Nature Communications, 1 April 2023
Increased warm water upwelling along the edges of the East Antarctic Ice Sheet (EAIS) has the potential to increase ice loss and resulting sea-level rise from the EAIS over the next 200 years, especially in the most vulnerable sections of the ice sheet. In addition to a general warming of the atmosphere and ocean, global heating has the potential to shift the water mass in contact with Antarctic ice shelves from the relatively cool shelf water seen today, to a warmer regime dominated by warmer water from the deeper ocean. This could lead to a 4X increase in the amount of ice lost in both medium- and high-emissions scenarios. The authors do not believe intrusion by these warm deep waters would occur across the entirety of East Antarctica (in the worst-case scenario), but the possibility of increased warm water contact (particularly in areas of high risk, such as George V Land) may cause a larger contribution to sea level rise from East Antarctica over the next couple of hundred years, even with medium emissions scenarios. The findings underscore the increased risk of higher sea-level rise even under more “moderate” emissions.
Science, 6 May 2026 An August 2025 landslide in Tracy Arm fjord, Alaska, generated one…
Environmental Research, 30 April 2026 Central Asia’s glaciers experienced their most severe mass loss year…
Science Advances, 8 May 2026 Antarctic sea ice has remained at historically low levels since…
Nature Communications, 7 May 2026 Relatively small and brief intrusions of warm water beneath Antarctic…
Science, 14 May 2026 Rivers are dynamic and evolving. However, between 1980-2000 and 2000-2020, rates…
World Meteorological Organization, 29 April 2026 The 2025 European State of the Climate report describes…