Scientific access into Mercer Subglacial Lake: scientific objectives, drilling operations and initial observations

IF 2.5 4区地球科学 Q2 GEOGRAPHY, PHYSICAL Annals of Glaciology Pub Date : 2021-06-08 DOI:10.1017/aog.2021.10

J. Priscu, Jonas Kalin, J. Winans, T. Campbell, M. Siegfried, M. Skidmore, J. Dore, A. Leventer, D. Harwood, Dennis Duling, R. Zook, J. Burnett, D. Gibson, E. Krula, Anatoly Mironov, J. mcmanis, G. Roberts, B. Rosenheim, B. Christner, Kathy Kasic, H. Fricker, W. Lyons, Joel Barker, M. Bowling, B. Collins, C. Davis, A. Gagnon, C. Gardner, C. Gustafson, O. Kim, Wei Li, A. Michaud, M. Patterson, M. Tranter, R. Venturelli, T. Vick‐Majors, Cooper W. Elsworth

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引用次数: 29

Abstract

Abstract The Subglacial Antarctic Lakes Scientific Access (SALSA) Project accessed Mercer Subglacial Lake using environmentally clean hot-water drilling to examine interactions among ice, water, sediment, rock, microbes and carbon reservoirs within the lake water column and underlying sediments. A ~0.4 m diameter borehole was melted through 1087 m of ice and maintained over ~10 days, allowing observation of ice properties and collection of water and sediment with various tools. Over this period, SALSA collected: 60 L of lake water and 10 L of deep borehole water; microbes >0.2 μm in diameter from in situ filtration of ~100 L of lake water; 10 multicores 0.32–0.49 m long; 1.0 and 1.76 m long gravity cores; three conductivity–temperature–depth profiles of borehole and lake water; five discrete depth current meter measurements in the lake and images of ice, the lake water–ice interface and lake sediments. Temperature and conductivity data showed the hydrodynamic character of water mixing between the borehole and lake after entry. Models simulating melting of the ~6 m thick basal accreted ice layer imply that debris fall-out through the ~15 m water column to the lake sediments from borehole melting had little effect on the stratigraphy of surficial sediment cores.

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科学进入默瑟冰下湖:科学目标，钻井作业和初步观察

摘要南极冰川下湖泊科学访问（SALSA）项目使用环境清洁热水钻探访问了默瑟冰川下湖泊，以检查湖泊水柱和底层沉积物中冰、水、沉积物、岩石、微生物和碳库之间的相互作用。一个直径约0.4m的钻孔被融化在1087m的冰中，并保持了约10天，从而可以用各种工具观察冰的特性和收集水和沉积物。在此期间，SALSA收集了：60升湖水和10升深钻孔水；原位过滤约100L湖水产生的直径大于0.2μm的微生物；10个0.32–0.49 m长的多芯；1.0米和1.76米长的重力岩心；钻孔和湖水的三个电导率-温度-深度剖面；湖泊中的五个离散深度流量计测量值以及冰、湖水-冰界面和湖泊沉积物的图像。温度和电导率数据显示了进入后钻孔和湖泊之间的水混合的流体动力学特征。模拟~6 m厚基底堆积冰层融化的模型表明，钻孔融化产生的碎屑通过~15 m水柱落入湖泊沉积物，对表层沉积物岩芯的地层学影响很小。

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来源期刊

Annals of Glaciology GEOGRAPHY, PHYSICAL-GEOSCIENCES, MULTIDISCIPLINARY

CiteScore

8.20

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Annals of Glaciology publishes original scientific articles and letters in selected aspects of glaciology-the study of ice. Each issue of the Annals is thematic, focussing on a specific subject. The Council of the International Glaciological Society welcomes proposals for thematic issues from the glaciological community. Once a theme is approved, the Council appoints an Associate Chief Editor and a team of Scientific Editors to handle the submission, peer review and publication of papers.