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Journal of Southern Hemisphere Earth Systems Science Journal of Southern Hemisphere Earth Systems Science SocietyJournal of Southern Hemisphere Earth Systems Science Society
A journal for meteorology, climate, oceanography, hydrology and space weather focused on the southern hemisphere
RESEARCH ARTICLE (Open Access)

A wave-driven surface circulation feature in Table Bay

Marc de Vos https://orcid.org/0000-0001-8996-5500 A B * , Marcello Vichi https://orcid.org/0000-0002-0686-9634 B C and Christo Rautenbach https://orcid.org/0000-0001-6703-8386 B D E
+ Author Affiliations
- Author Affiliations

A Marine Research Unit, South African Weather Service, Cape Town, Western Cape, South Africa.

B Department of Oceanography, University of Cape Town, Cape Town, Western Cape, South Africa.

C Marine and Antarctic Research Centre for Innovation and Sustainability (MARIS), University of Cape Town, Cape Town, Western Cape, South Africa.

D Coastal and Estuarine Processes, National Institute for Water and Atmospheric Research, Hamilton, Waikato, New Zealand.

E Institute for Coastal and Marine Research, Nelson Mandela University, Port Elizabeth, Eastern Cape, South Africa.

* Correspondence to: marc.devos@weathersa.co.za

Handling Editor: Neil Holbrook

Journal of Southern Hemisphere Earth Systems Science 73(1) 60-76 https://doi.org/10.1071/ES22002
Submitted: 28 January 2022  Accepted: 31 January 2023   Published: 9 March 2023

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of the Bureau of Meteorology. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)

Abstract

Table Bay, located in the Cape Peninsula region of South Africa, supports a variety of human and ecological interests. Notably it hosts a major port, with significant shipping and smaller maritime activity in and near the bay. Despite this, knowledge of its circulation dynamics remains cursory. In this study, surface gravity waves, particularly those with longer periods and higher wave heights such as swells, are shown to be important in driving near surface currents and establishing circulation patterns within Table Bay. A surface circulation feature, linked to large wave conditions and established by strong wave-driven flows near Robben Island, is identified and described by means of two coastal ocean model simulations. One simulation is dynamically coupled to a wave model and includes current forcing due to waves, whereas the other neglects waves. The influence of these wave-driven currents is relevant at the event scale, but also affects the monthly means of the simulation periods. Finally, the importance of including accurate surface gravity wave forcing in simulations of coastal currents, for applications of coastal models, is elucidated. This is achieved by analysing differences in the drift of a series of drogues deployed in the coupled and uncoupled simulations. Trajectories, drift speeds and drogue fates differed materially between the two configurations, underscoring the implications of wave-driven currents for common use cases.

Keywords: Cape Peninsula, circulation, coastal currents, South Africa, Table Bay, wave–current interactions, wave dynamics, wave sheltering.


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