- 1University of Colorado, ESOC / CIRES, Boulder, Colorado, United States of America
- 2British Antarctic Survey, Cambridge, England, United Kingdom
- 3University of Texas at El Paso, El Paso, Texas, United States of America
- 4Lamont-Doherty Earth Observatory, Columbia University, Palisades, New York, United States of America
- *A full list of authors appears at the end of the abstract
The evolution of Thwaites Glacier represents the largest uncertainty in sea level rise forecasts over the next few centuries. To address this concern, the International Thwaites Glacier Collaboration (ITGC) was co-sponsored by the US and UK polar research agencies with contributions from Sweden, Germany, and South Korea. The program investigated all aspects of the climate-ice-ocean-earth system in the Thwaites-Amundsen region, in eight coordinated projects. Several of the scenarios of highest concern for rapid increase in ice flux from the system are found to be less likely than initially thought. However, newly discovered processes that could accelerate ice loss, and additional considerations of the processes investigated, mandate that the region receive continued focus. Modelling and observational data show that the impending loss of the remaining ice shelf will result in only a small (order 10%) increase in grounded glacier flow speed, at least initially. Runaway ice cliff failure, while a valid process with several forms, is difficult to sustain in model scenarios so far; however, concerns remain about the effects of damaged ice on the ice-cliff calving thresholds and rates. Studies of the Holocene and recent pre-satellite evolution of the system show that the region has experienced very rapid retreat in the recent past, and that ice elevation near the Holocene Optimum was around 35 m lower than the present day, but then recovered as climate slowly cooled and bed elevation increased due to glacial isostatic adjustment to ice loss following the Last Glacial Maximum. Modern retreat at the Thwaites and Pine Island glaciers appears to have been initiated in the 1940s after a series of very strong El Niño–Southern Oscillation (ENSO) effects. In considering the future retreat and ice loss from the Thwaites catchment, studies of the shear margins and bed imply that further ice loss will likely widen the glacier, and that the pattern of mixed resistant and slick bed conditions will actually lead to slightly faster retreat of the Thwaites Glacier basin in the coming centuries. Lastly, significant concerns remain about a tidal pumping process, inferred from satellite and field observations as part of the project, that may be driving warm near-bottom seawater several kilometers upstream of the nominal grounding line. This process, and in general the oceanography near the ice front and basal geology of the glacier bed, remain areas in need of continuing study by the community.
Jonathan Adams, Ronan Agnew, Richard Alley, Karen Alley, Amin Amiri, Sridhar Anandakrishnan, John Anderson, Rob Arthern, Solymar Ayala Cortez, Greg Balco, Jowan Barnes, Jeremy Bassis, Doug Benn, Brandon Berg, Nicole Bienert, Robert Bingham, Julien Bodart, Lars Boehme, Adam Booth, Louise Borthwick, Guilherme Bortolotto, Scott Braddock, Paul Brennan, Alex Brisbourne, Anna Broome, Emma Cameron, Seth Campbell, Elizabeth Case, Knut Christianson, Poul Christofferson, Rachel Clark, Elisabeth Clyne, Michael Comas, Anna Crawford, Indrani Das, Eliza Dawson, Thiago Dias los Santos, Daniel Dichek, Tiago Dotto, Clare Eayrs, Olaf Eisen, Victoria Fitzgerald, Laura Glastra, Brent Goehring, Daniel Goldberg, Lucia Gonzalez, Noel Gourmelen, Alastair Graham, Hilmar Gudmundsson, Brenda Hall, Kevin Hank, Steven Harder, Mark Hehlen, Ross Hein, Leilani Henry, Karen Heywood, Claus-Dieter Hillenbrand, Coen Hofstede, Kelly Hogan, David Holland,Paul Holland, Nick Holschuh, Becky Hopkins, Ben Hurwitz, Emilia Jin, Joanne Johnson, Samuel Kachuk, Galen Kaip, Siobhan Killingbeck, Jonathan Kingslake, James Kirkham, Chris Kratt, Bernd Kulessa, Justin Lawrence, Choon-Ki Lee, Jeonghoon Lee, Won Sang Lee, Asmara Lehrmann, Jan Lenaerts, Alison Lepp, Emma MacKie, Michelle Maclennan, Keith Makinson, James Marschalek, Elaine Mawbey, Danny May, Aleksandra Mazur, Matt Meister, Lauren Miller, Brent Minchew, Jhon Moncada, Mathieu Morlighem, Andrew Mullen, Santiago Munevar, Atsuhiro Muto, Nori Nakata, Sunghyun Nam, Felipe Napoleoni, Keith Nicholls, Keir Nichols, Frank Nitsche, Naomi Ochwat, Helen Ockenden, John Paden, Byron Parizek, Rebecca Pearce, Emma Pearce, Erin Pettit, Matt Piggott, Andrew Pretorius, Bastien Queste, Svetlana Radionovskaya, Meghana Ranganathan, Eric Rignot, Kiya Riverman, Fernando Rodriguez, Dylan Rood, Rebecca Schlegel, Britney Schmidt, Dustin Schroeder, Emily Schwans, Yeshey Seldon, Ki-Weon Seo, Betsy Sheffield, Emma Smith, James Smith, Anthony Spears, Megan Spoth, Leigh Stearns, Mathan Stevens, Ryan Strickland, Jenny Suckale, Paul Summers, Tara Sweeney, Laura Taylor, Rebecca Totten, Martin Truffer, Slawek Tulaczyk, Margie Turrin, Scott Tyler, Dorothée Vallot, Irena Vankova, Stephen Veitch, Ryan Venturelli, Julia Villafranca, Stina Wahlgren, Anna Wåhlin, Jake Walter, Xianwei Wang, Peter Washam, Ray Watkins, Martin Wearing, Ben Webber, Julia Wellner, Iain Wheel, Christian Wild, Amanda Willet, Rosie Williams, Paul Winberry, John Woodward, Tish Yager, Peng Yan, Benjamin Yeager, TJ Young, Ole Zeising, Yixi Zheng, Lucas Zoet
How to cite: Scambos, T., Larter, R., Davis, P., Karplus, M., Dinar, A., and Turrin, M. and the The International Thwaites Glacier Collaboration: Research results and new frontiers for the International Thwaites Glacier Collaboration, 2018-2024, EGU General Assembly 2025, Vienna, Austria, 27 Apr–2 May 2025, EGU25-2904, https://doi.org/10.5194/egusphere-egu25-2904, 2025.
