Groundwater dynamics beneath a marine ice sheet

Gabriel Cairns, Graham Benham, Ian Hewitt
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Abstract

Sedimentary basins beneath many Antarctic ice streams host substantial volumes of groundwater, which can be exchanged with a "shallow" subglacial hydrological system of till and channelised water. This exchange contributes substantially to basal water budgets, which in turn modulate the flow of ice streams. The geometry of these sedimentary basins is known to be complex, and the groundwater therein has been observed to vary in salinity due to historic seawater intrusion. However, little is known about the hydraulic properties of subglacial sedimentary basins, and the factors controlling groundwater exfiltration and infiltration. We develop a mathematical model for two-dimensional groundwater flow beneath a marine-terminating ice stream on geological timescales, taking into account the effect of seawater intrusion. We find that seawater may become "trapped" in subglacial sedimentary basins, through cycles of grounding line advance and retreat or through "pockets" arising from basin geometry. In addition, we estimate the sedimentary basin permeability which reproduces field observations of groundwater salinity profiles from beneath Whillans Ice Stream in West Antarctica. Exchange of groundwater with the shallow hydrological system is primarily controlled by basin geometry, with groundwater being exfiltrated where the basin becomes shallower and re-infiltrating where it becomes deeper. However, seawater intrusion also has non-negligible effects on this exchange.
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海洋冰盖下的地下水动力学
许多南极冰川下的沉积盆地都蕴藏着大量地下水,这些地下水可以与冰川下 "浅层 "的冰碛水和渠化水系统进行交换。这种交换对基底水预算贡献巨大,而基底水预算又反过来调节冰流的流动。众所周知,这些沉积盆地的几何形状非常复杂,而且由于历史上的海水入侵,已观察到其中的地下水盐度不同。然而,人们对冰川沉积盆地的水力特性以及控制地下水渗漏和渗透的因素知之甚少。考虑到海水入侵的影响,我们建立了一个二维地下水流数学模型,该模型以地质时间为尺度,在海洋末端冰川下流动。我们发现,通过接地线的进退循环或通过盆地几何形状产生的 "口袋",海水可能会被 "困 "在冰川下沉积盆地中。此外,我们还估算了沉积盆地的渗透率,该渗透率再现了南极洲西部惠兰斯冰川下地下水盐度分布图的实地观测结果。地下水与浅层水文系统的交换主要受盆地几何形状的控制,盆地变小的地方地下水外渗,盆地变深的地方地下水再渗入。不过,海水渗入也对这种交换产生了不可忽视的影响。
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