超冰川湖泊之间的弹性应力耦合

IF 3.5 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Journal of Geophysical Research: Earth Surface Pub Date : 2024-05-10 DOI:10.1029/2023JF007481
Laura A. Stevens, Sarah B. Das, Mark D. Behn, Jeffrey J. McGuire, Ching-Yao Lai, Ian Joughin, Stacy Larochelle, Meredith Nettles
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引用次数: 0

摘要

据观察,超冰川湖泊会在数小时内相继排水,由此产生的假设是,一次排水后的应力传递可能足以诱发附近其他湖泊的水力断裂驱动排水。然而,对排水引起的应力扰动特征的现有观测还不足以评估这一假设。在这里,我们利用部署在格陵兰冰盖消融区的密集全球定位系统阵列的冰盖表面位移观测数据,研究了三个相邻超冰川湖盆之间的弹性应力传递。我们发现,中心湖泊的排水会使相邻盆地相对于其水力断裂疤痕方向处于拉伸或压缩应力状态,从而促进或抑制这些湖泊下方水力断裂的形成。对于位于我们阵列中的两个排水时间相近的湖泊,我们认为,冰盖因基底空洞打开而隆起所造成的表面张应力是这些湖泊在时间上由水力断裂驱动的排水集群和频繁触发行为的物理解释。然而,在排水湖泊的边缘之外,湖泊排水引起的上流线方向的应力仍然很低。这种较短的应力耦合长度尺度与一系列湖泊体积和冰盖厚度的理想化湖泊排水方案一致。因此,在弹性时间尺度上,我们的观测结果和理想化模型结果都支持应力传递假说,即在初始排水产生的基底空腔开口区域内的湖泊由水力断裂驱动排水,但对于远端湖泊则反驳了这一假说。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Elastic Stress Coupling Between Supraglacial Lakes

Supraglacial lakes have been observed to drain within hours of each other, leading to the hypothesis that stress transmission following one drainage may be sufficient to induce hydro-fracture-driven drainages of other nearby lakes. However, available observations characterizing drainage-induced stress perturbations have been insufficient to evaluate this hypothesis. Here, we use ice-sheet surface-displacement observations from a dense global positioning system array deployed in the Greenland Ice Sheet ablation zone to investigate elastic stress transmission between three neighboring supraglacial lake basins. We find that drainage of a central lake can place neighboring basins in either tensional or compressional stress relative to their hydro-fracture scarp orientations, either promoting or inhibiting hydro-fracture initiation beneath those lakes. For two lakes located within our array that drain close in time, we identify tensional surface stresses caused by ice-sheet uplift due to basal-cavity opening as the physical explanation for these lakes' temporally clustered hydro-fracture-driven drainages and frequent triggering behavior. However, lake-drainage-induced stresses in the up-flowline direction remain low beyond the margins of the drained lakes. This short stress-coupling length scale is consistent with idealized lake-drainage scenarios for a range of lake volumes and ice-sheet thicknesses. Thus, on elastic timescales, our observations and idealized-model results support a stress-transmission hypothesis for inducing hydro-fracture-driven drainage of lakes located within the region of basal cavity opening produced by the initial drainage, but refute this hypothesis for distal lakes.

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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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