The Cryosphere, 26 September 2023
The “grounding line” of the southern Ronne Ice Shelf in Antarctica can migrate up to 15 kilometers daily with changing tides, which can flush ocean water several kilometers inland under the ice sheet and increase melting. In less stable Antarctic regions, such as the Thwaites Glacier, this process is known to have driven long-term historic grounding line retreat. The grounding line marks the boundary between the grounded ice sheet and floating ice shelf. The movement of this line allows researchers to measure the health and stability of an ice sheet. This study develops a new method for monitoring Antarctic grounding lines from satellite data, observing shifts that occur over several minutes to hours, with significant impacts on ice shelf behavior. During rising tides, the flow of water lifts the more buoyant ice shelf off the sea bed and temporarily shifts the grounding line inland, before it returns to its seaward position at low tide. Understanding these daily shifts in grounding line position can help scientists better project Antarctica’s long-term response to climate change and how much global sea levels will rise.
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…