Sources of oceanic and volcanic heat melting a subglacial channel in Kamb Ice Stream,West Antarctica

Peter Washam; Britney Schmidt; Brice Loose; Huw Horgan; Craig Stewart; Craig Stevens; Justin Lawrence; Christina Hulbe; Benjamin Hurwitz

doi:https://doi.org/10.5194/egusphere-egu26-12014

[Back] [Session CR2.2]

EGU26-12014, updated on 14 Mar 2026

https://doi.org/10.5194/egusphere-egu26-12014

EGU General Assembly 2026

© Author(s) 2026. This work is distributed under
the Creative Commons Attribution 4.0 License.

Oral | Tuesday, 05 May, 09:05–09:15 (CEST)

Room L3

Sources of oceanic and volcanic heat melting a subglacial channel in Kamb Ice Stream,West Antarctica

Peter Washam¹, Britney Schmidt^1,2, Brice Loose³, Huw Horgan^4,5,6, Craig Stewart⁷, Craig Stevens^7,8, Justin Lawrence⁹, Christina Hulbe¹⁰, and Benjamin Hurwitz¹¹

Peter Washam et al.

¹Cornell University, Center for Astrophysics & Planetary Science, United States of America
²Cornell University, Department of Earth and Atmospheric Sciences, United States of America
³University of Rhode Island, Graduate School of Oceanography, United States of America
⁴ETH Zurich, Laboratory of Hydraulics, Hydrology and Glaciology (VAW), Switzerland
⁵Swiss Federal Institute for Forest, Snow, and Landscape Research (WSL), Switzerland
⁶Victoria University of Wellington, Antarctic Research Centre, New Zealand
⁷National Institute for Water and Atmospheric Research, Ocean Dynamics Group, New Zealand
⁸University of Auckland, Department of Physics New Zealand
⁹Honeybee Robotics, USA
¹⁰University of Otago, School of Surveying, New Zealand
¹¹Georgia Institute of Technology, Ocean Science and Engineering, United States of America

Melting from oceanic heat and basal lubrication from subglacial freshwater are fundamental elements of West Antarctic Ice Sheet mass balance that are poorly constrained. The ice streams feeding the Ross Ice Shelf grounding line periodically start and stall over decadal to century timescales due to shifts in these forcings. Here, we present in situ hydrographic measurements, noble gas abundances, and helium isotope ratios from a l a r g e subglacial channel melted into the base of stagnant Kamb Ice Stream. These data identify an outflowing plume containing subglacial freshwater admixture from upstream volcanic activity and anomalously warm inflowing seawater containing Circumpolar Deep Water from the Ross Sea, with oceanic heat delivery outpacing that from volcanism. Our results directly quantify both variables that affect the mass balance of the Ross Ice Shelf’s sensitive interconnected ice streams and highlight the vulnerability of this region of West Antarctica to increased forcing from a warming climate.

How to cite: Washam, P., Schmidt, B., Loose, B., Horgan, H., Stewart, C., Stevens, C., Lawrence, J., Hulbe, C., and Hurwitz, B.: Sources of oceanic and volcanic heat melting a subglacial channel in Kamb Ice Stream,West Antarctica, EGU General Assembly 2026, Vienna, Austria, 3–8 May 2026, EGU26-12014, https://doi.org/10.5194/egusphere-egu26-12014, 2026.