Spatiotemporal variation and freeze-thaw asymmetry of Arctic sea ice in multiple dimensions during 1979 to 2020

IF 1.4 3区 地球科学 Q3 OCEANOGRAPHY
Yu Guo, Xiaoli Wang, He Xu, Xiyong Hou
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Abstract

Arctic sea ice is broadly regarded as an indicator and amplifier of global climate change. The rapid changes in Arctic sea ice have been widely concerned. However, the spatiotemporal changes in the horizontal and vertical dimensions of Arctic sea ice and its asymmetry during the melt and freeze seasons are rarely quantified simultaneously based on multiple sources of the same long time series. In this study, the spatiotemporal variation and freeze-thaw asymmetry of Arctic sea ice were investigated from both the horizontal and vertical dimensions during 1979–2020 based on remote sensing and assimilation data. The results indicated that Arctic sea ice was declining at a remarkably high rate of −5.4 × 104 km2/a in sea ice area (SIA) and −2.2 cm/a in sea ice thickness (SIT) during 1979 to 2020, and the reduction of SIA and SIT was the largest in summer and the smallest in winter. Spatially, compared with other sub-regions, SIA showed a sharper declining trend in the Barents Sea, Kara Sea, and East Siberian Sea, while SIT presented a larger downward trend in the northern Canadian Archipelago, northern Greenland, and the East Siberian Sea. Regarding to the seasonal trend of sea ice on sub-region scale, the reduction rate of SIA exhibited an apparent spatial heterogeneity among seasons, especially in summer and winter, i.e., the sub-regions linked to the open ocean exhibited a higher decline rate in winter; however, the other sub-regions blocked by the coastlines presented a greater decline rate in summer. For SIT, the sub-regions such as the Beaufort Sea, East Siberian Sea, Chukchi Sea, Central Arctic, and Canadian Archipelago always showed a higher downward rate in all seasons. Furthermore, a striking freeze-thaw asymmetry of Arctic sea ice was also detected. Comparing sea ice changes in different dimensions, sea ice over most regions in the Arctic showed an early retreat and rapid advance in the horizontal dimension but late melting and gradual freezing in the vertical dimension. The amount of sea ice melting and freezing was disequilibrium in the Arctic during the considered period, and the rate of sea ice melting was 0.3 × 104 km2/a and 0.01 cm/a higher than that of freezing in the horizontal and vertical dimensions, respectively. Moreover, there were notable shifts in the melting and freezing of Arctic sea ice in 1997/2003 and 2000/2004, respectively, in the horizontal/vertical dimension.

1979 年至 2020 年期间北极海冰在多个维度上的时空变化和冻融不对称性
北极海冰被广泛视为全球气候变化的指标和放大器。北极海冰的快速变化受到广泛关注。然而,北极海冰水平和垂直维度的时空变化及其在融冻季节的不对称性很少能基于同一长时间序列的多个来源同时量化。本研究基于遥感和同化数据,从水平和垂直两个维度研究了 1979-2020 年期间北极海冰的时空变化和冻融不对称现象。结果表明,1979-2020年期间,北极海冰以海冰面积(SIA)-5.4×104 km2/a和海冰厚度(SIT)-2.2 cm/a的速度急剧下降,且SIA和SIT的降幅夏季最大,冬季最小。从空间上看,与其他次区域相比,巴伦支海、喀拉海和东西伯利亚海的海冰厚度(SIA)下降趋势更明显,而加拿大群岛北部、格陵兰岛北部和东西伯利亚海的海冰厚度(SIT)下降趋势更大。关于海冰在次区域尺度上的季节变化趋势,SIA 的减少率在不同季节,特别是夏季和冬季表现出明显的空间异质性,即与公海相连的次区域在冬季表现出更高的减少率;然而,被海岸线阻挡的其他次区域在夏季表现出更高的减少率。就 SIT 而言,波弗特海、东西伯利亚海、楚科奇海、北极中部和加拿大群岛等子区域在所有季节都表现出较高的下降率。此外,还发现北极海冰存在显著的冻融不对称现象。比较海冰在不同维度上的变化,北极大部分地区的海冰在水平维度上表现为退缩早、推进快,而在垂直维度上则表现为融化晚、逐渐冻结。在研究期间,北极地区海冰的融化量和冻结量呈不平衡状态,在水平和垂直维度上,海冰融化速度分别比冻结速度高 0.3 × 104 km2/a 和 0.01 cm/a。此外,1997/2003 年和 2000/2004 年北极海冰的融化和冻结在水平/垂直维度上分别出现了明显的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Acta Oceanologica Sinica
Acta Oceanologica Sinica 地学-海洋学
CiteScore
2.50
自引率
7.10%
发文量
3884
审稿时长
9 months
期刊介绍: Founded in 1982, Acta Oceanologica Sinica is the official bi-monthly journal of the Chinese Society of Oceanography. It seeks to provide a forum for research papers in the field of oceanography from all over the world. In working to advance scholarly communication it has made the fast publication of high-quality research papers within this field its primary goal. The journal encourages submissions from all branches of oceanography, including marine physics, marine chemistry, marine geology, marine biology, marine hydrology, marine meteorology, ocean engineering, marine remote sensing and marine environment sciences. It publishes original research papers, review articles as well as research notes covering the whole spectrum of oceanography. Special issues emanating from related conferences and meetings are also considered. All papers are subject to peer review and are published online at SpringerLink.
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