Scientific Reports, 10 January 2022
Rising global temperatures have shifted westerly winds closer to the Antarctic continent, sending warm eddies of water into cavities at the base of Antarctica’s ice sheets, and accelerating the flow of meltwater into the ocean. During the past 20 years, the flow of Antarctic meltwater into the Southern Ocean has increased to a new maximum of 268 gigatons per year. Since 1960, this meltwater has contributed 63%, 28%, and 92% of the total freshening in the Atlantic, Indian, and Pacific regions of Antarctica’s coastal waters, respectively. This freshening of the Southern Ocean prevents certain stratification (ocean water layers) patterns from fully forming. Much like the more well-known freshening and warming in the North Atlantic with Greenland ice sheet loss, this Southern Ocean freshening may eventually weaken the AMOC, one of the largest overturning circulation systems in the world. The dramatic ice loss occurring along the edges of Antarctica, and intensified freshening may also have negative impacts on Southern Ocean ecosystems and species; and underscores the influence this ice sheet holds over the global climate system.
Philosophical Transactions of the Royal Society, 23 April 2026 Observations suggest we are currently tracking…
NPJ Natural Hazards, 16 April 2026) Rising temperatures and shifting regional precipitation patterns are reducing…
Nature Communications, 18 March 2026 This study identified a marked increase in both flood frequency…
The Cryosphere, 7 April 2026 Projections of Antarctica’s response to temporary but extreme ocean warming…
The Cryosphere, 1 April 2026 Antarctic sea ice stayed fairly steady from 2010-2014, but began…
Changes in Antarctica can trigger fast and cascading impacts, often with global consequences. Multiple abrupt…