巴芬湾的季节变化

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-10-21 DOI:10.1029/2024JC021038
Xuan Shan, Michael A. Spall, Clark Pennelly, Paul G. Myers
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引用次数: 0

摘要

讨论了巴芬湾季节周期的三个主要特征和基本动态。这项研究以一个区域性高分辨率海冰-海洋耦合数值模式为基础,补充了我们从观测中获得的认识。受大气、海冰、格陵兰岛和其他海洋盆地的影响,海洋环流表现出复杂的季节性变化,影响着北极淡水的储存和输出。海盆尺度的气压环流一般在夏季(冬季)较强(较弱)。内部再循环(∼2 Sv)主要由沿地形摆动的表面应力驱动。巴芬岛沿岸的体积输送也受到北极流入(∼0.6 Sv)的影响,这些流入流经史密斯湾和兰开斯特湾,在 6-8 月(10-12 月)达到最大(最小)。除气压变化外,巴芬岛洋流的垂直结构也在变化,冬春季节上层洋气压强度减弱。这是由于与空间多变的冰-海应力有关的跨大陆架环流使等压线变平。格陵兰岛径流和海冰过程在巴芬湾的浮力作用中占主导地位。与使格陵兰岛西部大陆架清新的径流相反,与冰融化造成的清新相比,冰形成的盐化作用更强,从而使巴芬湾内部出现净密度增加。过去 30 年中海冰的净形成占通过戴维斯海峡出口海冰的 25%。根据模拟结果,近几十年来气压和水质量变化的季节性变化。
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Seasonal Variability in Baffin Bay

Three dominant characteristics and underlying dynamics of the seasonal cycle in Baffin Bay are discussed. The study is based on a regional, high-resolution coupled sea ice-ocean numerical model that complements our understanding drawn from observations. Subject to forcing from the atmosphere, sea ice, Greenland, and other ocean basins, the ocean circulation exhibits complex seasonal variations that influence Arctic freshwater storage and export. The basin-scale barotropic circulation is generally stronger (weaker) in summer (winter). The interior recirculation (∼2 Sv) is primarily driven by oscillating along-topography surface stress. The volume transport along the Baffin Island coast is also influenced by Arctic inflows (∼0.6 Sv) via Smith Sound and Lancaster Sound with maximum (minimum) in June-August (October-December). In addition to the barotropic variation, the Baffin Island Current also has changing vertical structure with the upper-ocean baroclinicity weakened in winter-spring. It is due to a cross-shelf circulation associated with spatially variable ice-ocean stresses that flattens isopycnals. Greenland runoff and sea ice processes dominate buoyancy forcing to Baffin Bay. Opposite to the runoff that freshens the west Greenland shelf, stronger salinification by ice formation compared to freshening by ice melt enables a net densification in the interior of Baffin Bay. Net sea ice formation in the past 30 years contributes to ∼25% of sea ice export via Davis Strait. The seasonal variability in baroclinicity and water mass transformation changes in recent decades based on the simulation.

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来源期刊
Journal of Geophysical Research-Oceans
Journal of Geophysical Research-Oceans Earth and Planetary Sciences-Oceanography
CiteScore
7.00
自引率
13.90%
发文量
429
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