Wilkes Basin Explained
The Wilkes Basin is a large subglacial basin situated generally southward of George V Coast and westward of Prince Albert Mountains in East Antarctica. The feature is approximately 1400 km long and 400 km wide. The Wilkes Basin is considered to be the largest marine-based drainage basin in East Antarctica, and may be in a state of marine ice sheet instability, caused by warm water intrusion into the shelf cavities.[1]
History
It was discovered by the United States Victoria Land Traverse of 1959–1960.[2] It was named by the Advisory Committee on Antarctic Names (US-ACAN) (1961) for the proximity of the western portion of this feature to Wilkes Land, and for the explorations along George V Coast by the United States Exploring Expedition (1838–42) under Lieutenant Charles Wilkes, USN.
Deglaciation
A study reported in Nature Climate Change on May 5, 2014[3] says the marine ice trapped in the basin is at risk of melting over the next 200 years. If unstopped, the East Antarctica ice would then move out into the sea over the next 5,000 to 10,000 years and could raise sea levels worldwide by three to four metres over that span of time.[4] The Intergovernmental Panel on Climate Change (IPCC) reported (with low confidence) in its Sixth Assessment Report that under warming of 3°C to 5°C, the most extreme of three warming scenarios reported, substantial parts or all of Wilkes Subglacial Basin in East Antarctica could melt over several millennia.[5] In 2022, it was included in an extensive assessment of tipping points in the climate system published in Science, where it was grouped alongside several other subglacial basins like the nearby Aurora Basin. It concluded that their collective tipping threshold lies around 3°C, with a range between 2°C and 6°C. Their collapse would then take between 500 and 10,000 years (with a median of 2000 years). The associated change in ice–albedo feedback would be expected to raise the global temperature by an additional 0.05°C. [6] [7]
See also
References
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Notes and References
- . Anders Levermann . Andy Ridgwell . Ken Caldeira . 11 September 2015 . Combustion of available fossil fuel resources sufficient to eliminate the Antarctic Ice Sheet . Science Advances . 1 . 8 . e1500589 . 2015SciA....1E0589W . 10.1126/sciadv.1500589 . 4643791 . 26601273.
- Weihaupt, J., 1961,Geophysical Studies in Victoria Land, Antarctica,Report No. 1, Geophysical and Polar Research Center, University of Wisconsin Madison, 123 pages
- A. Levermann. Mengel. M.. 2014. Ice plug prevents irreversible discharge from East Antarctica. Nature Climate Change. en. 4. 6. 451–455. 10.1038/nclimate2226. 2014NatCC...4..451M. 1758-6798.
- Web site: East Antarctica Melt Could Mean 10 Foot Sea-Level Rise. Heltzel. Paul. 2014-05-05. Seeker. 2019-01-22.
- Fox-Kemper . B. . Hewitt . H.T.. Helene Hewitt . Xiao . C. . Aðalgeirsdóttir . G. . Drijfhout . S.S. . Edwards . T.L. . Golledge . N.R. . Hemer . M. . Kopp . R.E. . Krinner . G. . Mix . A. . 2021 . Masson-Delmotte . V. . Zhai . P. . Pirani . A. . Connors . S.L. . Péan . C. . Berger . S. . Caud . N. . Chen . Y. . Goldfarb . L. . Ocean, Cryosphere and Sea Level Change . Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change . 2021 . Cambridge University Press . Cambridge, UK and New York, NY, USA . 1211–1362 . 10.1017/9781009157896.011. . 9781009157896 .
- Armstrong McKay . David. Abrams . Jesse . Winkelmann . Ricarda . Sakschewski . Boris . Loriani . Sina . Fetzer . Ingo. Cornell. Sarah . Rockström . Johan . Staal . Arie . Lenton . Timothy . 9 September 2022 . Exceeding 1.5°C global warming could trigger multiple climate tipping points . Science . en . 377 . 6611 . eabn7950 . 10.1126/science.abn7950 . 36074831 . 10871/131584 . 252161375 . 0036-8075. free .
- Web site: Armstrong McKay . David . 9 September 2022 . Exceeding 1.5°C global warming could trigger multiple climate tipping points – paper explainer . 2 October 2022 . climatetippingpoints.info . en.