Thin ice, deep snow and surface flooding in Kotzebue Sound: landfast ice mass balance during two anomalously warm winters and implications for marine mammals and subsistence hunting

The inaugural data from the first systematic program of sea-ice observations in Kotzebue Sound, Alaska, in 2018 coincided with the first winter in living memory when the Sound was not choked with ice. The following winter of 2018–19 was even warmer and characterized by even less ice. Here we discuss...

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Bibliographic Details
Published in:Journal of glaciology 2021-12, Vol.67 (266), p.1013-1027
Main Authors: Mahoney, Andrew R., Turner, Kate E., Hauser, Donna D. W., Laxague, Nathan J. M., Lindsay, Jessica M., Whiting, Alex V., Witte, Carson R., Goodwin, John, Harris, Cyrus, Schaeffer, Robert J., Schaeffer, Roswell, Betcher, Sarah, Subramaniam, Ajit, Zappa, Christopher J.
Format: Article
Language:English
Subjects:
Air temperature
Coasts
Community
Councils
Flooding
Floods
Growth models
Heat flux
Heat transfer
Hunting
Ice
Ice formation
Ice observations
Ice thickness measurements
Marine mammals
Mass
Mass balance
Oceans
Sea ice
sea-ice growth and decay
sea-ice modeling
Shorelines
Snow
snow/ice surface processes
Temperature
Thermodynamic models
Warm air
Warm winters
Winter
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Summary:The inaugural data from the first systematic program of sea-ice observations in Kotzebue Sound, Alaska, in 2018 coincided with the first winter in living memory when the Sound was not choked with ice. The following winter of 2018–19 was even warmer and characterized by even less ice. Here we discuss the mass balance of landfast ice near Kotzebue (Qikiqtaġruk) during these two anomalously warm winters. We use in situ observations and a 1-D thermodynamic model to address three research questions developed in partnership with an Indigenous Advisory Council. In doing so, we improve our understanding of connections between landfast ice mass balance, marine mammals and subsistence hunting. Specifically, we show: (i) ice growth stopped unusually early due to strong vertical ocean heat flux, which also likely contributed to early start to bearded seal hunting; (ii) unusually thin ice contributed to widespread surface flooding. The associated snow ice formation partly offset the reduced ice growth, but the flooding likely had a negative impact on ringed seal habitat; (iii) sea ice near Kotzebue during the winters of 2017–18 and 2018–19 was likely the thinnest since at least 1945, driven by a combination of warm air temperatures and a persistent ocean heat flux.
ISSN:0022-1430
1727-5652
DOI:10.1017/jog.2021.49