南极东部一个“冰封”湖泊中古老的19米厚冰盖及其下方封存卤水的形成与特征

Formation and character of an ancient 19-m ice cover and underlying trapped brine in an "ice-sealed" east Antarctic lake.

作者信息

Doran Peter T, Fritsen Christian H, McKay Christopher P, Priscu John C, Adams Edward E

机构信息

Department of Earth and Environmental Sciences, University of Illinois, 845 West Taylor Street, MS 186, Chicago 60607, USA.

出版信息

Proc Natl Acad Sci U S A. 2003 Jan 7;100(1):26-31. doi: 10.1073/pnas.222680999. Epub 2002 Dec 23.

DOI:10.1073/pnas.222680999

PMID:12518052

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC140872/

Abstract

Lake Vida, one of the largest lakes in the McMurdo Dry Valleys of Antarctica, was previously believed to be shallow (<10 m) and frozen to its bed year-round. New ice-core analysis and temperature data show that beneath 19 m of ice is a water column composed of a NaCl brine with a salinity seven times that of seawater that remains liquid below -10 degrees C. The ice cover thickens at both its base and surface, sealing concentrated brine beneath. The ice cover is stabilized by a negative feedback between ice growth and the freezing-point depression of the brine. The ice cover contains frozen microbial mats throughout that are viable after thawing and has a history that extends to at least 2,800 (14)C years B.P., suggesting that the brine has been isolated from the atmosphere for as long. To our knowledge, Lake Vida has the thickest subaerial lake ice cover recorded and may represent a previously undiscovered end-member lacustrine ecosystem on Earth.

摘要

维达湖是南极洲麦克默多干谷最大的湖泊之一，此前人们认为它很浅（<10米），且终年冻结至湖底。新的冰芯分析和温度数据显示，在19米厚的冰层之下是一个水柱，由氯化钠盐水组成，盐度是海水的七倍，在零下10摄氏度以下仍保持液态。冰盖在底部和表面都变厚，将浓缩盐水密封在其下。冰盖通过冰生长和盐水冰点降低之间的负反馈得以稳定。整个冰盖中都含有冷冻的微生物垫，解冻后仍具活性，其历史可追溯到至少公元前2800年（14碳年），这表明该盐水与大气隔绝的时间同样之久。据我们所知，维达湖拥有有记录以来最厚的陆上湖泊冰盖，可能代表了地球上一个此前未被发现的终端湖相生态系统。

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