Stratification Breakdown in Antarctic Coastal Polynyas, Part I: Influence of Physical Factors on the Destratification Timescale

IF 2.8 2区 地球科学 Q1 OCEANOGRAPHY Journal of Physical Oceanography Pub Date : 2023-06-23 DOI:10.1175/jpo-d-22-0218.1
Yilang Xu, W. Zhang, T. Maksym, R. Ji, Yun Li
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Abstract

This study examines the process of water-column stratification breakdown in Antarctic coastal polynyas adjacent to an ice shelf with a cavity underneath. This first part of a two-part sequence seeks to quantify the influence of offshore katabatic winds, alongshore winds, air temperature, and initial ambient stratification on the timescales of polynya destratification through combining process-oriented numerical simulations and analytical scaling. In particular, the often-neglected influence of wind-driven circulation on the lateral transport of the water formed at the polynya surface — which we call Polynya Source Water (PSW) — is systematically examined here. First, an ice-shelf/sea-ice/ocean coupled numerical model is adapted to simulate the process of PSW formation in polynyas of various configurations. The simulations highlight that i) before reaching the bottom, majority of the PSW is actually carried away from the polynya by katabatic wind-induced offshore outflow, diminishing water-column mixing in the polynya and intrusion of the PSW into the neighboring ice shelf cavity, and ii) alongshore coastal easterly winds, through inducing onshore Ekman transport, reduce offshore loss of the PSW and enhance polynya mixing and PSW intrusion into the cavity. Second, an analytical scaling of the destratification timescale is derived based on fundamental physical principles to quantitatively synthesize the influence of the physical factors, which is then verified by independent numerical sensitivity simulations. This work provides insights into the mechanisms that drive temporal and cross-polynya variations in stratification and PSW formation in Antarctic coastal polynyas, and establishes a framework for studying differences among the polynyas in the ocean.
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南极海岸融冰的分层分解,第一部分:物理因素对分层分解时间尺度的影响
本研究考察了南极海岸冰融区水柱分层分解的过程,该冰融区毗邻冰架,下面有一个空腔。这是一个两部分序列的第一部分,旨在通过结合面向过程的数值模拟和分析标度,量化海上倾斜风、沿岸风、气温和初始环境分层对多冰湖去分层时间尺度的影响。特别是,在这里系统地研究了常常被忽视的风驱动环流对多冰湖表面形成的水(我们称之为多冰湖源水(PSW))的侧向输送的影响。首先,采用冰架/海冰/海洋耦合数值模式,模拟了不同构型冰裂岩中PSW的形成过程。模拟结果表明:1)在到达底部之前,大部分PSW实际上是由斜向风引起的离岸流出带离多冰峡的,减少了多冰峡的水柱混合和PSW对邻近冰架空洞的侵入;2)沿海的东风通过诱导陆上Ekman运输,减少了PSW的海上损失,增强了多冰峡混合和PSW对空洞的侵入。其次,基于基本物理原理推导出脱层时间尺度的解析标度,定量综合物理因素的影响,并通过独立的数值敏感性模拟进行验证。这项工作提供了对南极沿海冰融群中分层和PSW形成的时间和跨冰融群变化机制的见解,并为研究海洋中冰融群之间的差异建立了框架。
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来源期刊
CiteScore
2.40
自引率
20.00%
发文量
200
审稿时长
4.5 months
期刊介绍: The Journal of Physical Oceanography (JPO) (ISSN: 0022-3670; eISSN: 1520-0485) publishes research related to the physics of the ocean and to processes operating at its boundaries. Observational, theoretical, and modeling studies are all welcome, especially those that focus on elucidating specific physical processes. Papers that investigate interactions with other components of the Earth system (e.g., ocean–atmosphere, physical–biological, and physical–chemical interactions) as well as studies of other fluid systems (e.g., lakes and laboratory tanks) are also invited, as long as their focus is on understanding the ocean or its role in the Earth system.
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