Projections of Relative Sea-level Change in the Canadian ... - ArcticNet
Earth Sciences Sector
Projections of Relative Sea-level Change in the Canadian Arctic
Arviat, Nunavut
Thomas James1,2, Karen Simon2,1, Donald Forbes1,3, Arthur Dyke1, Stephane Mazzotti1,2, Dave Mate1,4, James Stephaniuk2,1 1Geological
Survey of Canada, 2University of Victoria, BC, Canada 3Memorial University of Newfoundland, 4Canada Nunavut Geoscience Office
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Past, Present and Future Global Sea Level IPCC AR4 = Fourth Assessment Report of the Intergovernmental Panel on Climate Change
© IPCC AR4 2007
Earth Sciences Sector
Sea-level Change in the North
Northern communities are supplied by sea-lift – sea-level change has implications for port and wharf facilities -coastline erosion issues -coastline and oceans support traditional lifestyle
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Semi-Empirical Sea-level Projections Correlate past sea-level change to temperature change Use IPCC projections of future temperature change Apply the correlation to project future sea-level change
Result: Sea-level projections are much larger than IPCC AR4 projections
Vermeer and Rahmstorf, PNAS, 2009
Earth Sciences Sector
Global Sea-level Projections After IPCC AR4 Upper bound
The IPCC AR4 projected 15 to 50 cm of sea-level rise from 2010 to 2100 (90 years). Later publications project larger amounts of sea-level rise.
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Sea-level Change in the North Raised beaches on shore of Hudson Bay
Earth Sciences Sector
Paleo-sea-level and GPS Over 11,000 observations of paleo-sea-level. Contoured at 500 year intervals GPS – relatively sparse, recently infilled Presently processing the network shown here.
Vertical land motion from past sea-level change
Earth Sciences Sector
Contours are amount of sea-level fall in last 500 years Slope at t=0 empirical current uplift rate
Dyke, 1996, and updates
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “Sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Sea-level Fingerprinting Antarctica Melt water from ice sheets and glaciers is NOT distributed uniformly. Greenland
Mountain glaciers and ice caps
Antarctica
A contribution from Greenland of 1 mm/yr global sea-level rise will cause sea level to DROP by 1.2 mm/yr at Iqaluit.
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada
Summary and a look forward
Earth Sciences Sector
Assembling the Ingredients: Fingerprinting
Sea-level fingerprinting reduces global sea-level rise substantially in northern Canada.
Earth Sciences Sector
Assembling the Ingredients: Vertical Crustal Motion
~0 uplift Slower uplift Rapid uplift
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada
Summary and a look forward
Earth Sciences Sector
Sea-level Projections for Five Northern Communities
Earth Sciences Sector
Summary Projections of sea-level in northern Canada differ substantially from one location to another Vertical crustal motion Sea-level fingerprinting
Most locations will experience sea-level rise at amounts less than the average global sea-level rise Some locations are likely to experience sea-level fall
Earth Sciences Sector
Looking Forward Sea-level Projections for Northern Canada
Earth Sciences Sector
Projections of Relative Sea-level Change in the Canadian Arctic
Arviat, Nunavut
Thomas James1,2, Karen Simon2,1, Donald Forbes1,3, Arthur Dyke1, Stephane Mazzotti1,2, Dave Mate1,4, James Stephaniuk2,1 1Geological
Survey of Canada, 2University of Victoria, BC, Canada 3Memorial University of Newfoundland, 4Canada Nunavut Geoscience Office
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Past, Present and Future Global Sea Level IPCC AR4 = Fourth Assessment Report of the Intergovernmental Panel on Climate Change
© IPCC AR4 2007
Earth Sciences Sector
Sea-level Change in the North
Northern communities are supplied by sea-lift – sea-level change has implications for port and wharf facilities -coastline erosion issues -coastline and oceans support traditional lifestyle
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Semi-Empirical Sea-level Projections Correlate past sea-level change to temperature change Use IPCC projections of future temperature change Apply the correlation to project future sea-level change
Result: Sea-level projections are much larger than IPCC AR4 projections
Vermeer and Rahmstorf, PNAS, 2009
Earth Sciences Sector
Global Sea-level Projections After IPCC AR4 Upper bound
The IPCC AR4 projected 15 to 50 cm of sea-level rise from 2010 to 2100 (90 years). Later publications project larger amounts of sea-level rise.
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Sea-level Change in the North Raised beaches on shore of Hudson Bay
Earth Sciences Sector
Paleo-sea-level and GPS Over 11,000 observations of paleo-sea-level. Contoured at 500 year intervals GPS – relatively sparse, recently infilled Presently processing the network shown here.
Vertical land motion from past sea-level change
Earth Sciences Sector
Contours are amount of sea-level fall in last 500 years Slope at t=0 empirical current uplift rate
Dyke, 1996, and updates
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “Sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada Summary and a look forward
Earth Sciences Sector
Sea-level Fingerprinting Antarctica Melt water from ice sheets and glaciers is NOT distributed uniformly. Greenland
Mountain glaciers and ice caps
Antarctica
A contribution from Greenland of 1 mm/yr global sea-level rise will cause sea level to DROP by 1.2 mm/yr at Iqaluit.
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada
Summary and a look forward
Earth Sciences Sector
Assembling the Ingredients: Fingerprinting
Sea-level fingerprinting reduces global sea-level rise substantially in northern Canada.
Earth Sciences Sector
Assembling the Ingredients: Vertical Crustal Motion
~0 uplift Slower uplift Rapid uplift
Earth Sciences Sector
Outline Sea-level projections – why are they needed? Components (ingredients) of a sea-level projection Global projections of sea-level change Local vertical crustal motion “sea-level fingerprinting”
Assembling the ingredients Results – big differences from location to location in northern Canada
Summary and a look forward
Earth Sciences Sector
Sea-level Projections for Five Northern Communities
Earth Sciences Sector
Summary Projections of sea-level in northern Canada differ substantially from one location to another Vertical crustal motion Sea-level fingerprinting
Most locations will experience sea-level rise at amounts less than the average global sea-level rise Some locations are likely to experience sea-level fall
Earth Sciences Sector
Looking Forward Sea-level Projections for Northern Canada
Earth Sciences Sector
