Observation-based estimates of volume, heat, and freshwater exchanges between the subpolar North Atlantic interior, its boundary currents, and the atmosphere

IF 4.1 3区地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES

Ocean Science Pub Date : 2023-02-22 DOI:10.5194/os-19-169-2023

S. Jones, N. Fraser, S. Cunningham, A. Fox, M. Inall

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引用次数: 2

Abstract

Abstract. The Atlantic Meridional Overturning Circulation (AMOC) transports heat and salt between the tropical Atlantic and Arctic oceans. The interior of the North Atlantic subpolar gyre (SPG) is responsible for the much of the water mass transformation in the AMOC, and the export of this water to intensified boundary currents is crucial for projecting air–sea interaction onto the strength of the AMOC. However, the magnitude and location of exchange between the SPG and the boundary remains unclear. We present a novel climatology of the SPG boundary using quality-controlled CTD (conductivity–temperature–depth) and Argo hydrography, defining the SPG interior as the oceanic region bounded by 47∘ N and the 1000 m isobath. From this hydrography we find geostrophic flow out of the SPG around much of the boundary with minimal seasonality. The horizontal density gradient is reversed around western Greenland, where the geostrophic flow is into the SPG. Surface Ekman forcing drives net flow out of the SPG in all seasons with pronounced seasonality, varying between 2.45 ± 0.73 Sv in the summer and 7.70 ± 2.90 Sv in the winter. We estimate heat advected into the SPG to be between 0.14 ± 0.05 PW in the winter and 0.23 ± 0.05 PW in the spring, and freshwater advected out of the SPG to be between 0.07 ± 0.02 Sv in the summer and 0.15 ± 0.02 Sv in the autumn. These estimates approximately balance the surface heat and freshwater fluxes over the SPG domain. Overturning in the SPG varies seasonally, with a minimum of 6.20 ± 1.40 Sv in the autumn and a maximum of 10.17 ± 1.91 Sv in the spring, with surface Ekman the most likely mediator of this variability. The density of maximum overturning is at 27.30 kg m−3, with a second, smaller maximum at 27.54 kg m−3. Upper waters (σ0<27.30 kg m−3) are transformed in the interior then exported as either intermediate water (27.30–27.54 kg m−3) in the North Atlantic Current (NAC) or as dense water (σ0>27.54 kg m−3) exiting to the south. Our results support the present consensus that the formation and pre-conditioning of Subpolar Mode Water in the north-eastern Atlantic is a key determinant of AMOC strength.

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基于观测的北大西洋亚极地内部、边界流和大气之间的体积、热量和淡水交换

摘要大西洋经向翻转环流(AMOC)在热带大西洋和北冰洋之间输送热量和盐。北大西洋次极环流(SPG)的内部负责AMOC的大部分水团转换，而这些水向强化的边界流的输出对于将海气相互作用投射到AMOC的强度上至关重要。然而，火炮和边界之间的交换幅度和位置仍然不清楚。我们利用质量控制的CTD(电导率-温度-深度)和Argohydrography提出了SPG边界的新气候学，将SPG内部定义为以47°N和1000米等深线为界的海洋区域。从这个水文图中，我们发现从SPG流出的地转流在大部分边界周围具有最小的季节性。水平密度梯度在西格陵兰岛周围反转，在那里地转流进入SPG。地表Ekman强迫在所有季节驱动SPG净流量，具有明显的季节性，夏季为2.45±0.73 Sv，冬季为7.70±2.90 Sv。冬季平流进入SPG的热量为0.14±0.05 PW，春季为0.23±0.05 PW;夏季平流出SPG的淡水为0.07±0.02 Sv，秋季为0.15±0.02 Sv。这些估计值大致平衡了SPG域上的地表热量和淡水通量。SPG的翻转有季节变化，秋季最小为6.20±1.40 Sv，春季最大为10.17±1.91 Sv，地表Ekman最有可能是这种变化的中介。最大倾覆密度为27.30 kg m - 3，第二个较小的最大值为27.54 kg m - 3。上游水(σ027.54 kg m−3)向南流出。我们的结果支持目前的共识，即大西洋东北部亚极模态水的形成和预处理是AMOC强度的关键决定因素。

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

Ocean Science 地学-海洋学

CiteScore

5.90

自引率

6.20%

发文量

审稿时长

6-12 weeks

期刊介绍： Ocean Science (OS) is a not-for-profit international open-access scientific journal dedicated to the publication and discussion of research articles, short communications, and review papers on all aspects of ocean science: experimental, theoretical, and laboratory. The primary objective is to publish a very high-quality scientific journal with free Internet-based access for researchers and other interested people throughout the world. Electronic submission of articles is used to keep publication costs to a minimum. The costs will be covered by a moderate per-page charge paid by the authors. The peer-review process also makes use of the Internet. It includes an 8-week online discussion period with the original submitted manuscript and all comments. If accepted, the final revised paper will be published online. Ocean Science covers the following fields: ocean physics (i.e. ocean structure, circulation, tides, and internal waves); ocean chemistry; biological oceanography; air–sea interactions; ocean models – physical, chemical, biological, and biochemical; coastal and shelf edge processes; paleooceanography.