o i r s a s s o c i a t e d w i t h t h i s v o l c a n i c s y s t e m , but e x i s t e n c e has y e t t o be In a d d i t i o n ,
demonstrated.
t h e 1980 e r u p t i o n s of the v o l c a n o have p r o v i d e d a w e a l t h of
i n f o r m a t i o n which has h e l p e d d e v e l o p a b e t t e r u n d e r s t a n d i n g of t h e
structural,
t h e r m a l , and h y d r o l o g i c s y s t e m s a s s o c i a t e d w i t h t h e v o l c a n o .
enhanced
This
their
u n d e r s t a n d i n g w i l l p r o v i d e new ways of v i e w i n g o t h e r Cascade s t r a t o v o l c a n o e s ,
and
w i l l h a v e an i m p o r t a n t impact on how t h e i r h y d r o t h e r m a l s y s t e m s w i l l be e x p l o r e d . Some of t h e d e v e l o p i n g c o n c e p t s
include:
( 1 ) A v o l c a n o c o n t i n u e s t o be a c t i v e
through g e o l o g i c time only because i t keeps i t s between e r u p t i o n s . condition.
That
is,
the conduit
country rock.
"open" t o some s h a l l o w d e p t h
r e m a i n s in a s e m i - m o l t e n or
Each e r u p t i o n r e - s u p p l i e s h e a t
which i s s l o w l y d i s s i p a t e d
conduit
plastic
t o t h e u p p e r p o r t i o n of t h e c o n d u i t ,
t h r o u g h c o n d u c t i o n and c o n v e c t i o n to t h e
heat
surrounding
P r e l i m i n a r y i n d i c a t i o n s f r o m t h e s e i s m i c i n f o r m a t i o n p r o v i d e d by Mount
S t . Helens are t h a t these " p l a s t i c " c o n d i t i o n s e x i s t e d under the volcano.
t o w i t h i n 5 km of t h e
surface
T h e r e f o r e , v e r y h i g h t e m p e r a t u r e s a r e m a i n t a i n e d t h r o u g h time a t
a r e l a t i v e l y s h a l l o w d e p t h w i t h o u t t h e f o r m a t i o n of a s h a l l o w magma c h a m b e r .
(2)
P r o b a b l y a l l of t h e Q u a t e r n a r y s t r a t o v o l c a n o e s m a i n t a i n a h y d r o t h e r m a l s y s t e m w i t h i n t h e e d i f i c e of t h e cone i t s e l f . confirms t h i s .
The e x i s t e n c e of f u m a r o l e s on most of t h e cones
These s y s t e m s may be v e r y s m a l l and p r o b a b l y c o o l q u i t e
through time.
rapidly
Because of t h e p r o b l e m s of a c c e s s ( d i f f i c u l t t e r r a i n and c l o s u r e s
to land s t a t u s ) , stratovolcanoes
and b e c a u s e of t h e g e o l o g i c h a z a r d s a s s o c i a t e d w i t h many of (the constant
t h r e a t of e r u p t i o n ,
f o r example) i t
( 3 ) The Mount S t . H e l e n s e r u p t i o n s have p r o v i d e d e v i d e n c e t h a t may be s t r u c t u r a l l y c o n t r o l l e d . for microearthquakes
in the v i c i n i t y
structure
running through the s t r a t o v o l c a n o
location
a p l o t of
suggested a north-northwest
(see f i g u r e 8 . 2 ) .
that
resources.
the v o l c a n o ' s
Even b e f o r e t h e c u r r e n t a c t i v i t y ,
epicentus
the
is unlikely
t h e s e i n t r a - c o n e h y d r o t h e r m a l s y s t e m s w i l l e v e r become v i a b l e commercial
the
trending
E p i c e n t u s of
e a r t h q u a k e s a s s o c i a t e d w i t h t h e 1980 e r u p t i o n s have c o n f i r m e d t h i s , d e l i n e a t i n g right-lateral
strike-slip
f a u l t system.
C r u s t a l s t r u c t u r e s associated with
may p r o v i d e a means by which g e o t h e r m a l f l u i d a s s o c i a t e d w i t h deep s y s t e m s the volcano could migrate
The
beneath verti-
resulting
h y d r o t h e r m a l r e s e r v o i r s w i l l have a much g r e a t e r p r a c t i c a l and economic v a l u e , t h e t r u e e n e r g y p o t e n t i a l of such a r e s o u r c e h a s y e t t o be d e m o n s t r a t e d
a
volcanoes
l a t e r a l l y out f r o m t h e v o l c a n i c s y s t e m and p o s s i b l y
c a l l y t o r e l a t i v e l y s h a l l o w d e p t h s beyond t h e f l a n k s of t h e v o l c a n o .
Cascades.
due
in the
but
FIGURE 8 . 2 . — E a r t h q u a k e h y p o c e n t e r s n e a r M o u n t S t . H e l e n s f r o m 1971 t h r o u g h Data from R o b e r t S . C r o s s o n
( U n i v e r s i t y of W a s h i n g t o n )
1978
IX.
BIBLIOGRAPHY OF GEOTHERMAL RESOURCE INFORMATION FOR THE STATE OF WASHINGTON
by
M i c h a e l A. K o r o s e c 1980 D i v i s i o n of Geology and E a r t h R e s o u r c e s O l y m p i a , Washington
C h a p t e r IX B i b l i o g r a p h y of G e o t h e r m a l R e s o u r c e I n f o r m a t i o n f o r t h e S t a t e of Washington
Armstrong, J . E.; C r a n d e l l ,
D. R . ; E a s t e r b r o o k , D. J . ;
Noble, J . B . ,
L a t e P l e i s t o c e n e s t r a t i g r a p h y and c h r o n o l o g y i n s o u t h w e s t e r n
1965,
Washington:
G e o l o g i c a l S o c i e t y of America B u l l e t i n , v . 7 6 , n o . 3 , p . 3 2 1 - 3 3 0 .
B a n k s , N. G.; B e n n e t t , C. A . ; S c h m i d t , J . H . , 1978, Maps of photo l i n e a m e n t s and geomorphic f e a t u r e s i n t h e S p i r i t Lake q u a d r a n g l e , W a s h i n g t o n :
U.S.
G e o l o g i c a l Survey O p e n - F i l e R e p o r t 7 8 - 5 0 5 , 2 s h e e t s .
B l a c k w e l l , D. D . , 1969, H e a t - f l o w d e t e r m i n a t i o n s States:
in the northwestern United
J o u r n a l of G e o p h y s i c a l R e s e a r c h , v . 7 4 , n o . 4 , p . 9 9 2 - 1 0 0 7 .
B l a c k w e l l , D. D., 1974, T e r r e s t r i a l h e a t - f l o w and l o c a t i o n of g e o t h e r m a l r e s e r v o i r s
its
in Washington.
implications
on the
I n Energy r e s o u r c e s of
W a s h i n g t o n , Washington D i v i s i o n of Geology and E a r t h R e s o u r c e s C i r c u l a r 5 0 , p.
Information
21-33.
B l o o m q u i s t , R. G . , 1979, G e o t h e r m a l e n e r g y in Washington - S i t e d a t a base and development s t a t u s :
Oregon I n s t i t u t e
of Technology Geo-Heat
Utilization
C e n t e r , U . S . Department of E n e r g y , DE-AC03-79SF1049, 192 p .
Bockheim, J . G.; B a l l a r d , Baker, Washington: 5, p.
T. M., 1975, Hydrothermal s o i l s of the c r a t e r of Mount
S o i l S c i e n c e S o c i e t y of America P r o c e e d i n g s , v . 39,
997-1001.
B o n i n i , W. E . , 1965, G r a v i t y s u r v e y s i n t h e n o r t h w e s t e r n U n i t e d American G e o p h y s i c a l Union T r a n s a c t i o n s , v . 4 6 , n o . 3 , p.
States:
563-569.
no.
B o n i n i , W. E . ;
H u g h e s , W. D . ;
Danes, Z. F . ,
a n o m a l y map of W a s h i n g t o n :
Washington D i v i s i o n
R e s o u r c e s G e o l o g i c Map GM-11,
Braile,
thesis,
37
Washington S t a t e :
T.;
of G e o l o g y and E a r t h
conditions
and c r u s t a l University
structure
of Mount
of W a s h i n g t o n
St.
M.S.
p.
R . W.; Shaw, G. H . ;
Cantwell,
gravity
1:500,000.
from g r a v i t y d a t a :
C a m p b e l l , K. V . ; M i e r s , J .
H.;
Nichols,
Gresens,
R. L . ,
Northwest
B. M.; O l i p h a n t , J . ; 1 9 7 0 , A s u r v e y of
Science,
N e l s o n , P . ; Webb, J . ;
in the P a c i f i c Northwest: p.
scale
L . W., 1 9 7 0 , The i s o s t a t i c
Helens as determined
1974, Complete Bouguer
v. 44,
Orange, A.,
p.
Pytlak,
S.;
Race,
thermal springs
in
1-11.
1 9 6 5 , Deep r e s i s t i v i t y
J o u r n a l of G e o p h y s i c a l R e s e a r c h ,
v. 70,
measurements no.
8,
1931-1937.
Cantwell,
T.; Orange, A.,
P a c i f i c Northwest:
C o n d i e , K. C . ; strata
1965,
Further
deep r e s i s t i v i t y
J o u r n a l of G e o p h y s i c a l R e s e a r c h ,
S w e n s o n , D. H . ,
1973, C o m p o s i t i o n a l
volcanoes - J e f f e r s o n , Rainier,
Volcanologique,
Coombs, H. A . ,
v. 37,
no. 2,
p.
measurements v.
70,
variations
and S h a s t a :
the
n o . 16, p.
in t h r e e
4068-4072.
Cascade
Bulletin
205-230.
1 9 3 6 , The g e o l o g y of Mount R a i n i e r N a t i o n a l P a r k :
of W a s h i n g t o n P u b l i c a t i o n s
in
in Geology,
v. 3,
no. 2,
p.
University
131-212.
Coombs, H. A . ,
1 9 3 9 , Mount B a k e r , a C a s c a d e v o l c a n o :
America B u l l e t i n v . 50,
Crandell,
D. R . ,
Washington:
Crandell,
D. R . ,
D. R . ,
Washington:
Crandell,
D. R . ,
p.
U.S. Geological Survey B u l l e t i n
1 9 6 9 , The g e o l o g i c
of
1493-1509.
1 9 6 9 , S u r f i c i a l g e o l o g y of Mount R a i n i e r N a t i o n a l
Survey B u l l e t i n
Crandell,
no. 10,
Geological Society
Park,
1 2 8 8 , 41 p .
s t o r y of Mount R a i n i e r :
U.S.
Geological
1 2 9 2 , 43 p .
1971, P o s t - g l a c i a l
lahars
f r o m Mount R a i n i e r
volcano,
U . S . G e o l o g i c a l S u r v e y P r o f e s s i o n a l P a p e r 6 7 7 , 75 p .
1 9 7 3 , Map s h o w i n g p o t e n t i a l
Mount R a i n i e r , W a s h i n g t o n :
h a z a r d s from f u t u r e e r u p t i o n s
U . S . G e o l o g i c a l S u r v e y Map 1 - 8 3 6 ,
of
scale
1:250,000.
Crandell,
D. R . ,
volcanic scale
Crandell,
eruptions
in Washington:
of p o t e n t i a l
hazards from f u t u r e
U . S . G e o l o g i c a l S u r v e y Map MF-774,
1:1,000.
D. R . ; M u l l i n e a u x ,
Mount S t .
Crandell,
1976, P r e l i m i n a r y a s s e s s m e n t
D. R . ,
Helens, Washington:
D. R . ; M u l l i n e a u x ,
D. R . ,
1973, Pine Creek v o l c a n i c
at
U . S . G e o l o g i c a l S u r v e y B u l l e t i n 1 3 8 3 - A , 23 p .
1978, P o t e n t i a l h a z a r d s from f u t u r e
of Mount S t . H e l e n s v o l c a n o , W a s h i n g t o n : 1383-C.
assemblage
U.S. G e o l o g i c a l Survey
eruptions
Bulletin
C r a n d e l l , D. R . ; M u l l i n e a u x , D. R . ; M i l l e r , R. D.; R u b i n , M., 1962, d e p o s i t s of Recent age a t Mount R a i n i e r , W a s h i n g t o n .
Pyroclastic
In S h o r t P a p e r s i n
the
G e o l o g i c and H y d r o l o g i c S c i e n c e s , U . S . G e o l o g i c a l Survey P r o f e s s i o n a l Paper 450-D, p . D64-D68.
C r a n d e l l , D. R . ; M u l l i n e a u x , D. R . ; R u b i n , M., 1975, Mount S t . Helens r e c e n t and f u t u r e b e h a v i o r :
S c i e n c e , v . 187, p . 4 3 8 .
C r a n d e l l , D. R . ; W a l d r o n , H. H . , 1956, A Recent v o l c a n i c mudflow of d i m e n s i o n s f r o m Mount R a i n i e r , W a s h i n g t o n : v . 254, p.
volcano:
American J o u r n a l of
exceptional Science,
349-362.
C r o s b y , J . W., I I I ,
1 9 7 1 , New d e v e l o p m e n t s i n g e o t h e r m a l e x p l o r a t i o n .
In Cole,
B. L . , P a p e r s p r e s e n t e d a t F i r s t N o r t h w e s t C o n f e r e n c e on G e o t h e r m a l Power:
W a s h i n g t o n S t a t e D e p a r t m e n t of N a t u r a l
C r o s s o n , R. S . ; M a y e r s , I . R . , ments i n Washington S t a t e :
Resources.
1972, R e p o r t on g e o t h e r m a l ground n o i s e
measure-
Washington D i v i s i o n of Mines and G e o l o g y Open-
F i l e R e p o r t , 16 p .
Crowder, D. F . ; T a b o r , R. W.; F o r d , A. B . , 1966, G e o l o g i c map of t h e G l a c i e r Peak q u a d r a n g l e ,
Snohomish and C h e l a n C o u n t i e s , W a s h i n g t o n :
G e o l o g i c a l S u r v e y G e o l o g i c Q u a d r a n g l e Map GQ-473, s c a l e
U.S.
1:62,500.
C u l l e n , J . M., 1978, Impact of a m a j o r e r u p t i o n of Mount R a i n i e r on p u b l i c s e r v i c e d e l i v e r y s y s t e m s i n the P u y a l l u p V a l l e y , W a s h i n g t o n : Washington M.S. t h e s i s ,
195 p .
U n i v e r s i t y of
D a n e s , Z. F . ,
1 9 6 4 , G r a v i t y s u r v e y of Mount R a i n i e r
American G e o p h y s i c a l Unions T r a n s a c t i o n s ,
D a n e s , Z. F . ,
1969, G r a v i t y
results
G e o p h y s i c a l Union T r a n s a c t i o n s ,
Dehlinger, P.;
Chiburis,
c u r v e s and t h e i r Bulletin
Easterbrook, p.
of
E. F . ;
geologic
v. 45,
, Washington p.
640.
in western Washington: v. 50,
p.
American
548-550.
C o l l v e r , M. M.,
implication
[abstract]:
1965, Local t r a v e l
time
f o r the P a c i f i c Northwest
states:
t h e S e i s m o l o g i c a l S o c i e t y of A m e r i c a , v . 5 5 , n o . 3 , p .
D. J . ,
1 9 7 5 , Mount B a k e r e r u p t i o n s :
Geology, v . 3, no.
587-607
12,
679-682.
Easterbrook,
D. J . ,
1976, P l e i s t o c e n e
Baker, Washington: v. 8, no. 6, p.
Ellingson, J . A., Rocks a r e a , Ph.D.
Mountains, Washington:
A.,
Washington:
t h e White P a s s ,
Washington S t a t e
Goat
University
112 p .
1 9 6 9 , G e o l o g y of
Programs, Part
Programs
849.
Cascade Mountains, Washington:
E l l i n g s o n , J . A.,
of Mount
G e o l o g i c a l S o c i e t y of A m e r i c a , A b s t r a c t s w i t h
1 9 6 8 , L a t e C e n o z o i c v o l c a n i c g e o l o g y of
thesis,
Ellingson, J.
and R e c e n t v o l c a n i c a c t i v i t y
Section,
p.
Science,
v. 46,
p.
Cascade with
15.
The r o c k s and s t r u c t u r e
Northwest
southern
G e o l o g i c a l S o c i e t y of A m e r i c a A b s t r a c t s
3, C o r d i l l e r a n
1972,
t h e Goat Rocks v o l c a n o ,
of
9-24.
t h e White P a s s
area,
Fiske,
R. S . ,
1960,
Stratigraphy
and s t r u c t u r e
of l o w e r and m i d d l e
r o c k s , Mount R a i n i e r N a t i o n a l P a r k , W a s h i n g t o n : Ph.D.
Fiske,
thesis,
R. S . ;
Johns Hopkins
Tertiary University,
163 p .
H o p s o n , C. A . ; W a t e r s , A. C . ,
National Park, Washington:
1 9 6 3 , G e o l o g y of Mount
Rainier
U.S. Geological Survey P r o f e s s i o n a l
Paper
4 4 4 , 93 p .
Ford,
A. B . ,
1 9 5 7 , P e t r o l o g y of
Washington:
F o r d , A. B . ,
University
the Sulphur Mountain a r e a , G l a c i e r Peak
of W a s h i n g t o n M.S. t h e s i s ,
1 9 5 9 , G e o l o g y and p e t r o l o g y of
northern Cascades, Washington:
103 p .
the G l a c i e r Peak
University
quadrangle,
quadrangle,
of W a s h i n g t o n P h . D .
thesis,
374 p .
Fowler,
C. S . ,
1935,
The o r i g i n
of
the s u l f u r deposits
S t a t e C o l l e g e of W a s h i n g t o n , M. S . t h e s i s ,
Frank,
D . ; M e i r , M. F . ;
activity
D.;
of
increased
U.S. Geological Survey
thermal
Professional
p.
P o s t , A.; Friedman, J .
avalanches
M.S.
23 p .
1977, Assessment
a t Mount B a k e r , W a s h i n g t o n :
P a p e r 1 0 2 2 - A , 49
Frank,
S w a n s o n , D. A . ,
of Mount Adams:
on B o u l d e r G l a c i e r ,
Geophysical Research,
v. 3,
D.,
1975,
Recurrent
geothermally
Mount B a k e r , W a s h i n g t o n :
no. 1,
p.
77-87.
Journal
induced of
debris
F r i e d m a n , J . D . , 1972, A e r i a l t h e r m a l s u r v e i l l a n c e of v o l c a n o e s of the Cascade Range, W a s h i n g t o n , Oregon, and n o r t h e r n C a l i f o r n i a :
E . O . S . , v . 53, n o . 9 ,
p. 533.
F r i e d m a n , J . D.; F r a n k , D . , 1980, Thermal s u r v e i l l a n c e of a c t i v e v o l c a n o e s t h e L a n d s t a t - 1 DCS:
P a r t 2 , IR S u r v e y s , r a d i a n t
f l u x , and t o t a l
using
heat
d i s c h a r g e from Mount Baker v o l c a n o , W a s h i n g t o n , between 1970 and 1975, Final Report:
U . S . G e o l o g i c a l Survey f o r Goddard Space F l i g h t C e n t e r
[in
press ].
F r i e d m a n , J . D.; F r a n k , D . , 1977, Thermal s u r v e i l l a n c e of a c t i v e v o l c a n o e s the Landstat I data c o l l e c t i o n system: S t . Helens, Washington:
using
P a r t 3 , Heat d i s c h a r g e s from Mount
U . S . G e o l o g i c a l Survey O p e n - F i l e Report
77-541,
30 p .
Gizienski,
S. F . ; McEuen, R. B . ; B i r k h a h n , P . C . , 1975, R e g i o n a l e v a l u a t i o n of
t h e g e o t h e r m a l r e s o u r c e s p o t e n t i a l i n c e n t r a l Washington s t a t e :
Washington
P u b l i c Power Supply System, 113 p .
Hammond, P . E . , 1974, B r i e f
outline
to v o l c a n i c s t r a t i g r a p h y and g u i d e
g e o l o g y of s o u t h e r n Cascade Range, W a s h i n g t o n , and n o r t h e r n Range, Oregon: June 2 4 - 2 9 ,
to
Cascade
G e o t h e r m a l F i e l d T r i p , Oregon Department of G e o l o g y ,
1974.
Hammond, P . E . , 1975, P r e l i m i n a r y g e o l o g i c map and c r o s s s e c t i o n s emphasis on Q u a t e r n a r y v o l c a n i c
with
r o c k s , s o u t h e r n Cascade M o u n t a i n s ,
Washington D i v i s i o n Geology and E a r t h R e s o u r c e s O p e n - F i l e Report
75-13,
Hammond, P . E . ,
1980, Reconnaissance
Washington cascade range, 2 2 . 5 W:
scale
Hammond, P . E . ,
1977, V o l c a n i c
meeting,
development
Harris,
S. L . ,
Pedersen, Kohicek,
S. A . ;
of
the s o u t h e r n Cascade
G e o l o g i c a l S o c i e t y of A m e r i c a , 9 0 t h
H o p k i n s , K. D.; A i k e n , D.; H a r l e ,
D. L . ;
In P e z z o t t i ,
Stricklin,
volcanic
C. R . ,
field,
C. ( e d i t o r ) ,
and u s e of g e o t h e r m a l
1 9 7 6 , F i r e and i c e :
Seattle,
D. S . ,
H o p k i n s , K. D . , volcano, 143 p .
W a s h i n g t o n , 320
1 9 7 4 , G e o l o g y of
Washington:
122°
2
S w a n s o n , D. A . , Range, Annual
1 9 7 6 , G e o l o g y and
s o u t h e r n Cascade
Proceedings,
resources,
D.
S.; gravimetry
Range,
Second U . N . Symposium on
San F r a n c i s c o ,
1975,
397-405.
Press,
Harle,
1 2 0 ° 45 -
Washington.
the Quaternary b a s a l t i c
Washington.
southern
of E a r t h S c i e n c e s , 31 p . ,
C; E l l i n g s o n , J . A . ;
and s t r u c t u r e
F i e l d T r i p No. 4 ,
D a n e s , Z. F . ;
p.
R. D . ; Brown, J .
stratigraphy
Seattle,
Hammond, P . E . ;
Department
of
1:125,000.
Bentley,
Washington:
sections
l a t i t u d e 4 5 ° 30 - 4 7 ° 15 N, l o n g i t u d e
Portland State University
sheets,
of
g e o l o g i c map and c r o s s
the Cascade volcanoes:
Oregon S t a t e U n i v e r s i t y M.S. t h e s i s ,
Washington:
t h e s o u t h and e a s t
University
Search
p.
t h e Baby Shoe R i d g e a r e a ,
1 9 7 6 , G e o l o g y of
Pacific
southern
Cascades,
71 p .
s l o p e s of Mount Adams
of W a s h i n g t o n P h . D .
thesis,
Seattle,
Hopson, C. A . ; W a t e r s , A. C . ; B e n d e r , V. R . ; R u b i n , M., 1962, The l a t e s t e r u p t i o n from Mount R a i n i e r v o l c a n o :
J o u r n a l of Geology, v . 7 0 .
p.
635-646.
Hopson, C. A . , 1971, E r u p t i v e s e q u e n c e a t Mount S t . H e l e n s ,
Washington:
G e o l o g i c a l S o c i e t y of America A b s t r a c t w i t h P r o g r a m s , v o l . 3 , n o . 2 , p. 138.
Hyde, J . H . , 1970, G e o l o g i c s e t t i n g of M e r r i l l Lake and e v a l u a t i o n of h a z a r d s in the Kalama R i v e r v a l l e y n e a r Mount S t . H e l e n s ,
volcanic
Washington:
U . S . G e o l o g i c a l Survey O p e n - F i l e R e p o r t , 15 p .
Hyde, J . H . , 1973, L a t e Q u a t e r n a r y v o l c a n i c s t r a t i g r a p h y of t h e s o u t h f l a n k of Mount S t . H e l e n s , W a s h i n g t o n : Seattle,
U n i v e r s i t y of Washington P h . D .
thesis,
114 p .
Hyde, J . H . , 1975, Upper P l e i s t o c e n e p y r o c l a s t i c - f l o w d e p o s i t s and l a h a r s of Mount S t . Helens v o l c a n o , W a s h i n g t o n :
U . S . G e o l o g i c a l Survey
south
Bulletin
1383-B, 20 p .
Hyde, J . H.; C r a n d e l l ,
D. R . , 1 9 7 5 , O r i g i n and age of p o s t - g l a c i a l
d e p o s i t s and
a s s e s s m e n t of p o t e n t i a l h a z a r d s from f u t u r e e r u p t i o n s of Mount B a k e r , Washington:
U . S . G e o l o g i c a l Survey O p e n - F i l e R e p o r t 7 5 - 2 8 6 , 22 p .
Hyde, J . H.; C r a n d e l l ,
D. R . , 1978, P o s t - g l a c i a l v o l c a n i c d e p o s i t s a t Mount
B a k e r , W a s h i n g t o n , and p o t e n t i a l h a z a r d s from f u t u r e e r u p t i o n s : G e o l o g i c a l S u r v e y P r o f e s s i o n a l P a p e r 1022-C, 17 p .
U.S.
J o h n s o n , S. H . ; Couch, R. W., 1970, C r u s t a l s t r u c t u r e
i n t h e n o r t h Cascade
M o u n t a i n s of Washington and B r i t i s h Columbia from s e i s m i c measurements: no. 4, p.
K i v e r , E. P . , no. 3, p.
K i v e r , E. P . , 1974-1977
B u l l e t i n of t h e S e i s m o l o g i c a l S o c i e t y of America, v . 6 0 ,
1259-1269.
1975, W a s h i n g t o n ' s g e o t h e r m a l i c e c a v e s :
no. 8, p.
K i v e r , E. P . ;
P a c i f i c Search, v.
10,
11.
1978, G e o t h e r m a l i c e c a v e s and f u m a r o l e s , Mount Baker v o l c a n o : [abstract]:
P r o g r a m s , v . 10, n o . 3 ,
K i v e r , E. P . ,
refraction
G e o l o g i c a l S o c i e t y of America A b s t r a c t s p.
with
112.
1978, Mount B a k e r ' s c h a n g i n g f u m a r o l e s :
The Ore B i n , v . 4 0 ,
145.
Snavely, J . ;
S n a v e l y , D. F . ,
1977, Hydrogen s u l f i d e fumes a t
summit of Mount R a i n i e r v o l c a n o , W a s h i n g t o n :
the
Northwest Science, v . 51,
n o . 1, p . 3 1 - 3 5 .
K o n i c e k , D. L . , 1974, G e o p h y s i c a l s u r v e y i n s o u t h - c e n t r a l
Washington:
U n i v e r s i t y of P u g e t Sound M.S. t h e s i s , 35 p .
K o n i c e k , D. L . , 1975, G e o p h y s i c a l s u r v e y i n s o u t h - c e n t r a l W a s h i n g t o n : Science, v. 49, no. 2,
L a n g e , I . M.; A v e n t , J . C . ,
p.
Northwest
106-117.
1975, G r o u n d - b a s e d t h e r m a l i n f r a r e d s u r v e y of Mount
R a i n i e r volcano, Washington:
G e o l o g i c a l S o c i e t y of America
with Programs, v . 7, no. 5, p. 619.
Abstracts
L i v i n g s t o n , V. E . , J r . , o v e r v i e w s of
1972, Geothermal energy i n Washington.
the western United S t a t e s ,
First National
In Geothermal
Conference:
Geothermal Resources C o u n c i l , El C e n t r o , C a l i f o r n i a , February
16-18,
1 9 7 2 , S e c t i o n L , 17 p .
Malone, S. D.,
1 9 7 6 , D e f o r m a t i o n of Mount Baker v o l c a n o by h y d r o t h e r m a l
E.O.S. v . 57, no. 12, p.
1016.
McEuen, R. B . ; B i r k h a h n , P . C . ; of
geothermal resource
Pinckney,
potential.
In
McLane, J . of
1975,
p.
Washington
(abstract):
Proceedings, resources,
1976, M i n e r a l o g i c a l
E.O.S., v . 57, no. 2,
of v o l c a n o e s
infrared surveys:
examination
p.
Baker,
89.
I n t h e C a s c a d e Range a s
Bulletin Volcanologique,
v.
34,
77-106.
Moxham, R. M.; B o y n t o n , G. R . ;
C o t e , C. E . ,
fumarole temperatures,
Mount R a i n i e r ,
Volcanologique,
n o . 1,
v. 36,
Moxham, R. M.; C r a n d e l l , Rainier,
C. ( e d . ) ,
regionalization
m a t t e r f r o m t h e f u m a r o l e s of Sherman C r a t e r , Mount
o b s e r v e d by a e r i a l 1, p.
Predictive
and u s e of g e o t h e r m a l
L a r s o n , R. R . ,
Moxham, R. M., 1 9 7 0 , T h e r m a l f e a t u r e s
no.
1976,
1121.
E . ; F i n k e l m a n , R. B . ;
particulate
C. J . ,
Pezzotti,
Second U.N. Symposium on d e v e l o p m e n t San F r a n c i s c o ,
heating:
Washington,
p.
1973, S a t e l l i t e
Washington:
Bulletin
191-199.
D. R . ; M a r i o t t , W. E . , as r e v e a l e d
t e l e m e t r y of
1965, Thermal F e a t u r e s
by i n f r a r e d s u r v e y s :
Survey P r o f e s s i o n a l Paper 525-D, p.
93-100.
U.S.
at
Geological
Mount
Mullineaux,
D. R . ; C r a n d e l l ,
Washington:
Mullineaux,
D. R . ; Hyde, J .
H.; Meyer, R . ,
and H o l o c e n e p u m a c e o u s
southern Washington: Programs, v. 4,
D. R . ;
no. 3,
p.
S i g a f o o s , R. S . ;
855-970.
f r o m Mount S t .
Helens
of A m e r i c a , A b s t r a c t s
of
upper
volcano, with
Hendricks,
E. L . ,
1969, A h i s t o r i c
eruption
U.S. Geological Survey P r o f e s s i o n a l
Paper
L e t t e r s v. 3, no. 2,
R. H . ,
a q u i f e r along
the p.
Mazama,
37-42.
Stith, J.
and a e r o s o l s f r o m v o l c a n i c
Department
County,
F u m a r o l e s of Mount S t . H e l e n s and Mount Adams:
Hobbs, P . V . ;
R. H . ,
of a m a j o r a l l u v i a l
of C l a r k
U . S . G e o l o g i c a l S u r v e y W a t e r S u p p l y P a p e r 1 6 0 0 , 268
K. N . , 1 9 4 2 ,
v . 23, n o . 12, p.
Russell,
tephra
1 9 6 4 , G e o l o g y and g r o u n d w a t e r c o n d i t i o n s
Columbia R i v e r :
Russell,
p.
Helens,
204-205.
Washington, with a d e s c r i p t i o n
R a d k e , L. F . ;
f r o m Mount S t .
315-318.
M u n d o r f f , M. J . ,
Phillips,
lahars
1972, P r e l i m i n a r y assessment
Geological Society
of Mount R a i n i e r , W a s h i n g t o n : 650-B, p.
1962, Recent
G e o l o g i c a l S o c i e t y of A m e r i c a B u l l e t i n v . 7 3 ,
Pleistocene
Mullineaux,
D. R . ,
p.
vents
L.,
1976, A i r b o r n e measurements
on Mount B a k e r :
gases
Research
93-96.
1972, Geothermal e n e r g y p o t e n t i a l of E c o l o g y ,
Geophysical
of
of W a s h i n g t o n S t a t e :
23 p .
1973, G e o t h e r m a l E n e r g y ;
Geothermal Energy Magazine, v .
potential
1, n o . 4 ,
p.
of W a s h i n g t o n
39-48.
State:
Washington
S a t o , M.; M a l o n e , S. D . ; Moxham, R. M., 1 9 7 6 , at
M o n i t o r i n g of f u m a r o l i c
Sherman C r a t e r , Mount B a k e r , W a s h i n g t o n
no.
2,
E.,
Northwest:
resources
1 9 7 3 , The s e a r c h
Schuster, J .
E.,
exploration,
of G e o l o g y and E a r t h R e s o u r c e s
of W a s h i n g t o n , W a s h i n g t o n D i v i s i o n
E.; Blackwell,
p.
Reprint
R. A . ,
Washington:
Energy
of G e o l o g y and E a r t h
Hammond, P . E . ;
. Washington D i v i s i o n
H u n t t i n g , M. T . ,
1978,
Skamania
of G e o l o g y and E a r t h
Resources
1 9 6 7 , P e t r o l o g y of a l a t e Q u a t e r n a r y p o t a s s i u m - r i c h
p.
Resources
p.
f r o m Mount Adams, W a s h i n g t o n : Paper 575-C,
In
5.
D. D . ;
I n f o r m a t i o n C i r c u l a r 6 2 , 56
R. A . ,
of W a s h i n g t o n :
i n t h e S t e a m b o a t M o u n t a i n - L e m e i Rock a r e a ,
County, Washington:
Stavert,
rocks - Geothermal
1974, Geothermal e n e r g y p o t e n t i a l
Heat f l o w s t u d i e s
scale
f o r hot
Washington D i v i s i o n
I n f o r m a t i o n C i r c u l a r 50,
Sheppard,
57,
4.
Schuster, J .
Sheppard,
EOS v .
p . 88.
Schuster, J .
11, p.
(abstract):
gas
U.S. Geological Survey
andesite
Professional
55-59.
1 9 6 7 , G e o l o g y of
t h e Simcoe M o u n t a i n s v o l c a n i c
Washington D i v i s i o n
area,
of Mines and G e o l o g y G e o l o g i c Map GM-3,
1:250,000.
L.,
andesite:
1971, A geochemical
reconnaissance
investigation
W e s t e r n W a s h i n g t o n S t a t e C o l l e g e M.S. t h e s i s ,
of Mount 60 p .
Baker
Stricklin,
C. R . ,
1 9 7 5 , G e o p h y s i c a l S u r v e y of
Mountain a r e a , Washington:
University
t h e Lemei Rock -
of P u g e t
Steamboat
Sound M . S .
thesis,
23 p .
Swan, V. L . , meeting,
1 9 7 8 , Mount B a k e r v o l c a n i c s :
(abstract)
1 9 6 4 , The m i d d l e and l a t e C e n o z o i c v o l c a n i c
Tieton River a r e a ,
s o u t h - c e n t r a l Washington:
Ph.D.
p.
thesis,
S w a n s o n , D. A . ,
329
1966,
r o c k s of
Johns Hopkins
T i e t o n v o l c a n o , a Miocene e r u p t i v e c e n t e r
Cascade Mountains, Washington:
the
University
in the
southern
G e o l o g i c a l S o c i e t y of A m e r i c a B u l l e t i n ,
v.
1293-1314.
S w a n s o n , D. A . ,
1 9 7 8 , G e o l o g i c map of
the Tieton River a r e a ,
U . S . G e o l o g i c a l S u r v e y M i s c e l l a n e o u s m a p s , MF-968,
S w a n s o n , D. A . ; W r i g h t , interpretation
of
a d j a c e n t Oregon:
S w e n s o n , D. H . , University
T. L . ;
Zietz,
I.,
Washington - A n a l y s i s 1033, 38 p .
Washington
t h r e e Cascade v o l c a n o e s :
The s t r u c t u r e
of a s u b d u c t i o n
zone:
of
geologic and
Map G P - 9 1 7 .
of M i n i n g and T e c h n o l o g y M . S . t h e s i s ,
1978,
1:48,000.
1 9 7 9 , A e r o m a g n e t i c map and
Geophysical I n v e s t i g a t i o n s ,
1 9 7 3 , G e o c h e m i s t r y of
Washington:
scale
the w e s t - c e n t r a l Columbia P l a t e a u ,
T a b o r , R. W., Cady, W. M.,
Paper
Union
Tacoma.
S w a n s o n , D. A . ,
77, p.
American Geophysical
New M e x i c o
101 p .
t h e Olympic
Mountains,
U.S. Geological
Survey
T a b o r , R. W., Cady, W. M., 1 9 7 8 , G e o l o g i c map of Washington:
U.S. G e o l o g i c a l Survey, 2 maps,
T a b o r , R. W.; C r o w d e r , D. F . ,
t h e Olympic scale
1 9 6 9 , On b a t h o l i t h s
Peninsula,
1:125,000.
and v o l c a n o e s -
Intrusion
a n d e r u p t i o n of l a t e C e n o z o i c magmas i n t h e G l a c i e r P a r k a r e a , Cascades, Washington:
north
U.S. Geological Survey P r o f e s s i o n a l Paper
604,
50 p .
U.S. Geological Survey,
1 9 7 7 , A e r o m a g n e t i c maps of p a r t
of n o r t h e r n
U.S. Geological Survey Open-File Report 77-254, 2 s h e e t s ,
Unger, J .
D . ; D e c k e r , R. W., 1 9 7 0 ,
Washington:
Washington:
scale
The m i c r o e a r t h q u a k e a c t i v i t y
1:62,500.
of Mount
S e i s m o l o g i c a l S o c i e t y of America B u l l e t i n , v . 6 0 ,
Rainier,
p.
2023-2035.
Unger, J .
D . ; M i l l s , K. F . ,
1972, M i c r o e a r t h q u a k e s
S e i s m o l o g i c a l S o c i e t y of America B u l l e t i n ,
Unger, J .
D . ; M i l l s , K. F . ,
1973, E a r t h q u a k e s
G e o l o g i c a l S o c i e t y of America B u l l e t i n ,
Valentine,
G. M., I 9 6 0 ,
minerals,
revised
v. 62,
p.
n e a r Mount S t . H e l e n s ,
v. 84,
no. 3,
by M. T. H u n t t i n g :
p.
1065-1067.
175 p .
in
Nonmetallic
Geological Science,
v . 24,
of Mines and
p l u s 83 p .
1 9 3 7 , Mount S t . H e l e n s - A r e c e n t C a s c a d e v o l c a n o :
University Publications
Washington:
Washington S t a t e D i v i s i o n
t e x t and m a p s ,
1969:
1079-1081.
I n v e n t o r y of W a s h i n g t o n m i n e r a l s - P a r t I ,
Geology B u l l e t i n 37, 2 volumes,
Verhoogan, J . ,
a t Mount R a i n i e r -
no. 9,
California p.
263-302.
W a s h i n g t o n D i v i s i o n of G e o l o g y and E a r t h of W a s h i n g t o n :
W a t e r s , A. C . ,
Resources,
I n f o r m a t i o n C i r c u l a r 50,
1974, Energy
158 p .
1 9 7 3 , The C o l u m b i a R i v e r G o r g e B a s a l t S t r a t i g r a p h y ,
l a v a dams, and l a n d s l i d e r Geologic f i e l d
trips
dams.
In B e a u l i e u x , J .
D.,
i n n o r t h e r n O r e g o n and s o u t h e r n
Oregon D i v i s i o n of G e o l o g y and M i n e r a l I n d u s t r i e s , p.
resources
ancient
chairman, Washington:
Bulletin
77,
133-162.
W e a v e r , C. S . ,
1976, S e i s m i c e v e n t s
on C a s c a d e v o l c a n o e s ,
U n i v e r s i t y of W a s h i n g t o n , P h . D .
W e a v e r , C. S . ,
1976, S e i s m i c e v e n t s
of W a s h i n g t o n P h . D . International,
W i s e , W. S . ,
thesis,
v. 37,
no. 3,
thesis,
Seattle:In
relations
Ph.D.
258.
thesis,
p.
of
[abstract]:
Dissertation
Abstracts
celadonite:
t h e Wind R i v e r a r e a , Johns Hopkins
W i s e , W., 1 9 7 0 , C e n o z o i c v o l c a n i s m i n t h e C a s c a d e m o u n t a i n s Washington:
University
1157-B.
1 9 6 1 , The g e o l o g y and m i n e r a l o g y of
and t h e s t a b i l i t y
dissertation,
158 p .
on C a s c a d e v o l c a n o e s
p.
Ph.D.
Washington D i v i s i o n
of
Washington,
University,
southern
of Mines and G e o l o g y B u l l e t i n 6 0 , 45 p .
APPENDIX A WELL TEMPERATURE INFORMATION AND LOCATIONS IN THE STATE OF WASHINGTON
by Michael A. Korosec D i v i s i o n of Geology and E a r t h R e s o u r c e s Olympia, Washington
APPENDIX A WELL TEMPERATURE INFORMATION AND LOCATIONS IN THE STATE OF WASHINGTON
The f o l l o w i n g t a b l e i n c l u d e s a l l w e l l s on r e c o r d w i t h t h e D i v i s i o n of Geology and E a r t h R e s o u r c e s .
They have been d i v i d e d by c o u n t y , and o r d e r e d by
i n c r e a s i n g t o w n s h i p and i n c r e a s i n g r a n g e . location,
Information Includes
1/4 of 1/4 of s e c t i o n , bottom h o l e t e m p e r a t u r e
of g r a d i e n t s ( ° C / k m ) , and s o u r c e r e f e r e n c e .
township-range
( ° C ) , d e p t h (m), two t y p e s
Gradient A are those
gradients
a c t u a l l y o b s e r v e d from a w e l l log over a s i g n i f i c a n t depth I n t e r v a l well.
G r a d i e n t B a r e c a l c u l a t e d g r a d i e n t s u s i n g bottom h o l e t e m p e r a t u r e s
mean a n n u a l s u r f a c e t e m p e r a t u r e , slope
through
c a l c u l a t e d from e l e v a t i o n ,
The r e f e r e n c e s key a s
follows:
1.
Washington S t a t e U n i v e r s i t y w e l l l o g s - D r . James Crosby
2.
S o u t h e r n M e t h o d i s t U n i v e r s i t y and D i v i s i o n of Geology and E a r t h R e s o u r c e s w e l l l o g s and t h e r m a l g r a d i e n t h o l e s , D r . David D. Blackwell,
SMU, and J . E r i c S c h u s t e r , DGER.
3.
U . S . G e o l o g i c a l S u r v e y Tacoma O f f i c e , w e l l
4.
U . S . G e o l o g i c a l Survey Tacoma O f f i c e , WATSTORE computer
5.
U . S . G e o l o g i c a l Survey Water S u p p l y P a p e r 1999R.
6.
Washington S t a t e D i v i s i o n of Water R e s o u r c e s , Water Supply Bulletin
7.
logs. file.
#21.
Washington S t a t e D i v i s i o n of Water R e s o u r c e s , Water Supply Bulletin
#24.
and
s l o p e a n g l e , and
orientation.
the
APPENDIX B GEOLOGY OF WHITE PASS - TUMAC MOUNTAIN AREA, WASHINGTON
by Geoff Clayton University of Washington Seattle, Washington 1980
Note:
Geologic Map, Scale 1:24,000, found in pocket of back cover
APPENDIX C RESISTIVITY STUDY OF CAMAS, WASHINGTON:
FINAL REPORT
January 5, 1981
for Geology and Earth Resources Division Washington State Department of Natural Resources Olympia, Washington 98504
by F. A. Rigby Science Applications, Inc. 1200 Prospect Street La Jolla, California 92038 and R. B. McEuen Exploration Geothermics 5202 College Gardens Court San Diego, California 92115
TABLE
1.
PURPOSE
2.
GENERAL 2.1 2.2 2.3 2.4
OF
CONTENTS
C-1 DISCUSSION
OF
RESULTS
OF
MODELING
Pseudosection AA' Pseudosection BB' UURI Comments on Modeling Results I m p a c t of M o d e l R e s u l t s on PreviouslyRecommended Drill Site Locations
3.
FIELD
METHODS
4.
LISTING
5.
APPENDIX:
OF
RAW
AND PROCEDURES DATA
PRELIMINARY REPORT
C-2 C-3 C-8 C-11 C-l2 C-13 C-15 C-19
1.
The to
determine
lower
regions
electrical
cated, ated
purpose
by
these
the
along
of
shallow
survey
the
resistivity
regions
drilling
of
PURPOSE
trend
can
lower depth
be
described of
the
Lacamas
expected
resistivity heat-flow
in t h i s
are
at
holes.
fault
depth.
to be
report
was
where
Once
further
loevalu-
2.
GENERAL
Figures sistivity
DISCUSSION
2,
and
3,
pseudosection
for
line
pseudosection
for
the placement
of
1,
line
used
to
tions were
previously
14 S e p t e m b e r
this
BB',
lines
convention
on
OF
AA'
obtain
and and
PSEUDOSECTION
The
apparent
a map
for
the
Figure
in
our
appears
as
resistivity area
shows
the
4
re-
showing plotting
These pseudosec-
preliminary
report
an
at
appendix
issued
the back
of
AA'
pseudosection
a
region
3 kilometers
south
profile
to
values
of
of
tending
to
a point
in
resistivity
for profile
meter
transition
meters
from
the
veloped
by
the
data
on
line
such
an
earth
AA'
in
from
ters
of
the
the
is
of
the
of
also
high
Utah
from
20 ohm-meter
mately
10 ohm-meter
at
that
the
the
in
of
the
a region
ex-
end. 4
kilo-
earth model
Institute would
of
the
be measured
for
enclosing end
of
are
model
a point
end
of
features reasonably
places 3.75
The
10
values
the of
the
kilomeohm-
the profile
with
the
de-
fit
data
fit" at
to
the major
consistent
northern
ohm-
end
northern
the profile.
northern is
30
approximately
field
"best
of
of
distinct
profile.
resistivity
contour
the
from
a
northern
ohm-meter
Most
This
This
the
Research
shown.
the
north.
the order
two-dimensional
block
at
displays
a point
pseudosection
derived
to
at
AA'
of of
120
the
point
open
1).
end
starting
data's
(Figure
occur
the model.
low
resistivity to
The
model
transition
ended
to
5 displays
AA'.
values
10 kilometers
University
reflected
meter
9 to
from
order
northern
pseudosection
south
the
appears
Figure
open
apparent
Camas
pseudosections.
in
well
the
the
transition
of
are
report.
2.1
This
MODELING
AA',
BB'.
these
which
OF
respectively,
discussed
1979,
RESULTS
is
observed approxi-
pseudosection
Figure
1.
P s e u d o s e c t i o n for line AA'. Dipole length km. R e s i s t i v i t i e s a r e in o h m - m e t e r s . The s c a l e is e x a g g e r a t e d by a factor o f two.
was 0.5 vertical
Figure
2.
Pseudosection w a s 0.25 km
for
line
BB'.
Dipole
length
Figure
3.
Map of the Camas area showing Two suggested test hole sites letter "T".
resistivity lines. are marked with the
Figure
4.
Electrode
Geometry
Figure 5.
UURI Resistivity Model for Line AA' and Apparent Resistivity Pseudosection That This Model Would Produce
At
the
shown
in
the
meter
to
values
gests
1).
an
near
tivity
material
occurs
at
this
point.
to
crosses
line
south
greater about
AA'
a
thickness
of
the
50 ohm-meter
extreme
southern
clearly
tenuous.
data was profile
end,
depth
This
but of
on
BB'.
tions to
the
at
4
a
BB' north
pseudosections of
the
model
cannot
field
data
of
fault point
and
the
a
field
unit
change
is
would
data
(low
in
resisunits)
thickness
account The
southern
that
for
on
the
values
end of
50 ohm-meter for
sug-
downthrown
material.
evidence
profile
by Mundorff
that
extreme
contain
the
mapped
block
occurring
200 ohm-meter
this
and
ohm-
end of the
ohm-meter
150
the
of
100
unit
this unit
of
the
at
the
is
BB'
apparent
The
shorter
dipole to
of
resistivity length
the
dipole
effect
is
point thus
end
used
500 meter
length
data to
by
a
as
mea-
collect
length
increased
decreasing,
obtained
computer be
for
to
the
two
and
the
0.75
a further
fit
the
used
these for
spatial
factor of
for
line
differing
the western
portion
to be
BB'.
two,
of the
very
Figures
that
adequately
a fit
intersecting
kilometer
earth models.
indicates
that w i l l
lines
investigation
It p r o v e d
for
analysis
derived
AA',
on AA'
of A A ' .
satisfactory
culty
to
is perpendicular
Line
obtain
at
as opposed
the
a
this
although
kilometer
the
100
near
penetration.
BB' about
had
a
resistivities.,
transition
northern
100 o h m - m e t e r
BB'.
250 meters
resolution
of
2 shows the
profile
AA'.
of
the
values
portion
deeper
measured
PSEUDOSECTION
along
the
downthrown
the model
Figure
the
about
Such
require
sured
to
this
this
AA',
from
The position
side.
2.2
for
the position
profile
from
thickness
relative
corresponds
the
65 ohm-meter,
modeling
increased
profile
decrease
9.5 kilometers The
the
end o f
pseudosection
approximately (Figure
southern
point forma-
difficult 6 and The
7
show
diffi-
two-dimensional the
of pseudosection
observed BB'.
We
have
Figure
6
O n e A l t e r n a t i v e U U R I M o d e l for L i n e P s e u d o s e c t i o n It W o u l d P r o d u c e
BB'
with
the
Apparent
Resistivity
Figure
7.
Second Alternative Pseudosection This
UURI Model for Line Model Would Produce
BB'
with
the
Apparent
Resistivity
studied
the
variability
conclude
that
the
equally
data
ally the
two models
the
models profile
2.3
Green
the
field for
data
computed
two models concluded
are,
that
a high probability other
Lacamas
at
of
1.5
boundaries fault
and
models
1 and
however,
be and
2
and
2
fit
substanti-
common
reflecting
most
the
in F i g u r e
features
features must
boundaries
These
shown
between
actual
regarded
as
geo-
doubtful.
2.4 kilometers
probably
contact
NE
of
represent,
with
the
volcanics
Mountain.
COMMENTS
Below Mackelprang. out
can be
while
origin.
UURI
carried
The
have major
respectively, ics of
It have
features,
the
pseudosection well.
different.
logic Both
the
of
is
Mr. by
ON
MODELING
a discussion Mackelprang
of
was
RESULTS
the modeling responsible
results
for
the
by
C.
modeling
UURI.
"Results of the m o d e l i n g for line A-A' suggest a surface layer of fairly m o d e r a t e apparent resistivity extending over the entire line. T h i s l a y e r i n c r e a s e s in t h i c k n e s s in the c e n t r a l p o r t i o n of the line. A cond u c t i v e m e d i a is p r e s e n t at a f a i r l y s h a l l o w d e p t h o n the n o r t h w e s t end of the line but deepens to the southeast and is absent at t h e s o u t h e a s t end of the line. "Model results of line B-B' are questionable but tend to suggest a layering of r e s i s t i v e - c o n d u c t i v e - res i s t i v e m e d i a s of u n k n o w n c o n f i g u r a t i o n and t h i c k n e s s e s on the southwest half of the line. To the northeast the models are less complex showing a trend into fairly conductive ground. " T h e a t t a c h e d m o d e l s a r e t w o - d i m e n s i o n a l (i.e. i n f i n i t e strike length). If t h e s u r v e y l i n e s h a v e b e e n r u n a t some angle other than normal to the geologic structure t h e n the m o d e l i n t e r p r e t a t i o n w i l l not a p p r o x i m a t e the true resistivity distribution. T h e p r e s e n c e of t h r e e dimensional resistivity distributions would also detract from the a p p l i c a b i l i t y of the m o d e l s o l u t i o n s . W e u n d e r s t a n d that line A-A' runs subparallel to a major geologic structure and topographic features. This m a y r e d u c e the a p p l i c a b i l i t y of the r e s i s t i v i t y m o d e l submitted here."
E.
2.4
IMPACT OF MODEL SITE LOCATIONS
Two ary
Report.
lower to
are
in
resistivity
and
reasonable
report,
south
due
model
that
are
km
on
line
places
As
with
southernmost the
down
ment
of
the
seem
to
be
the
at
test
the
Z.
in
the
the
at
this
near
the units
may
be
units within this
the
Thus end
The
suggests
thickening
of
southern
further
resistivity
thicker
Danes.
AA'
a point
low
crest
having
Subsequent
moved
profile
In a d d i t i o n ,
F.
drillsite of
by
the
the
of
new
the
location
interesting
the
hole
northeast
near
with
AA'.
It
seems
these
regions study
of
of
end
clear of the
very
1.5
one
km point
of
models the
the major of
section
Lacamas
line BB', Mountain,
that low
further
final
line
place-
AA'
low
at
This
location
would
also
appears would
contacts
BB',
contact
the
It m u s t
be
would
with
northwest of
the
end
area
that
is
how-
exist the of
extent
be worthwhile
this
shown
noted
zones
associated
the
of
short
vertical
determination
potential
a
BB',
resistivity
perhaps and
a point
line
fault.
resistivity
geothermal
on
models.
open-ended,
of
Green
recommendation,
inversion
substantial,
rock
sued.
near
alternative
volcanic
ther
site
associated
that
the
nearer by
southeast
place
ever
block.
mapped
other
supported
be
mentioned,
resulting
site
for
where
fault
Camas. was
Prelimin-
availability.
location
a region
already
to
land
data
our
DRILL
excellent.
to b e
may
field
in
Lacamas
location
with
second
in
faulted
drill
The
both
is
drilling
positive
distance
the
faulting
gravity
on
AA'
thickening.
associated
of
the
proximity
drilling
the
RECOMMENDED
recommended
along
associated
approximates placement
are
regions
southern
to p r o b l e m s
this
10.25
the
ON PREVIOUSLY
locations
Both
our
that
drilling
RESULTS
to
if
line of fur-
be per-
3.
The collected position electrode along
profiles
were was
locations
profile
a of
was
wave
form
although of
0.01
a
The
the
and
not 0.1
receive
between was
were
current
and
the
four
as
the
tion,
measurements
were
tions
ranging
one
gap
from
access
in
the
the
shows
voltage some
of
electrode
distance AA'
and
between
250
for
this
The
output
meters
each
stakes
if
it
driven
electrodes.
the
the
20
and
amps,
to
significantly
a copper
gener-
frequencies
measurement
the
of
consisted
was
this;
into
ends
amplitude
allow affected
ground
Non-polarizing
using
requires
the
from
current
on
coupling
at
survey
controlled
Maximum
method
ground
employed
dipoles
the
to
five
the
times
the
pro-
electrodes
sulfate
the
Esterline-angus device data.
on
was
solution
For
each
data
the most
chart
receive
dis-
transmit
recorded
in
transmit at
a
if
few
severe
posi-
separa-
length, in
and
The
and
dipole
dipole
length
line).
and w a s
of
strip the
equal
receive
receive
collection
pseudosection
field
of
length.
with
of
a single
separation
dipole
made
were
in
electrodes
dipole
measuring
typical
the
achieve
prevented
BB'
Portable as
which
electrodes
nearest
multiples
into
to
transmit
of
major
profile
were
cups.
(all
used
of
The
data
Each
prospecting
source
dipole were made
terms
Problems
chain.
possible
of m e t a l
porcelain
co-linear
dipoles
along
current.
always Hz
satisfactory
tance
and
generator.
electromagnetic
Receive were
gasoline
injected
Clusters
in p o r o u s
current
"transmitter"
results.
the
500 meters
controlled
of
for
resistivity
identified.
current
it w a s Hz
compass
of
detection
vided
was
apparent
electrical
to
of
a
and properly
dipole.
fed
using
PROCEDURES
dipole-dipole
a truck-mounted
ator
AND
BB'.
injection
grounded
METHODS
along which
surveyed
staked
The the
FIELD
possible.
cases.
The
case.
recorders
were
used
dipoles.
Figure
7
The current
are
measured
used
to
voltage
determine
and the
the
known
apparent
value
of
the
resistivity
injected
using
the
formula
p = 2pi N ( N + l ) ( N + 2 ) m d V / I
where
N
A
listing
=
the potential dipole,
I
=
the
of
the
and
contoured dipole
the
2.0
point
plied on
for
for
Science
on
BB'
these
offsets
electrode
appropriate
Laboratory
of
is g i v e n
the
had
lengths
difference
values
locations
In p r e p a r i n g
individual
lyzed
on
dipole
the
gap
between
measured
at
for
in
the
section.
next
apparent
pseudosections for
several
to b e
offset
of
the
receive
computing
separations.
two-dimensional the University
resistivities shown
in
Section
due
corrections
apparent
to
were
resistivity
data were
also
earth
models
the
Utah
by
Research
2. near
access
These
of
are
the measurements
slightly
the pseudosection, by
of
current.
data
calculated
actual
problems.
injected
field
The
km
of
AV =
The plotted
the number dipoles,
ap-
based anaEarth
Institute.
LISTING
OF
RAW
DATA
Lacamas
Charts misread initially, correct value » 33.0 37.1
check check
See data, sheet
48.3
check
for V
24.0
Repeat checks 31.8 Repeat
Lacamas
Amps misrecorded on strip chart ?Terrain effects? Ravine edge//To Transmit Barely detectable Offset to SW of line =100 yards to avoid cemetary
Traces are terrible, high noise.
Lacamas
Amps ran up to 10 at beginning of record
Step up to 14 amps on last part of .1 frequency
Strong anisotropy between transmit electrodes
Ran up to 10 amps when starting up Ran up to 10 amps when starting un Very bad trace Offset 300 yards SE (receiver) Receiver offset 300 yards SE Off the line 300 yards SE (receiver) 5mv scale is open to question receiver offset
Power down after 2 minutes of .01 frequency side of hill Current was 8 on 1st try, 7 on 2nd try Very faint Started at 6 amps dropped to 5.2 after a minute Extremely bad trace Receiver offset 300 yards SE Receiver offset 300 yards SE
APPENDIX
14
PRELIMINARY
REPORT
STUDY
ON
NEAR
DIPOLE-DIPOLE CAMAS,
September
1979
RESISTIVITY
WASHINGTON*
To:
J. E r i c Schuster, Assistant Supervisor Geology and Earth Resources Division Washington State Department of Natural Resources Olympia, WA 98504
From:
Science Applications, 1200 Prospect Street La Jolla, CA 92038
Inc.
(Prime
Contractor)
and Exploration Geothermics (Subcontractor) 5202 College Gardens Ct. San Diego, CA 92115
During have
been
north
carried
and
a
possible
The
first
ran
portion
along
from
the
side
of
Lake
along
ed m a p trace as
the
the
with of
equal The
data
the
Fault. for
N-spacing and
dipole
obtained
area
of
potential
in
of
of
beyond
the as
This
line
lies
This
fault
geothermal
made
of N=5
heat
using
a
(separation
receiver
on
of
dipoles five
the
of
the
has
been
hot
fluids
line SW
the
enclos-
approximately
on
the
identified asso-
source.
500 meter of
near
ranging
times
the
end
on
measure-
This
along
north
area.
NW-SE
Lake.
shown
zone
circulation
the
oriented
Camas,
Creek,
investigat-
resistivity
Lacamas of
studies
immediately
purpose
line
town
NW
were
shown
a
shore
l e n g t h , up to
are
on
the
the
hypothesized
the
consisted
Lacamas
line AA').
transmitter to
study
resistivity
the
geothermal
extended of
in
for
kilometers
measurements
a maximum
the
and
conduit
the
of
edge of
valley 1,
Camas
southwestern
the L a c a m a s
with
of
the
northern Lake,
The
*
the
a possible
ciated
east
of
(August) DC
in W a s h i n g t o n
11-line
(Figure of
month
indications
covering
running
past
out
little
ing
ments
the
the
pseudosection
from
dipole
electrodes a
distance
dipole
length).
in F i g u r e
2.
F u n d i n g for this effort w a s p r o v i d e d by the U.S. D e p a r t m e n t of E n e r g y u n d e r C o n t r a c t D E - A C 0 3 - 7 9 E T 2 7 0 1 4 u n d e r c o n t r a c t to t h e Washington State Department of Natural Resources.
As
can
be
line.
seen,
Sharp
fault
resistivity
resistivity
zone may
be
values
are
contrasts
evidence
of
the
not
uniform
present
along
presence
of
along
the
hot,
the
apparent
conductive
fluids.
The Figure order
2
is
of
most the
significant
transition
30 ohm-meters
or
feature
from less
to
of
the
boundary
these
to
be
meters line
from
the
north
perpendicular
point
(line
ments
were made
meters
and
BB'
on
a maximum reduced
could
be
for
the
resistivities
similar
pseudosection
for
This
may
mark
the
or
some
other
sistivity
the m i n i m u m meter very
point
the
point.
The
at
which
the
for
this
small
a
the
contrast
therefore,
sure
at
drop
seems
of
lines
be
point,
clear.
the
some but
in
feel
resistivity
between
may,
this
two
Near
N=4
some
cross.
the
and
5 values
presence
of
of
of
seems the
high
the
found. Lacamas
BB' the
re-
suggest 1.5
kilo-
regarding
the
the
the
distinct
line
limit
regarding
were
occurring
N=5,
side
intersection
most
of
en-
data
of
skepticism
at
250
portion the
for
was
of
with
vicinity
At
measure-
geology
crossed
5.5 ohm-meters
question the
the
this
pseudosection
left
values
The
cross
that
The
The
BB'
the
kilo-
through
point
center
line
of
resistivities
a layered
2).
a
length
N).
3.
pseudosection
author's
measurement
larger
boundary.
are
a
resistivity
at w h i c h
geologic on
such
in t h e
reduced
low
the
4.25
detail,
a dipole
in F i g u r e
(Figure
out
greater
on
suggested
a point
laid
(the
to
for
those
AA'
was
using N=5
at
in
in e x c e s s
Accordingly,
gain
3 suggests
resistivities
low N=5
point
sharply
contrasts
To
strength
to
line
about
line
of
values
pseudosection
line.
line
shown
Figure
line
1).
obtained
is
in
with
the
spacing
pseudosection
Fault
first
signal
line
AA',
the
this
reliably
second
of
Figure
along
countered not
to
end
pseudosection
resistivities
Examination zones
the
low-resistivity
100 ohm-meters. between
on
at
signal
the
the strength
detection, extreme.
There
quantitative
a pronounced
and
mea-
resistivity
Line (left
on
BB'
Figure
development. the
slope
canic low
could
3)
The
of
line
Mountain.
in
this
to
allow
area the
area
course
can
to
the
of
of
extended the
which
seen
the
the
it
the
lowest
study,
even
at
north
right
of
were
one
of
of
vol-
Figure
property
owner
that
this
encountered
is
3,
obtained
clear
resistivities
a
up
approached
local
allowance
northeast,
not
nonetheless
when
housing
side
measurements
points
is
a new
appearance
the
the
southwest
has
refusal
land,
of
the
to
the
several
to
farther
from
as
farther
intervention
carried
found
his
some
of
be
were
because
displays
of
was
Although
access
be
Mountain,
As
resistivities
Green
because
Green
feature.
not
made
for
in
terrain
affects.
The mands
primary
study. the
that
a
limit
second the
line.
enhances
be
fully
for
remains
to
able
data
of
of
AA'
lines
very
low
selected
its
those
at
of
siting
of
the
and
km
BB'
try
to
a
values.
follow
the
far It
end,
at
Unfortunately the
As
Since
this
BB'
Lacamas
southern
from
near
the
area this
the
to could
project
holes avail-
the
intersection
contrast
resistivity and
much
resistivity
discussed,
Fault
is
gradient
resistivity the
of
the
site
already
sharp
of
thermal
one
line
the
noting
proximity
constraints
planned
southeast
is w o r t h
the
com-
resistivity
in r e s i s t i v i t i e s
implications
on
as
clearly
the
detected
north
Selecting
point
marks
was
Lake of
feasible.
the
straightforward. 1.5
results
change
within
the
Lacamas
extended
was
this
discussed.
the
the
significance.
resistivity to
as
of
contrast
While
question
be
vicinity
also
Camas
than
the
is
was
investigated
The results
on
AA'
of
end
based
resistivity
pronounced
Camas not
line
vicinity
of
the
attention
However
into
less
area
the
with
lines
were
Boundary
(possibly the
another
northern
that
hot
face
in
the
north
could
section
fluids the
end
of a
yards
BB'.
steep
gradient
of
(Figure
both
gravity
help
to
mas
site
4).
and
site
(including
be
able
by
for
the
be
to
shown hole
zone
rise
toward of
kilometer
of
test
hole
measurements
just
north
the
would
gravity
thus
be
contrasts.
in
problems
being
the
a
surat
few
the on
cross-
the
of
the
prepared
an
This
institutional outside
map
hope
Corporation,
the
on
to
the
within
point
along
land
Zellerbach
drilling
place
found
reasonable
A block
Crown
test
1.5
also
resistivity any
it w o u l d
intersection.
gravity as
resistivity
by
area marked
site
that
should
might
shoreline
zone
also
be of
by
enLaca-
Creek).
hole
is not
dence
of
as
resistivity on
case
could
Green
values to
made
remain the
for
low
limit
been
discussed.
the
The complex.
line
Lake
one end
test of
line
line
along
an
the
can be line
area
area of
Finally,
where
of
the
available authors
around hole
resistivity
the
study
seen
AA'
A
this
is
about
9
the
strong
interest, area
again to
Figure
area.
considerable there
evi-
Lacamas
measured.
resistivities
occurring
from
from
of
gives
9.5
at
the
decline kilo-
AA'.
on
the
The
As
thermal gradient test
investigation
apparently
selection
Based
below,
Lacamas
the
transition
along
cussed
of
second
of
further
already end
the
areas.
represents
meters
north
for
also
southeast
that
site
Mountain
has
with
a
interesting
northwest be
of
straightforward.
several
Lake
as
AA',
owned
of
The
Selection
2,
the
would
the
Lake,
minimize
countered
of
low
should
feasible
in
Lacamas
Danes
depth
the Lake,
This
the
line
southeast
line,
end
at
of
vicinity
provide
hundred
fault) of
the is
AA',
data
favor
small
to it
site
be
a
lake
sited
seems
for and
the four
site
the
the
Dead
south Lake.
anomalous
reasonable
test
hole
considerations,
near
called on
second
to
site
dis-
end
of
(1)
Given
area the
is
at
the
second
on
a
different
the
area
the
several
northwest
related. sents if
runs also
tified south
in
that
at
at
the
the
associated
could
from end
the
also
margin
of
aeromagnetic
to C a m a s
must
be
requires
be
to
an
has
streams
no
stagnant that of
it
is
of
of w h e t h e r
or
The shown
as
it o r
"T"s
to
sound
cable. not
More
this
lake
recommendations on
Figure
1.
(3) The
local
it
proximity
one
could
to
to
reach
person be
If o n l y
an
the
of a
drilling
the trend
the
low
is
because a
it
small,
indicate
attempt
a
the bottom
a volcanic
test
iden-
Lake
not
raised
a
development
Lake" is
of
even
that
lineaments
for
repre-
gravity
feature
residents
Reportedly,
unable
as
a
un-
of placing
(4) Dead
"Dead it;
are
resource
positive
prospect
users.
with
than
affect
Camas,
Called
deep.
it w a s
major
draining
Conversations
exceptionally
ago
feet
feature.
feeding
pond.
years
1500
interesting
potential
that
(2) Selection
the
in
however,
geothermal
the major
the
unlikely
lake,
considered.
is p r e s e n t ,
itself
the
of
resource close
have
data.
also
the a
is
feature
resistivities
not.
through
temperature it
of
do
it
low
mark
end
one
geothermal
then
end
will
with
a
having
south
northeast-southwest be
is
Lake,
north
Lake
on
there
area
that
the
Dead
hole
If
Lacamas
anomaly
near
test
of
area
anomalies
second
may
The
site
that
zones
a second
the
hole
anomaly.
the
number with
question
feature.
locations
are
Figure
1.
Map of the Camas area showing Two suggested test hole sites l e t t e r "T".
resistivity lines. are marked w i t h the
Figure
2.
Pseudosection for line km. Resistivities are scale is e x a g g e r a t e d by
AA' . Dipole length in o h m - m e t e r s . The a factor of two.
was 0.5 vertical
Figure
3.
Pseudosection w a s 0 . 2 5 km
for
line
BB'.
Dipole
length
UNIV.
OF
PUGET
B O U G U E R
C
A
M
A
S
A R E A ,
S O U N D ,
TACOMA,
G R A V I T Y
W A S H I N G T O N 1979
F i g u r e 4. Gravity map for the C a m a s * area prepared by Danes; possible test h o l e s i t e s d i s c u s s e d in t h e text a r e market by the letter "T".
WA.
M A P
A
Z. F. D a n e s
N
D
O
R
E
G
O
N
