陡峭的冰川床折点减缓了格陵兰岛的内陆冰体变薄。

Steep Glacier Bed Knickpoints Mitigate Inland Thinning in Greenland.

作者信息

Felikson Denis, A Catania Ginny, Bartholomaus Timothy C, Morlighem Mathieu, Noël Brice P Y

机构信息

Cryospheric Sciences Laboratory NASA Goddard Space Flight Center Greenbelt MD USA.

Goddard Earth Sciences Technology and Research Studies and Investigations Universities Space Research Association Columbia MD USA.

出版信息

Geophys Res Lett. 2021 Jan 28;48(2):e2020GL090112. doi: 10.1029/2020GL090112. Epub 2021 Jan 19.

DOI:10.1029/2020GL090112

PMID:33678924

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7900969/

Abstract

Greenland's outlet glaciers have been a leading source of mass loss and accompanying sea-level rise from the Greenland Ice Sheet (GrIS) over the last 25 years. The dynamic component of outlet glacier mass loss depends on both the ice flux through the terminus and the inland extent of glacier thinning, initiated at the ice-ocean interface. Here, we find limits to the inland spread of thinning that initiates at glacier termini for 141 ocean-terminating outlet glaciers around the GrIS. Inland diffusion of thinning is limited by steep reaches of bed topography that we call "knickpoints." We show that knickpoints exist beneath the majority of outlet glaciers but they are less steep in regions of gentle bed topography, giving glaciers in gentle bed topography the potential to contribute to ongoing and future mass loss from the GrIS by allowing the diffusion of thinning far into the ice sheet interior.

摘要

在过去25年里，格陵兰岛的入海冰川一直是格陵兰冰盖（GrIS）质量损失及随之而来的海平面上升的主要来源。入海冰川质量损失的动态部分取决于通过冰舌的冰流量以及始于冰-海界面的冰川变薄的内陆范围。在此，我们发现了格陵兰冰盖周围141条入海冰川冰舌处引发的变薄向内陆扩展的限度。变薄的内陆扩散受到我们称为“裂点”的陡峭河床地形的限制。我们表明，大多数入海冰川下方都存在裂点，但在河床地形平缓的区域裂点不那么陡峭，这使得河床地形平缓区域的冰川有可能通过使变薄扩散到冰盖内部深处而导致格陵兰冰盖当前及未来的质量损失。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fb8b/7900969/2cc3ee22b8ce/GRL-48-e2020GL090112-g001.jpg

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陡峭的冰川床折点减缓了格陵兰岛的内陆冰体变薄。

Steep Glacier Bed Knickpoints Mitigate Inland Thinning in Greenland.

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