2014 年至 2022 年,北大西洋次极地近期的清新增加了厄明尔海流较轻水域的输送量

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-11-14 DOI:10.1029/2024JC021184
Nora Fried, Tiago C. Biló, William E. Johns, Caroline A. Katsman, Kristen E. Fogaren, Meg Yoder, Hilary I. Palevsky, Fiammetta Straneo, M. Femke de Jong
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摘要

从 2012 年开始,北大西洋副极地东部经历了过去 120 年来最强的表层清新。目前尚不清楚这种盐度异常是否向下传播到了水体,并影响了副极地涡旋边界流的特性,从而减缓了翻转。在此,我们研究了这一盐度异常在此后十年中对暖咸的厄明格海流(IC)的影响。利用 2014-2022 年期间的厄明格海流每日系泊数据以及 1990 年以来邻近海盆的水文断面,研究了盐度异常在水体中的演变信号及其对输运变化的影响。我们发现,与 2015 年夏季相比,由于盐度异常,2016 年夏季集成电路淡水向北输运增加了 10 mSv。2018 年,盐度异常覆盖了下至 1500 米深的水体。整个盆地的水文断面显示,近期的清新信号遍布整个伊尔明格海。总体而言,2014-2015 年至 2021-2022 年期间,集成电路的淡水传输量增加了三倍。水体上部 1500 米处密度的相应降低导致轻于 σ0 = 27.55 kg m-3 的海水向北迁移量从 1.7 Sv 增加到 4.2 Sv。按密度等级划分的集成电路向北传输的这一变化可能会影响到东北大西洋的翻转特征、强度以及达到峰值的密度。
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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Recent Freshening of the Subpolar North Atlantic Increased the Transport of Lighter Waters of the Irminger Current From 2014 to 2022

Starting in 2012, the eastern subpolar North Atlantic experienced the strongest surface freshening in the past 120 years. It is yet unknown whether this salinity anomaly propagated downward into the water column and affected the properties of the boundary currents of the subpolar gyre, which could slow down the overturning. Here, we investigate the imprint of this salinity anomaly on the warm and saline Irminger Current (IC) in the decade thereafter. Using daily mooring data from the IC covering the period 2014–2022 combined with hydrographic sections across the adjacent basins from 1990, the evolving signal of the salinity anomaly over the water column and its imprint on the transport variability is studied. We find that due to the salinity anomaly, the northward freshwater transport of the IC increased by 10 mSv in summer 2016 compared to summer 2015. In 2018, the salinity anomaly covered the water column down to 1,500 m depth. Hydrographic sections across the basin showed that this recent freshening signal spread across the Irminger Sea. Overall, the freshwater transport of the IC increased by a factor of three between 2014–2015 and 2021–2022. The associated density decrease over the upper 1,500 m of the water column resulted in an increase in the northward transport of waters lighter than σ0 = 27.55 kg m−3 from 1.7 to 4.2 Sv. This change in northward IC transport by density class may impact the characteristics of the overturning in the Northeastern Atlantic, its strength and the density at which it peaks.

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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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