January 2016 extensive summer melt in West Antarctica favoured by strong El Niño

Over the past two decades the primary driver of mass loss from the West Antarctic Ice Sheet (WAIS) has been warm ocean water underneath coastal ice shelves, not a warmer atmosphere. Yet, surface melt occurs sporadically over low-lying areas of the WAIS and is not fully understood. Here we report on...

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Bibliographic Details
Published in:Nature communications 2017-06, Vol.8 (1), p.15799-15799, Article 15799
Main Authors: Nicolas, Julien P., Vogelmann, Andrew M., Scott, Ryan C., Wilson, Aaron B., Cadeddu, Maria P., Bromwich, David H., Verlinde, Johannes, Lubin, Dan, Russell, Lynn M., Jenkinson, Colin, Powers, Heath H., Ryczek, Maciej, Stone, Gregory, Wille, Jonathan D.
Format: Article
Language:English
Subjects:
704/106/125
704/106/35/823
Advection
atmospheric dynamics
Coastal waters
cryospheric science
El Nino
ENVIRONMENTAL SCIENCES
Extreme values
Humanities and Social Sciences
Ice
Land ice
Melting
multidisciplinary
Polar environments
Radiation
Science
Science (multidisciplinary)
Sea level
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Summary:Over the past two decades the primary driver of mass loss from the West Antarctic Ice Sheet (WAIS) has been warm ocean water underneath coastal ice shelves, not a warmer atmosphere. Yet, surface melt occurs sporadically over low-lying areas of the WAIS and is not fully understood. Here we report on an episode of extensive and prolonged surface melting observed in the Ross Sea sector of the WAIS in January 2016. A comprehensive cloud and radiation experiment at the WAIS ice divide, downwind of the melt region, provided detailed insight into the physical processes at play during the event. The unusual extent and duration of the melting are linked to strong and sustained advection of warm marine air toward the area, likely favoured by the concurrent strong El Niño event. The increase in the number of extreme El Niño events projected for the twenty-first century could expose the WAIS to more frequent major melt events. Sporadic surface melt over the West Antarctic Ice Sheet is not fully understood. Here, the authors report on an extensive melting episode in the Ross Ice Shelf area in 2016 and use comprehensive in situ observations and model simulations to highlight the role of the strong El Niño event.
ISSN:2041-1723
2041-1723
DOI:10.1038/ncomms15799