北极大陆架边缘的大面积冰崩和热岩溶:地下水在地表下不断冻结和解冻的副产品

IF 3.5 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Charles K. Paull, Jong Kuk Hong, David W. Caress, Roberto Gwiazda, Ji-Hoon Kim, Eve Lundsten, Jennifer B. Paduan, Young Keun Jin, Mathieu J. Duchesne, Tae Siek Rhee, Virginia Brake, Jeffrey Obelcz, Maureen A. L. Walton
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引用次数: 0

摘要

加拿大北极大陆架边缘正在迅速发生巨大的海底形态变化。在 12 年的时间里进行了五次多波束测深绘图勘测,每次勘测部分覆盖水深 120 米至 200 米之间 15 平方公里的研究区域。这些勘测显示,在 2010 年至 2022 年期间,新出现了 65 个火山口,平均高度为 6.5 米,最深处达 30 米。遥控潜水器调查发现,在两个新形成的环形山侧面暴露出大量冰层。这些冰并不是更新世遗留下来的亚新世永久冻土,因为它们位于脱冰期后沉积在海底的沉积物中。低盐度的孔隙水和沉积岩芯冰样本中的氧同位素组成贫化,表明该地区有流星特征的水正在排出和冻结。这些上升的咸水地下水可能部分来自大陆架下数百米处解冻的孑遗永久冻土。它们在接近-1.4℃的海底时重新冻结,从而形成了大面积的近海底冰层。冰层暴露在海水中或被上升的地下水加热时,附近也存在适合冰层融化的条件。温度和盐度的微小变化会导致上升的咸水地下水冻结或近海底冰层融化之间的变化。在这些条件下,海底热卡岩形成了引人注目的形态,其中布满了年代久远的洼地。在其他北极边缘地区,地下水被残存的永久冻土盖引向大陆架边缘,大陆架边缘底层水温足够低,也可能存在热陨石地质灾害,但尚未绘制地图。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Massive Ice Outcrops and Thermokarst Along the Arctic Shelf Edge: By-Products of Ongoing Groundwater Freezing and Thawing in the Sub-Surface

Massive Ice Outcrops and Thermokarst Along the Arctic Shelf Edge: By-Products of Ongoing Groundwater Freezing and Thawing in the Sub-Surface

Substantial seafloor morphological changes are rapidly occurring along the Canadian Arctic shelf edge. Five multibeam bathymetric mapping surveys, each partially covering a 15 km2 study area between 120- and 200-m water depth, were conducted over a 12-year time period. These surveys reveal that 65 new craters have developed between 2010 and 2022, averaging 6.5 m and reaching up to 30 m deep. Remotely operated vehicle investigations revealed massive ice outcrops exposed on two newly formed crater flanks. This ice is not relict subaerially formed Pleistocene permafrost because it is hosted in sediments which were deposited in a submarine setting post-deglaciation. Low salinity porewater and sediment core ice samples with depleted oxygen isotopic compositions indicate waters with a meteoric signature are discharging and freezing in this area. These ascending brackish groundwaters are likely derived in part from thawed relict permafrost hundreds of meters under the continental shelf. They refreeze as they approach the −1.4°C seafloor, leading to the development of widespread, near seafloor, sub-bottom ice layers. Conditions appropriate for ice melting also exist nearby where ice is exposed to seawater or warmed by ascending groundwater. Small variations in temperature and salinity lead to shifts between freezing of ascending brackish groundwater or melting of near seafloor ice layers. These conditions have produced a dramatic submarine thermokarst morphology riddled with multi-aged depressions. Thermokarst geohazards may exist, unmapped, on other Arctic margins with groundwater channeled toward the shelf edge by a relict permafrost cap, and sufficiently cold shelf edge bottom water temperatures.

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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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