Technical note: Determining Arctic Ocean halocline and cold halostad depths based on vertical stability

IF 4.1 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Ocean Science Pub Date : 2023-10-18 DOI:10.5194/os-19-1453-2023
Enrico P. Metzner, Marc Salzmann
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Abstract

Abstract. The Arctic Ocean halocline separates the cold surface mixed layer from the underlying warm Atlantic Water (AW), and thus provides a precondition for sea ice formation. Here, we introduce a new method in which the halocline base depth is determined from vertical stability and compare it to two existing methods. We also propose a novel method for detecting the cold halostad, a layer characterized by a small vertical salinity gradient, which is formed by the Pacific Winter Water in the Canada Basin or by meltwater off the eastern coast of Greenland and off Svalbard. Our main motivation for determining the halocline base depth depending on vertical stability was that vertical stability is closely related to vertical mixing and heat exchange. Vertical stability is a crucial parameter for determining whether the halocline can prevent vertical heat exchange and protect sea ice from warm AW. When applied to measurements from ice-tethered profilers, ships, and moorings, the new method for estimating the halocline base depth provides robust results with few artifacts. Analyzing a case in which water previously homogenized by winter convection was capped by fresh water at the surface suggests that the new method captured the beginning of new halocline formation in the Eurasian Basin. Comparatively large differences between the methods for detecting the halocline base depth were found in warm AW inflow regions for which climate models predict halocline thinning and increased net surface energy fluxes from the ocean to the atmosphere.
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技术说明:根据垂直稳定性确定北冰洋盐跃层和冷盐跃层深度
摘要北冰洋盐斜层将寒冷的表层混合层与下面的暖大西洋水(AW)分开,从而为海冰的形成提供了先决条件。本文介绍了一种根据垂直稳定度确定盐斜基底深度的新方法,并与现有的两种方法进行了比较。我们还提出了一种检测冷盐层的新方法,这是一种以小的垂直盐度梯度为特征的层,由加拿大盆地的太平洋冬季水或格陵兰岛东海岸和斯瓦尔巴群岛附近的融水形成。我们根据垂直稳定性来确定盐斜基底深度的主要动机是垂直稳定性与垂直混合和热交换密切相关。垂直稳定性是决定盐斜层是否能够阻止垂直热交换和保护海冰免受暖AW影响的关键参数。当应用于冰系剖面仪、船舶和系泊处的测量时,估算盐斜基底深度的新方法提供了可靠的结果,几乎没有人为影响。分析了一个由冬季对流均匀化的水被地表淡水覆盖的例子,表明新方法捕捉到了欧亚盆地新盐斜形成的开始。在温暖的AW入流区,气候模式预测盐跃层变薄和从海洋到大气的净表面能通量增加,探测盐跃层基底深度的方法之间存在较大差异。
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来源期刊
Ocean Science
Ocean Science 地学-海洋学
CiteScore
5.90
自引率
6.20%
发文量
78
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.
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