On the role of seamounts in upwelling deep-ocean waters through turbulent mixing
On the role of seamounts in upwelling deep-ocean waters through turbulent mixing
Turbulent mixing in the ocean exerts an important control on the rate and structure of the overturning circulation. However, the balance of processes underpinning this mixing is subject to significant uncertainties, limiting our understanding of the overturning’s deep upwelling limb. Here, we investigate the hitherto primarily neglected role of tens of thousands of seamounts in sustaining deep-ocean upwelling. Dynamical theory indicates that seamounts may stir and mix deep waters by generating lee waves and topographic wake vortices. At low latitudes, stirring and mixing are predicted to be enhanced by a layered vortex regime in the wakes. Using three realistic regional simulations spanning equatorial to middle latitudes, we show that layered wake vortices and elevated mixing are widespread around seamounts. We identify scalings that relate mixing rate within seamount wakes to topographic and hydrographic parameters. We then apply such scalings to a global seamount dataset and an ocean climatology to show that seamount-generated mixing makes an important contribution to the upwelling of deep waters. Our work thus brings seamounts to the fore of the deep-ocean mixing problem and urges observational, theoretical, and modeling efforts toward incorporating the seamounts’ mixing effects in conceptual and numerical ocean circulation models.
Mashayek, Ali
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Gula, Jonathan
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Baker, Lois E.
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Naveira Garabato, Alberto C.
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Cimoli, Laura
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Riley, James J.
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de Lavergne, Casimir
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2 July 2024
Mashayek, Ali
5d92c99a-a013-49c9-a5de-472c3b781ca6
Gula, Jonathan
7f8ad0bd-b6fc-4bd1-beef-d8b298fac0ef
Baker, Lois E.
5d095077-24e3-47c3-aff7-cbce774eb5e8
Naveira Garabato, Alberto C.
97c0e923-f076-4b38-b89b-938e11cea7a6
Cimoli, Laura
fb99b102-1558-45d1-b759-8bf7c2f570b2
Riley, James J.
d44345d4-31b5-40d6-958e-e29eac31e878
de Lavergne, Casimir
fb15659a-82a1-4bf0-8cda-504f90a2f029
Mashayek, Ali, Gula, Jonathan, Baker, Lois E., Naveira Garabato, Alberto C., Cimoli, Laura, Riley, James J. and de Lavergne, Casimir
(2024)
On the role of seamounts in upwelling deep-ocean waters through turbulent mixing.
Proceedings of the National Academy of Sciences, 121 (27), [e2322163121].
(doi:10.1073/pnas.2322163121).
Abstract
Turbulent mixing in the ocean exerts an important control on the rate and structure of the overturning circulation. However, the balance of processes underpinning this mixing is subject to significant uncertainties, limiting our understanding of the overturning’s deep upwelling limb. Here, we investigate the hitherto primarily neglected role of tens of thousands of seamounts in sustaining deep-ocean upwelling. Dynamical theory indicates that seamounts may stir and mix deep waters by generating lee waves and topographic wake vortices. At low latitudes, stirring and mixing are predicted to be enhanced by a layered vortex regime in the wakes. Using three realistic regional simulations spanning equatorial to middle latitudes, we show that layered wake vortices and elevated mixing are widespread around seamounts. We identify scalings that relate mixing rate within seamount wakes to topographic and hydrographic parameters. We then apply such scalings to a global seamount dataset and an ocean climatology to show that seamount-generated mixing makes an important contribution to the upwelling of deep waters. Our work thus brings seamounts to the fore of the deep-ocean mixing problem and urges observational, theoretical, and modeling efforts toward incorporating the seamounts’ mixing effects in conceptual and numerical ocean circulation models.
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mashayek-et-al-on-the-role-of-seamounts-in-upwelling-deep-ocean-waters-through-turbulent-mixing (1)
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Accepted/In Press date: 8 May 2024
e-pub ahead of print date: 24 June 2024
Published date: 2 July 2024
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Local EPrints ID: 503519
URI: http://eprints.soton.ac.uk/id/eprint/503519
ISSN: 0027-8424
PURE UUID: 8c9d27c7-c532-4e90-897a-80f74cf5e24f
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Date deposited: 04 Aug 2025 16:53
Last modified: 22 Aug 2025 01:55
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Contributors
Author:
Ali Mashayek
Author:
Jonathan Gula
Author:
Lois E. Baker
Author:
Laura Cimoli
Author:
James J. Riley
Author:
Casimir de Lavergne
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