South River Aquatic Environment

South River Aquatic Environment

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Expert Panel Question • What critical gaps remain in our understanding of the South River aquatic environment that specifically impact remedial options selection and implementation?

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Presentations • Quantification of Conceptual Model for Methylmercury Supply to Smallmouth Bass (Reed Harris) • Phase II 2010 Ecological Study (Greg Murphy) • Trophic Analysis and Modeling - Aquatic Component (Mike Newman)

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Quantification of Conceptual Model for Methylmercury Supply to Smallmouth Bass Reed Harris

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Phase II 2010 Ecological Study Greg Murphy

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Overview: Ecological Study Phase I: Year 1

Geomorphology

Phase I: Year 2 SRST Studies

Phase II SRST Studies Support Remedial Options Program

Source Area Characterization

SRST Studies

Hydrology/ Hydraulics Integration: Geospatial Analysis

Physical Loading Characterization

Data Integration and Statistical Evaluations

Address Gaps in Physical and Biological Assessments

Storm Event Sampling Food Web Development

Baseline Physical and Biological Assessments

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SRST Studies

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Assess Environmental Impacts

SRST Studies

Phase II 2010 Study Objectives 1. Support Remedial Options Program 2. Monitor surface water and tissue 3. Evaluate the movement and disposition of mercury in the aquatic environment 4. Assess potential impacts to benthic macroinvertebrate communities

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Phase II 2010 Study Locations

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Movement of Mercury in the Aquatic Environment 2010 Studies •

Fish population / community, tissue, and stomach content analyses

•

Mercury uptake (in situ) by aquatic invertebrates

•

Basal resource utilization by aquatic consumers (URS / VIMS)

•

Bioaccumulation modeling

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Fish Population / Community Assessments •

Spring and summer 2010

•

Locations RRM 0.1, 3.5, 11.8, 23.5, SR-01, and MR-01

•

3-pass depletion by electrofishers

•

Identified, counted, and weighed all fish; measured subset

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Total of 40 Fish Species Collected in South River 35

Number of Fish Species Richness (No. ofSpecies Fish Species)

Spring Summer

30 Notes:

25

Includes total number of species captured during all three passes. Data from spring and summer 2010.

20

Preliminary Results 15

10

5

0 SR-01 REF

RRM 0.1

RRM 3.5

RRM 11.8

Location Location

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

RRM 23.5

MR-01 REF

Fish Community Increased in Diversity Since 1970 Number of Fish Species Species Richness (No. of Fish Species)

35

1970 2006

30

2010

25

Notes: Data from summer 1970, summer 2006, and summer 2010.

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Preliminary Results

15

10

5 0

0 SR-01 REF

RRM 0.1-1

RRM 3-6

RRM 8-12

Location Location

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

RRM 14-15

Invertivorous Fishes Important in Fish Community Percent Composition Fish Community Composition

100%

Piscivore Invertivore Omnivore

80%

Herbivore Notes:

60%

Data from spring 2010.

Preliminary Results 40%

20%

0% SR-01

RRM 0.1

RRM 3.5

RRM 11.8 RRM 23.5

Location Location

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

MR-01

Population Estimates for All Fish Species Combined (Spring) Population Size (fish/ha) (fish/ha) Population Population Estimate Estimate (fish/ha) (fish/ha) Population Size

8000

Notes: Population estimates with adjusted 95% confidence intervals calculated using MicroFish 3.0. Data normalized based on acreage of sampling locations.

7000 6000

All fish species combined.

5000

Data from spring 2010.

Preliminary Results

4000 3000 2000 1000 0 SR-01 REF

RRM 0.1

RRM 3.5

RRM 11.8

Location

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

RRM 23.5

MR-01 REF

Population Estimates for Selected Fish Species (Spring) Population Estimate (fish/ha) Population Size (fish/ha)

250

SMB LMB

200

RBS Notes: Population estimates with adjusted 95% confidence intervals calculated using MicroFish 3.0. Data normalized based on acreage of sampling locations. Data from spring 2010. SMB = Smallmouth bass LMB = Largemouth bass RBS = Redbreast sunfish

150

100

50

Preliminary Results

0 SR-01 REF

RRM 0.1

RRM 3.5

RRM 11.8

Location

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

RRM 23.5

MR-01 REF

Fish Tissue Analyses •

Spring and summer 2010

•

Locations RRM 0.1, 3.5, 11.8, 23.5

•

Dorsal muscle plug from multiple size classes of bass and sunfish

•

Whole-body forage fish

•

Bass tagged for unique ID during future re-sampling (25 recaps)

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Bass and Sunfish

Forage Fish

6000

1500

5000 4000 3000 2000

SPECIES LMB RBS SMB

1000 0

RRM 0.1

RRM 3.5

RRM 11.8 RRM 23.5

THg wet (Drywt., Wt.,whole-body) ug/kg) THg (ng/g

THg (ng/g wet wt.,Wt., muscle tissue plug) THg (Dry ug/kg)

Fish Tissue Results (Spring)

1000

500 SPECIES COS LGND 0

LOCATION

RRM 3.5

RRM 11.8 RRM 23.51

LOCATION

Notes: SMB = Smallmouth bass, LMB = Largemouth bass, RBS = Redbreast sunfish, COS = Common shiner, LGND = Longnose dace Data from spring 2010.

Preliminary Results 17

RRM 0.1

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Fish Stomach Content Analyses •

Spring, summer, and fall 2010

•

Locations RRM 0.1, 3.5, 11.8, 23.5

•

Pulsed gastric lavage on multiple size classes of bass and sunfish; anterior intestine of forage fish

•

ID to lowest taxonomic level; calculate % diet composition by wet weight

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Fish Stomach Content Results (Spring) Largemouth Bass Largemouth Bass

Smallmouth Bass Smallmouth Bass 100%

Percent Wt. PercentDiet Dietby by Wet Weight

Percent Wt. PercentDiet Dietby by Wet Weight

100% 80% 60% 40% 20%

Vegetation Mollusca Miscelllaneous Insecta (Terrestrial) Insecta (Aquatic) Fish Detritus Crustacea Annelida

80% 60% 40% 20%

Notes:

0%

0% < 175 mm

175 - 250 mm

> 250 mm

Data from spring 2010.

< 175 mm

Size Class

Redbreast Red BreastSunfish Sunfish

Preliminary Results

Forage Fish Forage Fish 100%

Percent Wt. PercentDiet Dietby by Wet Weight

Percent Diet by Wet Wt. Percent Diet by Weight

> 250 mm

Size Class

100% 80% 60% 40% 20%

80% 60% 40% 20% 0%

0% < 100 mm

100 - 150 mm

LND

> 150 mm

CMS Species

Size Class

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175 - 250 mm

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Mercury Uptake by Aquatic Invertebrates •

Spring and summer 2010 at RRM 3.5, 11.8, and 23.5

•

Transplanted reference mayfly larvae and crayfish

•

Aqueous and dietary treatments

•

7-day uptake period

•

Collected day-0 and day-7 periphyton, seston, surface water, detritus/sediment, and resident biota; analyzed for THg and MeHg

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Crayfish Had Greater Mercury Uptake by Diet (Spring) THg Uptake

MeHg Uptake 80

80

p < 0.001

MeHg (PPB, wet. wt)

THg (PPB, wet. wt)

p = 0.001

60

40

20

60

40

20

0

0

Aqueous Diet TREAT Notes: Data from spring 2010.

Preliminary Results

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Aqueous Diet TREAT

Crayfish cont’d 80

80 p = 0.058

40

20

40

20

0

Aqueous Diet RRM 3.5

80

80

60

40

20

0

Aqueous Diet RRM 3.5

Preliminary Results 22

40

20

60

40

20

0

Aqueous Diet RRM 23.5

80 p = 0.037

MeHg (PPB, wet. wt)

MeHg (PPB, wet. wt)

p = 0.045

60

0

Aqueous Diet RRM 11.8

p = 0.021

MeHg (PPB, wet. wt)

0

60

p = 0.006

THg (PPB, wet. wt)

THg (PPB, wet. wt)

THg (PPB, wet. wt)

p = 0.036

60

80

Aqueous Diet RRM 11.8

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

60

40

20

0

Aqueous Diet RRM 23.5

Mayfly Had Greater MeHg Uptake by Water (Spring) THg Uptake

MeHg Uptake

300

300

200

100

0

p = 0.012

MeHg (PPB, wet. wt)

THg (PPB, wet. wt)

p = 0.009

Aqueous Diet TREAT

200

100

0

Notes: Data from spring 2010.

Preliminary Results 23

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Aqueous Diet TREAT

Mayfly cont’d 250

250 p = 0.317

p = 0.034

100 50

150 100 50 0

Aqueous Diet RRM 3.5

250

0

Aqueous Diet RRM 11.8

100 50

200 150 100

Preliminary Results

p = 0.035

0

200 150 100 50

50

Aqueous Diet RRM 3.5

Aqueous Diet RRM 23.5

250

MeHg (PPB, wet. wt)

150

100

p = 0.136

MeHg (PPB, wet. wt)

MeHg (PPB, wet. wt)

200

150

50

250 p = 0.888

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200 THg (PPB, wet. wt)

150

0

p = 0.667

200 THg (PPB, wet. wt)

THg (PPB, wet. wt)

200

0

250

0 Aqueous Diet RRM 11.8

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Aqueous Diet RRM 23.5

Bioaccumulation Modeling • Integrate aquatic communities, fish food habits, and MeHg in physical media • Simulate MeHg bioaccumulation dynamics in resident fish communities • Assess modeled results as they relate to remedial options program Fish Bioenergetics • Growth • Diet • Metabolic Rate • Reproduction

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Dietary

Unassimilated

MeHg

MeHg

Sediment

Aqueous

Excreted

MeHg

MeHg

MeHg

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Assessing Benthic Macroinvertebrate Communities 2010 Studies 1. Sediment Quality Triad 2. Field-based (in situ) microcosm study

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Sediment Quality Triad Includes Three Lines of Evidence 1. Sediment chemistry •

Benthic Community

Metals, pesticides, herbicides, PAHs, and PCBs

2. Sediment toxicity •

Hyalella azteca and Chironomus dilutus

SQT

3. Benthic macroinvertebrate community structure

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Sediment Toxicity

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Sediment Chemistry

Sediment Toxicity Assessed with Representative Sediments Sediment Sediment THg THg

Sediment Sediment MeHg 800

200 150 100 50 0

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MeHg (PPB) Sediment MeHg (ppb, dry wt.)

THg Sediment THg(PPM) (ppm, dry wt.)

250

700 600 500 400 300 200 100 0

Historical Triad Phase I 2010 SQT SAMPLE Sampling Period

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Historical TriadSQT Phase I 2010 SAMPLE Sampling Period

Survival and Growth of H. azteca Survival

Growth Growth 0.20

120

P e rc e n t S u rv iv a l (% )

G ro w th (m e a n d ry w t. a s m g /o rg a n is m

*

100

80

60

40

20

0.16

0.12

0.08

0.04

0.00

0 0

20

40

60

80

100

120

0

40

60 Sediment MeHg (ppb, dry wt.)

Sediment MeHg (ppb, dry wt.)

USEPA Method 100.1 *Statistically different from one or more reference locations

Preliminary Results 29

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

80

100

120

Survival and Growth of C. dilutus Survival Survival

Growth Growth 3.5

*

100

P e rc e n t S u rv iv a l (% ).

G ro w th (m e a n a s h -fre e d ry w t. a s m g /o rg a n is m )

120

80

60

40

20

0

3.0 2.5

*

2.0 1.5 1.0 0.5 0.0

0

20

40

60

80

100

120

0

Sediment MeHg (ppb, dry wt.)

40

60 Sediment MeHg (ppb, dry wt.)

USEPA Method 100.1 *Statistically different from one or more reference locations

Preliminary Results

30

20

South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

80

100

120

Benthic Community Composition 100%

Predators Scrapers Shredders Gatherers Filterers

Percent Composition

80%

Notes: Data from spring 2010.

60%

Preliminary Results

40%

20%

0% SR-01 REF

RRM 0.1

RRM 3.5

RRM 11.8

Location

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

RRM 23.5

MR-01 REF

Species Richness (No. of of Taxa Unique Species Number

Benthic Community Increased in Taxa Richness Since 1970 50

1970 2006 40

2010 Preliminary Results

30

20

10

0 SR-01 REF

RRM 0.1-1

RRM 3-6

RRM 8-12

Location Location

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

RRM 14-15

Field-based (In Situ) Microcosm Study •

Summer 2010

•

Deployed 4 chambers with colonized substrate trays

•

7-day exposure period

•

500-organism sub-count and ID; Head capsule widths of Baetis and Cheumatopsyche

•

Taxonomic results anticipated in December 2010

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Next Steps • Field sampling (surface water, fish stomach contents, forage fish tissue, and isotopes) in October / November • Data evaluations • Bioaccumulation modeling • NRDC consultation in December

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010

Trophic Analysis and Modeling Aquatic Component

Mike Newman

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South River Aquatic Environment 2010 Expert Panel Meeting October 5, 2010