School of Earth Sciences, The Ohio State University, Columbus, Ohio, USA.
CAGE - Centre for Arctic Gas Hydrate, Environment and Climate, Department of Geosciences, UiT The Arctic University of Norway, 9037, Tromsø, Norway.
Sci Rep. 2018 Sep 25;8(1):14342. doi: 10.1038/s41598-018-32826-z.
Geophysical data from the South Kara Sea reveal U-shaped erosional structures buried beneath the 50-250 m deep seafloor of the continental shelf across an area of ~32 000 km. These structures are interpreted as thermokarst, formed in ancient yedoma terrains during Quaternary interglacial periods. Based on comparison to modern yedoma terrains, we suggest that these thermokarst features could have stored approximately 0.5 to 8 Gt carbon during past climate warmings. In the deeper parts of the South Kara Sea (>220 m water depth) the paleo thermokarst structures lie within the present day gas hydrate stability zone, with low bottom water temperatures -1.8 C) keeping the gas hydrate system in equilibrium. These thermokarst structures and their carbon reservoirs remain stable beneath a Quaternary sediment blanket, yet are potentially sensitive to future Arctic climate changes.
南卡拉海的地球物理数据揭示了埋藏在大陆架海底 50-250 米深处的 U 型侵蚀结构,该区域面积约为 32000 平方公里。这些结构被解释为热喀斯特,是在第四纪间冰期形成于古永冻层地貌中。通过与现代永冻层地貌的对比,我们认为这些热喀斯特特征在过去气候变暖期间可能储存了约 0.5 到 8 吉吨的碳。在南卡拉海较深的地区(水深超过 220 米),古热喀斯特结构位于现今天然气水合物稳定带内,底层水温低(-1.8°C)使天然气水合物系统处于平衡状态。这些热喀斯特结构及其碳储层在第四纪沉积物覆盖层下保持稳定,但可能对未来的北极气候变化敏感。