The Bering Strait Throughflow Component of the Global Mass, Heat and Freshwater Transport

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-10-04 DOI:10.1029/2024JC021463
Xiaoting Yang, Paola Cessi
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Abstract

As the only oceanic connection between the Pacific and Arctic-Atlantic Oceans, Bering Strait throughflow carries a climatological northward transport of about 1 Sv, contributing to the Atlantic Meridional Overturning Circulation (AMOC). Here, Lagrangian analysis quantifies the global distributions of volume transport, transit-times, thermohaline properties, diapycnal transformation, heat and freshwater transports associated with Bering Strait throughflow. Virtual Lagrangian parcels, released at Bering Strait, are advected by the velocity of Estimating the Circulation and Climate of the Ocean, backward and forward in time. Backward trajectories reveal that Bering Strait throughflow enters the Pacific basin on the southeast side, as part of fresh Antarctic Intermediate Water, then follows the wind-driven circulation to Bering Strait. Median transit time from 30 ° $30{}^{\circ}$ S in Indo-Pacific to Bering Strait is 175 years. Sixty-four percent of Bering Strait throughflow enters the North Atlantic through the Labrador Sea. The remaining 36% flows through the Greenland Sea, warmed and salinified by the northward flowing Atlantic waters. Deep water formation of water flowing through Bering Strait occurs predominantly in the Labrador Sea. Subsequently, this water joins the lower branch of AMOC, flowing southward in the deep western boundary current as North Atlantic Deep Water. Median transit time from Bering Strait to 30 ° $30{}^{\circ}$ S in South Atlantic is 160 years. The net heat transport of Bering Strait throughflow is northward everywhere, and net freshwater transport by Bering Strait throughflow is mostly northward. The freshwater transport is largest in the subpolar region of basin sectors: northward in the Pacific and Arctic and southward in the Atlantic.

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全球质量、热量和淡水传输的白令海峡通流部分
作为连接太平洋和北冰洋-大西洋的唯一大洋,白令海峡贯通流携带着约 1 Sv 的气候学向北输送,对大西洋经向翻转环流(AMOC)做出了贡献。在这里,拉格朗日分析量化了与白令海峡贯通流相关的体积输送、过境时间、温盐特性、近岸变化、热量和淡水输送的全球分布。在白令海峡释放的虚拟拉格朗日包裹,以 "海洋环流和气候估算 "的速度向前和向后平流。后向轨迹显示,白令海峡贯穿流作为新鲜南极中间水的一部分从东南侧进入太平洋海盆,然后随风环流进入白令海峡。从印度-太平洋的南纬 30 ° $30{}^{circ}$ 到白令海峡的中位过境时间为 175 年。白令海峡 64% 的通过流经拉布拉多海进入北大西洋。其余 36% 的水流经格陵兰海,被北流的大西洋海水加热和盐化。流经白令海峡的海水主要在拉布拉多海形成深水。随后,这些海水加入 AMOC 的下支流,作为北大西洋深层水随深西边界流向南流动。从白令海峡到南大西洋 30 ° $30{}^{\circ}$ S 的中位过境时间为 160 年。白令海峡贯通流的净热输送在各处都是向北的,白令海峡贯通流的净淡水输送主要是向北的。在盆地扇形的副极地地区,淡水输送量最大:太平洋和北极地区向北,大西洋地区向南。
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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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