1570 / 2019-08-21 16:21:45
南极中山站积雪-海冰观测和数值模拟研究
Abstract Pending
The observed snow depth and ice thickness on landfast sea ice in Prydz Bay, East Antarctica, were used to determine the role of snow in (a) the annual cycle of sea ice thickness at a fixed location (SIP) where snow usually blows away after snowfall and (b) early summer sea ice thickness within the transportation route surveys (TRS) domain farther from coast, where annual snow accumulation is substantial. The annual mean snow depth and maximum ice thickness had a negative relationship (r = −0.58, p < 0.05) at SIP, indicating a primary insulation effect of snow on ice thickness. However, in the TRS domain, this effect was negligible because snow contributes to ice thickness. A one-dimensional thermodynamic sea ice model, forced by local weather observations, reproduced the annual cycle of ice thickness at SIP well. During the freeze season, the modeled maximum difference of ice thickness using different snowfall scenarios ranged from 0.53–0.61 m. Snow cover delayed ice surface and ice bottom melting by 45 and 24 days, respectively. The modeled snow ice and superimposed ice accounted for 4–23% and 5–8% of the total maximum ice thickness on an annual basis in the case of initial ice thickness ranging from 0.05–2 m, respectively.
Important Date
  • Conference Date

    Oct 12

    2019

    to

    Oct 15

    2019

  • Sep 30 2019

    Draft paper submission deadline

  • Oct 15 2019

    Registration deadline

  • Jul 21 2020

    Contribution Submission Deadline

Sponsored By
青年地学论坛理事会
Organized By
中国科学院青海盐湖研究所
中国科学院西北高原生物研究所
青海师范大学
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