4.5 Article

Topographic controls on ice flow and recession for Juneau Icefield (Alaska/British Columbia)

Journal

EARTH SURFACE PROCESSES AND LANDFORMS
Volume 47, Issue 9, Pages 2357-2390

Publisher

WILEY
DOI: 10.1002/esp.5383

Keywords

crevasse; geomorphology; glacier; mass balance; moraine; structural glaciology

Funding

  1. Royal Holloway University of London

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Mountain glaciers and ice caps are losing significant amounts of ice globally, with Alaska contributing greatly to sea-level rise. This study focuses on Alaskan plateau icefields and their vulnerability to climate change. The researchers conducted an inventory of glaciers and lakes in the Juneau Icefield region, finding that 63 glaciers disappeared since 2005, with a 10.0% reduction in glacier area. The study also presents the first structural glaciological and geomorphological map of an entire icefield in Alaska, showing widespread glacier disconnections and continuous recession since the Little Ice Age. The findings highlight the importance of considering glacier disconnections when evaluating icefield vulnerability to climate change.
Globally, mountain glaciers and ice caps are losing dramatic volumes of ice. The resultant sea-level rise is dominated by contributions from Alaska. Plateau icefields may be especially sensitive to climate change due to the non-linear controls their topography imparts on their response to climate change. However, Alaskan plateau icefields have been subject to little structural glaciological or regional geomorphological assessment, which makes the controls on their present and former mass balance difficult to ascertain. We inventoried 1050 glaciers and 368 lakes in the Juneau Icefield region for the year 2019. We found that 63 glaciers had disappeared since the 2005 inventory, with a reduction in glacier area of 422 km(2) (10.0%). We also present the first structural glaciological and geomorphological map for an entire icefield in Alaska. Glaciological mapping of >20 800 features included crevasses, debris cover, foliation, ogives, medial moraines and, importantly, areas of glacier fragmentation, where glaciers either separated from tributaries via lateral recession (n = 59), or disconnected within areas of former icefalls (n = 281). Geomorphological mapping of >10 200 landforms included glacial moraines, glacial lakes, trimlines, flutes and cirques. These landforms were generated by a temperate icefield during the Little Ice Age (LIA) neoglaciation. These data demonstrate that the present-day outlet glaciers, which have a similar thermal and ice-flow regime, have undergone largely continuous recession since the LIA. Importantly, disconnections occurring within glaciers can separate accumulation and ablation zones, increasing rates of glacier mass loss. We show that glacier disconnections are widespread across the icefield and should be critically taken into consideration when icefield vulnerability to climate change is considered.

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