The Role of the New Zealand Plateau in the Tasman Sea Circulation and Separation of the East Australian Current

Bull, Christopher, Kiss, Andrew E., van Sebille, Erik, Jourdain, Nicolas C. and England, Matthew H. (2018) The Role of the New Zealand Plateau in the Tasman Sea Circulation and Separation of the East Australian Current. Journal of Geophysical Research: Oceans, 123 (2). pp. 1457-1470. ISSN 2169-9275

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The East Australian Current (EAC) plays a major role in regional climate, circulation, and ecosystems, but predicting future changes is hampered by limited understanding of the factors controlling EAC separation. While there has been speculation that the presence of New Zealand may be important for the EAC separation, the prevailing view is that the time‐mean partial separation is set by the ocean's response to gradients in the wind stress curl. This study focuses on the role of New Zealand, and the associated adjacent bathymetry, in the partial separation of the EAC and ocean circulation in the Tasman Sea. Here utilizing an eddy‐permitting ocean model (NEMO), we find that the complete removal of the New Zealand plateau leads to a smaller fraction of EAC transport heading east and more heading south, with the mean separation latitude shifting >100 km southward. To examine the underlying dynamics, we remove New Zealand with two linear models: the Sverdrup/Godfrey Island Rule and NEMO in linear mode. We find that linear processes and deep bathymetry play a major role in the mean Tasman Front position, whereas nonlinear processes are crucial for the extent of the EAC retroflection. Contrary to past work, we find that meridional gradients in the basin‐wide wind stress curl are not the sole factor determining the latitude of EAC separation. We suggest that the Tasman Front location is set by either the maximum meridional gradient in the wind stress curl or the northern tip of New Zealand, whichever is furthest north.

Item Type: Article
Uncontrolled Keywords: EAC, East Australian Current, New Zealand, Nucleus for European Modeling of Ocean (NEMO), numerical ocean modeling, western boundary current separation
Subjects: F600 Geology
F700 Ocean Sciences
F800 Physical and Terrestrial Geographical and Environmental Sciences
Department: Faculties > Engineering and Environment > Geography and Environmental Sciences
Depositing User: Elena Carlaw
Date Deposited: 15 May 2020 10:42
Last Modified: 31 Jul 2021 17:49

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