Proceedings of the Royal Society B, July 22.
A team of scientists has discovered the first active leak of methane through the Antarctic seafloor, in the Ross Sea. Researchers monitored microbial communities that can consume the greenhouse gas before it reaches the atmosphere, and therefore play an important role within the methane cycle. Their work reveals a delayed response rate of these microbes: it took more than a year for the methane-consuming microorganisms to begin filtering away the gas. Five years later, the growing community still lacked the ability to completely mitigate the release of methane, allowing the gas to continue leaking into the atmosphere. Since Antarctica holds as much as a quarter of the planet’s ocean-based methane, these findings can improve the accuracy of future global climate models by considering the time it takes microbial communities to respond to influxes of methane.
http://royalsocietypublishing.org/doi/10.1098/rspb.2020.1134
Compiled by Amy Imdieke
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…