Nature Communications Earth & Environment, April 12
Some of the last remnants of thicker multi-year sea ice occur along the north Greenland coast. Increasing break-up and accumulation of this ice near the mouth of outlet fjords dams the flow of fresher surface water, coming off melting outlet glaciers within the fjords. This fresher water absorbs more carbon, with greater acidification rates and more corrosive conditions for shell-building organisms. In August 2019, near-surface ocean temperatures in Sherard Osborn Fjord reached a record-busting 4°C, about 3°C higher than any previously recorded in ocean waters off northern Greenland; and the mouth of the fjord became jammed with disintegrating pack ice. Low near-surface salinity (eg, more freshwater) in the dammed fjord then resulted in highly carbonate-corrosive waters from greater absorption of CO2. Neighboring ice-free Petermann Fjord however was not impacted in terms of temperature, salinity or chemistry. The break-up of multi-year ice off Greenland’s north coast may therefore dramatically impact the sensitivity of adjacent fjords to rising CO2 levels, with higher levels of acidification and corrosive conditions.
https://tc.copernicus.org/
Compiled by Amy Imdieke
ICIMOD, April 24, 2026 2026 marks the fourth consecutive year of below-average snow conditions in…
Ocean Science, 20 Apr 2026 Global warming and increased freshwater input from melting ice are…
Science, 23 Apr 2026 Specially-adapted species living in glacier regions face rapid snowpack and ice…
Science Advances, 24 Apr 2026 Observations from the grounding zone beneath the Ross Ice Shelf…
The Hindu Kush Himalaya faces rising climate extremes that threaten mountain communities, demanding a shift…
Philosophical Transactions of the Royal Society, 23 April 2026 Observations suggest we are currently tracking…