West Antarctic Ice Sheet

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Coordinates: 78°44′03″S 133°16′41″W / 78.73417°S 133.27806°W / -78.73417; -133.27806

A map of West Antarctica
A topographic and bathymetric map of Antarctica without its ice sheets, assuming constant sea levels and no post-glacial rebound
A collage of footage and animation to explain the changes that are occurring on the West Antarctic Ice Sheet, narrated by glaciologist Eric Rignot

The Western Antarctic Ice Sheet (WAIS) is the segment of the continental ice sheet that covers West Antarctica, the portion of Antarctica on the side of the Transantarctic Mountains that lies in the Western Hemisphere. The WAIS is classified as a marine-based ice sheet, meaning that its bed lies well below sea level and its edges flow into floating ice shelves. The WAIS is bounded by the Ross Ice Shelf, the Ronne Ice Shelf, and outlet glaciers that drain into the Amundsen Sea.

Description[]

It is estimated that the volume of the Antarctic ice sheet is about 25.4 million km3 (6.1 million cu mi), and the WAIS contains just under 10% of this, or 2.2 million km3 (530,000 cu mi).[1] The weight of the ice has caused the underlying rock to sink by between 0.5 and 1 kilometre (0.31 and 0.62 miles)[2] in a process known as isostatic depression.

Under the force of its own weight, the ice sheet deforms and flows. The interior ice flows slowly over rough bedrock. In some circumstances, ice can flow faster in ice streams, separated by slow-flowing ice ridges. The inter-stream ridges are frozen to the bed while the bed beneath the ice streams consists of water-saturated sediments. Many of these sediments were deposited before the ice sheet occupied the region, when much of West Antarctica was covered by the ocean. The rapid ice-stream flow is a non-linear process still not fully understood; streams can start and stop for unclear reasons.[citation needed]

When ice reaches the coast, it either calves or continues to flow outward onto the water. The result is a large, floating ice shelf affixed to the continent.[3]

Ice mass loss[]

Indications that the West Antarctic Ice Sheet is losing mass at an increasing rate come from the Amundsen Sea sector, and three glaciers in particular: Pine Island Glacier, Thwaites Glacier and Smith Glacier.[4] Data reveals these three glaciers are losing more ice than is being replaced by snowfall. According to a preliminary analysis, the difference between the mass lost and mass replaced is about 60%. The melting of these three glaciers alone is contributing an estimated 0.24 millimetres (0.0094 inches) per year to the rise in the worldwide sea level.[5] There is growing evidence that this trend is accelerating: there has been a 75% increase in Antarctic ice mass loss in the ten years 1996–2006, with glacier acceleration a primary cause.[6] As of November 2012 the total mass loss from the West Antarctic Ice Sheet is estimated at 118 ± 9 Gt/y mainly from the Amundsen Sea coast.[7]

Satellite measurements by ESA's CryoSat-2 revealed that the West Antarctic Ice Sheet is losing more than 150 cubic kilometres (36 cubic miles) of ice each year. The loss is especially pronounced at grounding lines, the area where the floating ice shelf meets the part resting on bedrock, and hence affects the ice shelf stability and flow rates.[8]

Potential collapse[]

Large parts of the WAIS sit on a bed which is both below sea level and sloping downward inland.[A] This slope, and the low isostatic head, mean that the ice sheet is theoretically unstable: a small retreat could in theory destabilize the entire WAIS, leading to rapid disintegration. Current computer models do not account well for the complicated and uncertain physics necessary to simulate this process, and observations do not provide guidance, so predictions as to its rate of retreat remain uncertain. This has been known for decades.[9]

In January 2006, in a UK government-commissioned report, the head of the British Antarctic Survey, Chris Rapley, warned that this huge West Antarctic Ice Sheet may be starting to disintegrate. It has been hypothesised that this disintegration could raise sea levels by approximately 3.3 metres (11 ft).[10] (If the entire West Antarctic Ice Sheet were to melt, this would contribute 4.8 m (16 ft) to global sea level.)[11] Rapley said a previous (2001) Intergovernmental Panel on Climate Change (IPCC) report that played down the worries of the ice sheet's stability should be revised. "I would say it is now an awakened giant. There is real concern."[5]

Rapley said, "Parts of the Antarctic ice sheet that rest on bedrock below sea level have begun to discharge ice fast enough to make a significant contribution to sea level rise. Understanding the reason for this change is urgent in order to be able to predict how much ice may ultimately be discharged and over what timescale. Current computer models do not include the effect of liquid water on ice sheet sliding and flow, and so provide only conservative estimates of future behaviour."[12]

Polar ice experts from the US and UK met at the University of Texas at Austin in March, 2007 for the West Antarctic Links to Sea-Level Estimation (WALSE) Workshop.[13] The experts discussed a new hypothesis that explains the observed increased melting of the West Antarctic Ice Sheet. They proposed that changes in air circulation patterns have led to increased upwelling of warm, deep ocean water along the coast of Antarctica and that this warm water has increased melting of floating ice shelves at the edge of the ice sheet.[13] An ocean model has shown how changes in winds can help channel the water along deep troughs on the sea floor, toward the ice shelves of outlet glaciers.[14] The exact cause of the changes in circulation patterns is not known and they may be due to natural variability. However, this connection between the atmosphere and upwelling of deep ocean water provides a mechanism by which human induced climate changes could cause an accelerated loss of ice from the WAIS.[14] Recently published data collected from satellites support this hypothesis, suggesting that the West Antarctic Ice Sheet is beginning to show signs of instability.[4][15] On 12 May 2014, it was announced that two teams of scientists said the long-feared collapse of the Ice Sheet had begun, kicking off what they say will be a centuries-long, "unstoppable" process that could raise sea levels by 1.2 to 3.6 metres (3.9 to 11.8 ft)[16][17] They estimate that rapid drawdown of Thwaites Glacier will begin in 200 – 1000 years.[18] (Scientific source articles: Rignot et al. 2014 [19] and Joughin et al. 2014.[20])

In 2016, improved computer modeling revealed that the breakup of glaciers could lead to a steep rise in sea levels much more quickly than previously projected. “We’re in danger of handing young people a situation that’s out of their control,” according to James E. Hansen, the leader of a number of climate scientists who worked together to compile the study.[21] In 2018, scientists concluded that high sea levels some 125,000 years ago, which were 6–9 m (20–30 ft) higher than today, were most likely due to the absence of the WAIS, and found evidence that the ice sheet collapsed under climate conditions similar to those of today.[22][23]

Warming[]

The West Antarctic ice sheet (WAIS) has warmed by more than 0.1 °C (0.18 °F)/decade in the last fifty years, and the warming is the strongest in winter and spring. Although this is partly offset by fall cooling in East Antarctica, this effect was restricted to the 1980s and 1990s. The continent-wide average surface temperature trend of Antarctica is positive and statistically significant at >0.05 °C (0.090 °F)/decade since 1957.[24] This warming of WAIS is strongest in the Antarctic Peninsula. In 2012, the temperature records for the ice sheet were reanalyzed with a conclusion that since 1958, the West Antarctic ice sheet had warmed by 2.4 °C (4.3 °F), almost double the previous estimate. Some scientists now fear that the WAIS could now collapse like the Larsen B Ice Shelf did in 2002.[25]

The possible disastrous outcome of a disintegration of the WAIS for global sea levels has been mentioned and assessed in the IPCC Third Assessment Report but was left out in the IPCC Fourth Assessment Report. Jessica O'Reilly, Naomi Oreskes and Michael Oppenheimer discussed the case in a Social Studies of Science paper 2012. According to them, IPCC authors were less certain about potential WAIS disintegration not only due to external new science results. As well pure internal "cultural" reasons, as changes of staff within the IPCC and externally, made it too difficult to project the range of possible futures for the WAIS as required.[26] Mike Hulme saw the issue as a showcase to urge for the integration of minority views in the IPCC and other major assessment processes.[27]

Volcanoes[]

In 2017, geologists from Edinburgh University discovered 91 volcanoes located two kilometres below the icy surface, making it the largest volcanic region on Earth.[28]

See also[]

Notes[]

  1. ^ In this case, the ice is effectively moving upslope towards the sea.

References[]

  1. ^ Lythe, Matthew B.; Vaughan, David G. (June 2001). "BEDMAP: A new ice thickness and subglacial topographic model of Antarctica" (PDF). Journal of Geophysical Research. 106 (B6): 11335–11352. Bibcode:2001JGR...10611335L. doi:10.1029/2000JB900449.
  2. ^ Anderson, John B. (1999). Antarctic marine geology. Cambridge University Press. p. 59. ISBN 978-0-521-59317-5.
  3. ^ Ice Shelves, Antarctic and Southern Ocean Coalition Archived February 3, 2006, at the Wayback Machine
  4. ^ a b Rignot, E. (2008). "Changes in West Antarctic ice stream dynamics observed with ALOS PALSAR data". Geophysical Research Letters. 35 (12): L12505. Bibcode:2008GeoRL..3512505R. doi:10.1029/2008GL033365.
  5. ^ a b Jenny Hogan, "Antarctic ice sheet is an 'awakened giant'", New Scientist, February 2, 2005
  6. ^ Rignot, E.; Bamber, J. L.; Van Den Broeke, M. R.; Davis, C.; Li, Y.; Van De Berg, W. J.; Van Meijgaard, E. (2008). "Recent Antarctic ice mass loss from radar interferometry and regional climate modelling". Nature Geoscience. 1 (2): 106. Bibcode:2008NatGe...1..106R. doi:10.1038/ngeo102.
  7. ^ King, M. A.; Bingham, R. J.; Moore, P.; Whitehouse, P. L.; Bentley, M. J.; Milne, G. A. (2012). "Lower satellite-gravimetry estimates of Antarctic sea-level contribution". Nature. 491 (7425): 586–589. Bibcode:2012Natur.491..586K. doi:10.1038/nature11621. PMID 23086145. S2CID 4414976.
  8. ^ ESA (December 11, 2013). "Antarctica's ice loss on the rise".
  9. ^ Hughes, Terence J. (1981). "The weak underbelly of the West Antarctic ice-sheet". Cite journal requires |journal= (help)
  10. ^ Bamber J.L.; Riva R.E.M.; Vermeersen B.L.A.; LeBroq A.M. (2009). "Reassessment of the potential sea-level rise from a collapse of the West Antarctic Ice Sheet". Science. 324 (5929): 901–3. Bibcode:2009Sci...324..901B. doi:10.1126/science.1169335. PMID 19443778. S2CID 11083712.
  11. ^ Bamber J.L.; Riva R.E.M.; Vermeersen B.L.A.; LeBroq A.M. (2009). "Reassessment of the potential sea-level rise from a collapse of the West Antarctic Ice Sheet (Supporting Online Material)". Science. 324 (5929): 901–3. Bibcode:2009Sci...324..901B. doi:10.1126/science.1169335. PMID 19443778. S2CID 11083712.
  12. ^ "West Antarctic ice sheet: Waking the sleeping giant?", Symposium, February 19, 2006
  13. ^ a b "Statement: Thinning of West Antarctic Ice Sheet Demands Improved Monitoring to Reduce Uncertainty over Potential Sea-Level Rise". Jsg.utexas.edu. Retrieved 26 October 2017.
  14. ^ a b Thoma, M.; Jenkins, A.; Holland, D.; Jacobs, S. (2008). "Modelling Circumpolar Deep Water intrusions on the Amundsen Sea continental shelf, Antarctica" (PDF). Geophysical Research Letters. 35 (18): L18602. Bibcode:2008GeoRL..3518602T. doi:10.1029/2008GL034939.
  15. ^ Kaufman, Mark (2008) "Escalating Ice Loss Found in Antarctica: Sheets Melting in an Area Once Thought to Be Unaffected by Global Warming" Washington Post (January 14) p. A01 online
  16. ^ "Scientists warn of rising sea levels as huge Antarctic ice sheet slowly melts". Ctvnews.ca. 12 May 2014. Retrieved 26 October 2017.
  17. ^ Justin Gillis (March 30, 2016) "Climate Model Predicts West Antarctic Ice Sheet Could Melt Rapidly" New York Times
  18. ^ Boyle, Alan (12 May 2014). "West Antarctic Ice Sheet's Collapse Triggers Sea Level Warning". Retrieved 12 May 2014.
  19. ^ Rignot, E., J. Mouginot, M. Morlighem, H. Seroussi and B. Scheuch (May 12, 2014). "Widespread, rapid grounding line retreat of Pine Island, Thwaites, Smith and Kohler glaciers, West Antarctica from 1992 to 2011". . 41 (10): 3502–3509. Bibcode:2014GeoRL..41.3502R. doi:10.1002/2014GL060140.CS1 maint: multiple names: authors list (link)
  20. ^ Joughin, Ian, Benjamin E. Smith, Brooke Medley (May 12, 2014). "Marine Ice Sheet Collapse Potentially Underway for the Thwaites Glacier Basin, West Antarctica". Science. 344 (6185): 735–738. Bibcode:2014Sci...344..735J. doi:10.1126/science.1249055. PMID 24821948. S2CID 206554077.CS1 maint: multiple names: authors list (link)
  21. ^ Justin Gillis (March 22, 2016) "Scientists Warn of Perilous Climate Shift Within Decades, Not Centuries" New York Times
  22. ^ Voosen, Paul (2018-12-18). "Discovery of recent Antarctic ice sheet collapse raises fears of a new global flood". Science. Retrieved 2018-12-28.
  23. ^ Turney, Chris S. M.; Fogwill, Christopher J.; Golledge, Nicholas R.; McKay, Nicholas P.; Sebille, Erik van; Jones, Richard T.; Etheridge, David; Rubino, Mauro; Thornton, David P.; Davies, Siwan M.; Ramsey, Christopher Bronk (2020-02-11). "Early Last Interglacial ocean warming drove substantial ice mass loss from Antarctica". Proceedings of the National Academy of Sciences. 117 (8): 3996–4006. Bibcode:2020PNAS..117.3996T. doi:10.1073/pnas.1902469117. ISSN 0027-8424. PMC 7049167. PMID 32047039.
  24. ^ Steig, E. J.; Schneider, D. P.; Rutherford, S. D.; Mann, M. E.; Comiso, J. C.; Shindell, D. T. (2009). "Warming of the Antarctic ice-sheet surface since the 1957 International Geophysical Year". Nature. 457 (7228): 459–462. Bibcode:2009Natur.457..459S. doi:10.1038/nature07669. PMID 19158794. S2CID 4410477.
  25. ^ Matt McGrath (23 December 2012). "West Antarctic Ice Sheet warming twice earlier estimate". BBC News. Retrieved 16 February 2013.
  26. ^ The Rapid Disintegration of Projections: The West Antarctic Ice Sheet and the Intergovernmental Panel on Climate Change Naomi Oreskes, Michael Oppenheimer Social Studies of Science June 26, 2012, doi: 10.1177/0306312712448130
  27. ^ Mike Hulme, "Lessons from the IPCC: do scientific assessments need to be consensual to be authoritative?" in (eds.) Doubleday, R. and Willesden, J. March 2013, page 142 ff
  28. ^ "Scientists discover 91 volcanoes below Antarctic ice sheet". The Guardian. 12 August 2017. Retrieved 13 August 2017.

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