Coincident Lake Drainage and Grounding Line Retreat at Engelhardt Subglacial Lake, West Antarctica

IF 3.5 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Journal of Geophysical Research: Earth Surface Pub Date : 2024-09-14 DOI:10.1029/2024JF007724
B. I. D. Freer, O. J. Marsh, H. A. Fricker, A. E. Hogg, M. R. Siegfried, D. Floricioiu, W. Sauthoff, R. Rigby, S. F. Wilson
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Abstract

Antarctica has an active subglacial hydrological system, with interconnected subglacial lakes fed by subglacial meltwater. Subglacial hydrology can influence basal sliding, inject freshwater into the sub-ice-shelf cavity, and impact sediment transport and deposition which can affect the stability of grounding lines (GLs). We used satellite altimetry data from the ICESat, ICESat-2, and CryoSat-2 missions to document the second recorded drainage of Engelhardt Subglacial Lake (SLE), which began in July 2021 and discharged more than 2.3 km3 of subglacial water into the Ross Ice Shelf cavity. We used differential synthetic aperture radar interferometry from RADARSAT-2 and TerraSAR-X alongside ICESat-2 repeat-track laser altimetry (RTLA) and REMA digital elevation model strips to detect 2–13 km of GL retreat since the previous drainage event in 2003–06. Combining these satellite observations, we evaluated the mechanism triggering SLE drainage, the cause of the observed GL retreat, and the interplay between subglacial hydrology and GL dynamics. We find that: (a) SLE drainage was initiated by influx from a newly identified upstream lake; (b) the observed GL retreat is mainly driven by the continued retreat of Engelhardt Ice Ridge and long-term dynamic thinning that caused a grounded ice plain to reach flotation; and (c) SLE drainage and GL retreat were largely independent. We also discuss the possible origins and influence of a 27 km grounded promontory found to protrude seaward from the GL. Our observations demonstrate the importance of high-resolution satellite data for improving the process-based understanding of dynamic and complex regions around the Antarctic Ice Sheet margins.

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南极洲西部恩格尔哈特冰川下湖同时出现的湖泊排水和接地线消退现象
南极洲拥有活跃的冰川下水文系统,冰川下湖泊相互连接,由冰川下融水提供水源。冰川下水文可影响基底滑动,向冰架下空腔注入淡水,影响沉积物迁移和沉积,从而影响接地线(GL)的稳定性。我们利用来自 ICESat、ICESat-2 和 CryoSat-2 任务的卫星测高数据记录了恩格尔哈特冰川下湖(SLE)的第二次排水记录,这次排水始于 2021 年 7 月,向罗斯冰架空腔排放了超过 2.3 千立方米的冰川下水。我们利用 RADARSAT-2 和 TerraSAR-X 的差分合成孔径雷达干涉测量法、ICESat-2 重复轨道激光测高法和 REMA 数字高程模型带,探测到自 2003-06 年上一次排水事件以来 GL 后退了 2-13 公里。结合这些卫星观测数据,我们评估了引发 SLE 排水的机制、观测到的 GL 退缩的原因以及冰川下水文和 GL 动力学之间的相互作用。我们发现(a)SLE排水是由一个新发现的上游湖泊的水流引发的;(b)观测到的GL后退主要是由恩格尔哈特冰脊的持续后退和长期的动态变薄导致接地冰原达到漂浮状态所引起的;(c)SLE排水和GL后退在很大程度上是相互独立的。我们还讨论了从 GL 向海突出的 27 公里接地岬角的可能起源和影响。我们的观测结果表明,高分辨率卫星数据对于提高对南极冰盖边缘动态复杂区域的过程性认识非常重要。
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来源期刊
Journal of Geophysical Research: Earth Surface
Journal of Geophysical Research: Earth Surface Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
6.30
自引率
10.30%
发文量
162
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