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Open-ocean submesoscale motions: a full seasonal cycle of mixed layer instabilities from gliders

Open-ocean submesoscale motions: a full seasonal cycle of mixed layer instabilities from gliders
Open-ocean submesoscale motions: a full seasonal cycle of mixed layer instabilities from gliders
The importance of submesoscale instabilities, particularly mixed-layer baroclinic instability and symmetric instability, on upper ocean mixing and energetics is well documented in regions of strong, persistent fronts such as the Kuroshio and the Gulf Stream. Less attention has been devoted to studying submesoscale flows in the open ocean, far from long-term mean geostrophic fronts, characteristic of a large proportion of the global ocean. We present a year-long, submesoscale-resolving time series of near-surface buoyancy gradients, potential vorticity and instability characteristics, collected by ocean gliders, that provides insight into open-ocean submesoscale dynamics over a full annual cycle. The gliders continuously sampled a 225 km2 region in the subtropical northeast Atlantic, measuring temperature, salinity and pressure along 292 short (\~{}20 km) hydrographic sections.Glider observations show a seasonal cycle in near-surface stratification. Throughout the fall (September through November), the mixed layer deepens, predominantly through gravitational instability, indicating that surface cooling dominates submesoscale restratification processes. During winter (December through March), mixed layer depths are more variable, and estimates of the balanced Richardson number, which measures the relative importance of lateral and vertical buoyancy gradients, depict conditions favorable to symmetric instability. The importance of mixed layer instabilities on the restratification of the mixed layer, as compared with surface heating and cooling, shows that submesoscale processes can reverse the sign of an equivalent heat flux up to 25{\%} of the time during winter. These results demonstrate that the open-ocean mixed layer hosts various forced and unforced instabilities, which become more prevalent during winter, and emphasize that accurate parameterizations of submesoscale processes are needed throughout the ocean.
Geographic location/entity, North Atlantic Ocean, Circulation/ Dynamics, Instability, Turbulence, Atm/Ocean Structure/ Phenomena, Boundary layer, Observational techniques and algorithms, Profilers, oceanic, Variability, Seasonal variability
0022-3670
1285-1307
Thompson, Andrew F.
e9e80aff-7fc6-41c7-bb32-d99afd8f3f71
Lazar, Ayah
df385613-a17f-4e77-beaf-1b07014dad5d
Buckingham, Christian
dba7c776-a8c6-4617-ad40-7919dd4ab3dc
Naveira Garabato, Alberto C.
97c0e923-f076-4b38-b89b-938e11cea7a6
Damerell, Gillian M.
6ce386a9-11e7-4466-b7a2-2fc280332372
Heywood, Karen J.
83d91436-76bc-4d55-ae41-9af6a6fc8869
Thompson, Andrew F.
e9e80aff-7fc6-41c7-bb32-d99afd8f3f71
Lazar, Ayah
df385613-a17f-4e77-beaf-1b07014dad5d
Buckingham, Christian
dba7c776-a8c6-4617-ad40-7919dd4ab3dc
Naveira Garabato, Alberto C.
97c0e923-f076-4b38-b89b-938e11cea7a6
Damerell, Gillian M.
6ce386a9-11e7-4466-b7a2-2fc280332372
Heywood, Karen J.
83d91436-76bc-4d55-ae41-9af6a6fc8869

Thompson, Andrew F., Lazar, Ayah, Buckingham, Christian, Naveira Garabato, Alberto C., Damerell, Gillian M. and Heywood, Karen J. (2016) Open-ocean submesoscale motions: a full seasonal cycle of mixed layer instabilities from gliders. Journal of Physical Oceanography, 46 (4), 1285-1307. (doi:10.1175/JPO-D-15-0170.1).

Record type: Article

Abstract

The importance of submesoscale instabilities, particularly mixed-layer baroclinic instability and symmetric instability, on upper ocean mixing and energetics is well documented in regions of strong, persistent fronts such as the Kuroshio and the Gulf Stream. Less attention has been devoted to studying submesoscale flows in the open ocean, far from long-term mean geostrophic fronts, characteristic of a large proportion of the global ocean. We present a year-long, submesoscale-resolving time series of near-surface buoyancy gradients, potential vorticity and instability characteristics, collected by ocean gliders, that provides insight into open-ocean submesoscale dynamics over a full annual cycle. The gliders continuously sampled a 225 km2 region in the subtropical northeast Atlantic, measuring temperature, salinity and pressure along 292 short (\~{}20 km) hydrographic sections.Glider observations show a seasonal cycle in near-surface stratification. Throughout the fall (September through November), the mixed layer deepens, predominantly through gravitational instability, indicating that surface cooling dominates submesoscale restratification processes. During winter (December through March), mixed layer depths are more variable, and estimates of the balanced Richardson number, which measures the relative importance of lateral and vertical buoyancy gradients, depict conditions favorable to symmetric instability. The importance of mixed layer instabilities on the restratification of the mixed layer, as compared with surface heating and cooling, shows that submesoscale processes can reverse the sign of an equivalent heat flux up to 25{\%} of the time during winter. These results demonstrate that the open-ocean mixed layer hosts various forced and unforced instabilities, which become more prevalent during winter, and emphasize that accurate parameterizations of submesoscale processes are needed throughout the ocean.

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Accepted/In Press date: 21 January 2016
e-pub ahead of print date: March 2016
Published date: April 2016
Keywords: Geographic location/entity, North Atlantic Ocean, Circulation/ Dynamics, Instability, Turbulence, Atm/Ocean Structure/ Phenomena, Boundary layer, Observational techniques and algorithms, Profilers, oceanic, Variability, Seasonal variability
Organisations: Physical Oceanography

Identifiers

Local EPrints ID: 388719
URI: http://eprints.soton.ac.uk/id/eprint/388719
DOI: doi:10.1175/JPO-D-15-0170.1
ISSN: 0022-3670
PURE UUID: 9330c627-c91a-458f-aa08-617522e2dc83
ORCID for Alberto C. Naveira Garabato: ORCID iD orcid.org/0000-0001-6071-605X

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Date deposited: 02 Mar 2016 10:06
Last modified: 15 Mar 2024 03:24

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Contributors

Author: Andrew F. Thompson
Author: Ayah Lazar
Author: Christian Buckingham
Author: Alberto C. Naveira Garabato ORCID iD
Author: Gillian M. Damerell
Author: Karen J. Heywood

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