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Comparisons of sea ice motion and deformation, and their responses to ice conditions and cyclonic activity in the western Arctic Ocean between two summers

机译:两个夏季之间北冰洋西部海冰运动和变形及其对冰条件和气旋活动的响应的比较

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摘要

Measurements from 30 and 31 ice drifters during the seasonal transition from mid-August to late September of 2014 and 2016, respectively, were used to characterize sea ice motion and deformation in the western Arctic Ocean. The dispersion distance for the ice deformation in summer was markedly reduced because the mechanical behavior of sea ice in summer is closer to free drift and more granular compared to that in winter. For unconsolidated sea ice in late summer the logarithmic relationship between deformation and spatial scale is 2.4-3.1 times that for ice under freezing conditions. For 2007 to 2016 late summer (August - September) sea ice compactness in the Arctic was the highest (lowest) in 2014 (2016). Along the trajectories of the 2016 (2014) ice camp, the average 10-m wind speed in August-September was larger (smaller) than that averaged in 1979-2016 by 20% (13%). Relative to the great Arctic cyclone in August 2012, cyclones in summer 2016 had comparable sizes and intensity but with longer persistence. Lower ice compactness coupled with stronger cyclonic activity in late summer 2016 led to increased ice speed and enhanced deformation compared to 2014. Sea ice during late summer 2016 was closer to free drift, resulting in greater homogeneity of the drift field, a larger ice-wind speed ratio, as well as weaker multifractality, localization, and space-time coupling of the deformation field compared to late summer 2014. The localization of ice deformation in late summer 2014 was comparable to that obtained in the freezing season because of the high ice compactness. The enhanced ice dynamics in summer 2016 promoted ice melt and area loss via the positive albedo feedback.
机译:从2014年8月中旬至2014年9月下旬的季节性过渡期间分别对30个和31个流冰者进行了测量,以表征北冰洋西部的海冰运动和变形。夏季冰变形的分散距离显着减小,因为与冬季相比,夏季海冰的机械性能更接近自由漂移,并且颗粒更细。对于夏末未固结的海冰,变形与空间尺度之间的对数关系是冻结条件下冰的对数关系的2.4-3.1倍。对于2007年至2016年夏末(八月至九月),北极的海冰密实度是2014年(2016年)最高(最低)的。沿着2016年(2014年)冰场的轨迹,8月至9月的平均10米风速比1979年至2016年的平均风速大(小)20%(13%)。相对于2012年8月的北极大旋风,2016年夏季的旋风具有相似的大小和强度,但持续时间更长。与2014年相比,2016年夏末的较低冰密实度和更强的旋风活动导致了冰速增加和变形加剧。2016年夏末的海冰更接近自由漂移,从而导致漂移场的均一性更大,冰风更大与2014年夏末相比,形变场的速度比以及多重分形,局部化和时空耦合都较弱。2014年夏末的冰形变局部性与冰冻季节获得的水平相当,因为其冰密实度高。 2016年夏季增强的冰动力通过积极的反照率反馈促进了冰的融化和面积损失。

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  • 来源
    《Cold regions science and technology》 |2020年第2期|102925.1-102925.13|共13页
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  • 作者单位

    Polar Res Inst China MNR Key Lab Polar Sci Key Lab Polar Sci State Ocean Adm Shanghai 200136 Peoples R China;

    Polar Res Inst China MNR Key Lab Polar Sci Key Lab Polar Sci State Ocean Adm Shanghai 200136 Peoples R China|Wuhan Univ Chinese Antarctic Ctr Surveying & Mapping Wuhan 430079 Peoples R China;

    Australian Antarctic Div Hobart Tas 7150 Australia|Univ Tasmania Antarctic Climate & Ecosyst Cooperat Res Ctr Hobart Tas 7004 Australia;

    Oregon State Univ Coll Earth Ocean & Atmospher Sci Corvallis OR 97331 USA;

    Chinese Acad Meteorol Sci Beijing 100081 Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
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  • 关键词

    Arctic; Sea ice; Cyclonic activity; Ice concentration; Ice deformation;

    机译:北极;海冰;气旋活动;冰浓度冰变形;

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