Three-dimensional modelling of the circulation in False Bay, South Africa

IF 1.4 4区 生物学 Q3 MARINE & FRESHWATER BIOLOGY African Journal of Marine Science Pub Date : 2021-01-02 DOI:10.2989/1814232X.2021.1882574
F. Coleman, G. Diedericks, A. Theron, J. Lencart e Silva
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Abstract

False Bay is the largest coastal embayment along South Africa’s coastline. Despite notable contributions of various historical observational studies on the circulation within False Bay and the associated physical processes driving these flows, there remains significant uncertainty largely because the studies to date have been undertaken over short durations and on limited spatial scales. This article aims to expand upon the findings of these historical observational studies by providing a thorough evaluation of intra-annual hydrodynamics within False Bay, with particular emphasis on providing greater definition on current circulation. To evaluate the effects of different processes on coastal hydrodynamics, a 3D hydrodynamic model was developed which included the influence of spatially varying wind forcing and daily averaged temperature-depth profiles on the model boundaries and atmospheric heat exchange. The model results relating to current circulation are consistent with historical studies that described a cyclonic (clockwise) circulation within the bay under southeasterly wind conditions. The development of this cyclonic pattern is primarily caused by the spatially varying wind field. During warmer months, upwelling events were noted at Cape Hangklip. Interestingly, under northwesterly wind conditions, the model results deviated from historical findings by showing a spatially uniform current field across the bay. Under these conditions, strong bottom return currents are generated, which contribute significantly to cold-water intrusion events within the bay.
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南非福斯湾环流的三维模型
福斯湾是南非海岸线上最大的沿海海湾。尽管对福尔斯湾内的环流和驱动这些流动的相关物理过程进行的各种历史观测研究做出了显著贡献,但仍存在很大的不确定性,这主要是因为迄今为止的研究持续时间短,空间尺度有限。本文旨在通过对福斯湾内的年内流体动力学进行全面评估,扩展这些历史观测研究的结果,特别强调对当前环流提供更大的定义。为了评估不同过程对海岸流体动力学的影响,开发了一个三维流体动力学模型,其中包括空间变化的风力和日平均温度深度剖面对模型边界和大气热交换的影响。与当前环流有关的模型结果与描述东南风条件下海湾内气旋(顺时针)环流的历史研究一致。这种气旋模式的发展主要是由空间变化的风场引起的。在温暖的月份,Hangklip角出现了上升流事件。有趣的是,在西北风条件下,模型结果显示整个海湾的流场在空间上是均匀的,从而偏离了历史发现。在这些条件下,会产生强烈的底部回流,这对海湾内的冷水入侵事件有很大贡献。
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来源期刊
African Journal of Marine Science
African Journal of Marine Science 生物-海洋与淡水生物学
CiteScore
2.60
自引率
16.70%
发文量
17
审稿时长
6-12 weeks
期刊介绍: The African (formerly South African) Journal of Marine Science provides an international forum for the publication of original scientific contributions or critical reviews, involving oceanic, shelf or estuarine waters, inclusive of oceanography, studies of organisms and their habitats, and aquaculture. Papers on the conservation and management of living resources, relevant social science and governance, or new techniques, are all welcomed, as are those that integrate different disciplines. Priority will be given to rigorous, question-driven research, rather than descriptive research. Contributions from African waters, including the Southern Ocean, are particularly encouraged, although not to the exclusion of those from elsewhere that have relevance to the African context. Submissions may take the form of a paper or a short communication. The journal aims to achieve a balanced representation of subject areas but also publishes proceedings of symposia in dedicated issues, as well as guest-edited suites on thematic topics in regular issues.
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