Evaluating and locating a suitable bedrock drilling site near zhongshan station with airborne and ground-based observations

IF 1.5 4区 地球科学 Q3 ECOLOGY
Yanjun Li, Xiangbin Cui, Gang Qiao, Lin Li, Shinan Lang
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引用次数: 0

Abstract

Understanding the interaction between the Antarctic biogeochemical cycle and global environmental change requires a comprehensive investigation of the ice sheet and underlying bedrock. An effective approach to investigating subglacial characteristics is through bedrock drilling, making the identification of a suitable drilling site a crucial prerequisite. In this study, data from airborne ice-penetrating radar and an Uncrewed Aerial Vehicle (UAV) remote sensing were used in combination to obtain real-time and high-resolution information about the surface, ice thickness, and subglacial conditions in a local area near Zhongshan Station, and further to identify a drilling site that is both safe and optimal for the successful acquisition of bedrock samples beneath the East Antarctic Ice Sheet. By analyzing the airborne ice-penetrating radar data from the 35th Chinese National Antarctic Research Expedition (CHINARE) (2018–2019), a potential drilling site was selected based on ice thickness (≤200 m) and a dry basal condition with no channels or basal crevasses, to avoid drilling fluid leakage. UAV data confirmed stable surface topography, ice flow, and the absence of surface crevasses. The optimal site was identified as located close to the western flank of the upstream part of the Dålk Glacier. In 2019, CHINARE successfully retrieved a valuable bedrock core sample from the borehole at this location. This study provides a feasible and effective methodology for locating a bedrock drilling site by using data from airborne ice-penetrating radar and UAV remote sensing.
通过航空和地面观测评估和确定中山站附近合适的基岩钻探地点
要了解南极生物地球化学循环与全球环境变化之间的相互作用,需要对冰盖和下伏基岩进行全面调查。调查冰川下特征的有效方法是进行基岩钻探,因此确定合适的钻探地点是关键的先决条件。本研究结合使用机载透冰雷达和无人机遥感数据,获得了中山站附近局部地区地表、冰层厚度和冰川下条件的实时高分辨率信息,并进一步确定了一个既安全又能成功获取南极东部冰盖下基岩样本的最佳钻探地点。通过分析第35次中国国家南极科学考察(CHINARE)(2018-2019年)的机载冰穿雷达数据,根据冰层厚度(≤200米)和无通道或基底裂缝的干燥基底条件,选择了一个潜在的钻探地点,以避免钻井液泄漏。无人机数据确认了稳定的地表地形、冰流和无地表裂缝。最佳地点被确定为靠近达尔克冰川上游西侧。2019 年,CHINARE 从该地点的钻孔中成功取回了珍贵的基岩岩芯样本。这项研究为利用机载透冰雷达和无人机遥感数据确定基岩钻探地点提供了可行而有效的方法。
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来源期刊
Polar Science
Polar Science ECOLOGY-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
3.90
自引率
5.60%
发文量
46
期刊介绍: Polar Science is an international, peer-reviewed quarterly journal. It is dedicated to publishing original research articles for sciences relating to the polar regions of the Earth and other planets. Polar Science aims to cover 15 disciplines which are listed below; they cover most aspects of physical sciences, geosciences and life sciences, together with engineering and social sciences. Articles should attract the interest of broad polar science communities, and not be limited to the interests of those who work under specific research subjects. Polar Science also has an Open Archive whereby published articles are made freely available from ScienceDirect after an embargo period of 24 months from the date of publication. - Space and upper atmosphere physics - Atmospheric science/climatology - Glaciology - Oceanography/sea ice studies - Geology/petrology - Solid earth geophysics/seismology - Marine Earth science - Geomorphology/Cenozoic-Quaternary geology - Meteoritics - Terrestrial biology - Marine biology - Animal ecology - Environment - Polar Engineering - Humanities and social sciences.
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