大气阻塞减缓了由海洋驱动的格陵兰最大冰川舌的融化。

Atmospheric blocking slows ocean-driven melting of Greenland's largest glacier tongue.

作者信息

McPherson Rebecca Adam, Wekerle Claudia, Kanzow Torsten, Ionita Monica, Heukamp Finn Ole, Zeising Ole, Humbert Angelika

机构信息

Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven, Germany.

Faculty of Physics, University of Bremen, Bremen, Germany.

出版信息

Science. 2024 Sep 20;385(6715):1360-1366. doi: 10.1126/science.ado5008. Epub 2024 Sep 19.

DOI:10.1126/science.ado5008

PMID:39298599

Abstract

Mass loss from the Greenland ice sheet has contributed to global sea-level rise over the past 20 years. Yet direct observations from the 79 North Glacier (79NG) calving front reveal decreasing Atlantic Intermediate Water (AIW) temperatures below the ice tongue from 2018 to 2021, leading to reduced ocean heat transport. This is linked to a concurrent decrease in basal melt and thinning rates at the grounding line. The origin of this AIW cooling is traced to a slowdown of the large-scale ocean circulation in the Nordic Seas, driven by European atmospheric blocking that strengthens cold air advection from the central Arctic through the Fram Strait. Blocking has driven major ocean cooling events over the last 50 years and will remain crucial in affecting Northeast Greenland's glaciers.

摘要

在过去20年里，格陵兰冰盖的质量损失导致了全球海平面上升。然而，对79°N冰川（79NG）崩解前沿的直接观测显示，2018年至2021年期间，冰舌下方的大西洋中层水（AIW）温度下降，导致海洋热输送减少。这与同时出现的接地线处底部融化和变薄速率的下降有关。这种AIW降温的起源可追溯到北欧海域大规模海洋环流的放缓，这是由欧洲大气阻塞驱动的，这种阻塞加强了从北极中部通过弗拉姆海峡的冷空气平流。在过去50年里，阻塞引发了重大的海洋降温事件，并且在影响格陵兰东北部的冰川方面仍将至关重要。