Multiscale Observations of Deep Convection in the Northwestern Mediterranean Sea During Winter 2012–2013 Using Multiple Platforms

Pierre Testor; Anthony Bosse; Loïc Houpert; Félix Margirier; Laurent Mortier; Hervé Legoff; Denis Dausse; Matthieu Labaste; Johannes Karstensen; Daniel Hayes; Antonio Olita; Alberto Ribotti; Katrin Schroeder; Jacopo Chiggiato; Reiner Onken; Emma Heslop; Baptiste Mourre; Fabrizio D'ortenzio; Nicolas Mayot; Héloise Lavigne; Orens de Fommervault; Laurent Coppola; Louis Prieur; Vincent Taillandier; Xavier Durrieu de Madron; Francois Bourrin; Gael Many; Pierre Damien; Claude Estournel; Patrick Marsaleix; Isabelle Taupier-Letage; Patrick Raimbault; Robin Waldman; Marie Noelle Bouin; Hervé Giordani; Guy Caniaux; Samuel Somot; Véronique Ducrocq; Pascal Conan

doi:10.1002/2016JC012671

Multiscale Observations of Deep Convection in the Northwestern Mediterranean Sea During Winter 2012–2013 Using Multiple Platforms

Pierre Testor
, Anthony Bosse
, Loïc Houpert
, Félix Margirier
, Laurent Mortier
, Hervé Legoff
, Denis Dausse
, Matthieu Labaste
, Johannes Karstensen
, Daniel Hayes
, Antonio Olita
, Alberto Ribotti
, Katrin Schroeder
, Jacopo Chiggiato
, Reiner Onken
, Emma Heslop
, Baptiste Mourre
, Fabrizio D'ortenzio
, Nicolas Mayot
, Héloise Lavigne

Orens de Fommervault, Laurent Coppola, Louis Prieur, Vincent Taillandier, Xavier Durrieu de Madron, Francois Bourrin, Gael Many, Pierre Damien, Claude Estournel, Patrick Marsaleix, Isabelle Taupier-Letage, Patrick Raimbault, Robin Waldman, Marie Noelle Bouin, Hervé Giordani, Guy Caniaux, Samuel Somot, Véronique Ducrocq, Pascal Conan

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

During winter 2012–2013, open-ocean deep convection which is a major driver for the thermohaline circulation and ventilation of the ocean, occurred in the Gulf of Lions (Northwestern Mediterranean Sea) and has been thoroughly documented thanks in particular to the deployment of several gliders, Argo profiling floats, several dedicated ship cruises, and a mooring array during a period of about a year. Thanks to these intense observational efforts, we show that deep convection reached the bottom in winter early in February 2013 in a area of maximum 28 ± 3 10⁹m². We present new quantitative results with estimates of heat and salt content at the subbasin scale at different time scales (on the seasonal scale to a 10 days basis) through optimal interpolation techniques, and robust estimates of the deep water formation rate of 2.0±0.2 Sv. We provide an overview of the spatiotemporal coverage that has been reached throughout the seasons this year and we highlight some results based on data analysis and numerical modeling that are presented in this special issue. They concern key circulation features for the deep convection and the subsequent bloom such as Submesoscale Coherent Vortices (SCVs), the plumes, and symmetric instability at the edge of the deep convection area.

langue originale	Anglais
Pages (de - à)	1745-1776
Nombre de pages	32
journal	Journal of Geophysical Research: Oceans
Volume	123
Numéro de publication	3
Les DOIs	https://doi.org/10.1002/2016JC012671
état	Publié - 1 mars 2018

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10.1002/2016JC012671

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Testor, P., Bosse, A., Houpert, L., Margirier, F., Mortier, L., Legoff, H., Dausse, D., Labaste, M., Karstensen, J., Hayes, D., Olita, A., Ribotti, A., Schroeder, K., Chiggiato, J., Onken, R., Heslop, E., Mourre, B., D'ortenzio, F., Mayot, N., ... Conan, P. (2018). Multiscale Observations of Deep Convection in the Northwestern Mediterranean Sea During Winter 2012–2013 Using Multiple Platforms. Journal of Geophysical Research: Oceans, 123(3), 1745-1776. https://doi.org/10.1002/2016JC012671

@article{997093f2b74449cb9443f799f2efc027,

title = "Multiscale Observations of Deep Convection in the Northwestern Mediterranean Sea During Winter 2012–2013 Using Multiple Platforms",

abstract = "During winter 2012–2013, open-ocean deep convection which is a major driver for the thermohaline circulation and ventilation of the ocean, occurred in the Gulf of Lions (Northwestern Mediterranean Sea) and has been thoroughly documented thanks in particular to the deployment of several gliders, Argo profiling floats, several dedicated ship cruises, and a mooring array during a period of about a year. Thanks to these intense observational efforts, we show that deep convection reached the bottom in winter early in February 2013 in a area of maximum 28 ± 3 109m2. We present new quantitative results with estimates of heat and salt content at the subbasin scale at different time scales (on the seasonal scale to a 10 days basis) through optimal interpolation techniques, and robust estimates of the deep water formation rate of 2.0±0.2 Sv. We provide an overview of the spatiotemporal coverage that has been reached throughout the seasons this year and we highlight some results based on data analysis and numerical modeling that are presented in this special issue. They concern key circulation features for the deep convection and the subsequent bloom such as Submesoscale Coherent Vortices (SCVs), the plumes, and symmetric instability at the edge of the deep convection area.",

keywords = "Mediterranean Sea, eddies, energy and buoyancy fluxes, ocean observation, oceanic deep convection, plumes, symmetric instability",

author = "Pierre Testor and Anthony Bosse and Lo{\"i}c Houpert and F{\'e}lix Margirier and Laurent Mortier and Herv{\'e} Legoff and Denis Dausse and Matthieu Labaste and Johannes Karstensen and Daniel Hayes and Antonio Olita and Alberto Ribotti and Katrin Schroeder and Jacopo Chiggiato and Reiner Onken and Emma Heslop and Baptiste Mourre and Fabrizio D'ortenzio and Nicolas Mayot and H{\'e}loise Lavigne and \{de Fommervault\}, Orens and Laurent Coppola and Louis Prieur and Vincent Taillandier and \{Durrieu de Madron\}, Xavier and Francois Bourrin and Gael Many and Pierre Damien and Claude Estournel and Patrick Marsaleix and Isabelle Taupier-Letage and Patrick Raimbault and Robin Waldman and Bouin, \{Marie Noelle\} and Herv{\'e} Giordani and Guy Caniaux and Samuel Somot and V{\'e}ronique Ducrocq and Pascal Conan",

year = "2018",

month = mar,

day = "1",

doi = "10.1002/2016JC012671",

language = "English",

volume = "123",

pages = "1745--1776",

journal = "Journal of Geophysical Research: Oceans",

issn = "2169-9291",

number = "3",

}

Testor, P, Bosse, A, Houpert, L, Margirier, F, Mortier, L, Legoff, H, Dausse, D, Labaste, M, Karstensen, J, Hayes, D, Olita, A, Ribotti, A, Schroeder, K, Chiggiato, J, Onken, R, Heslop, E, Mourre, B, D'ortenzio, F, Mayot, N, Lavigne, H, de Fommervault, O, Coppola, L, Prieur, L, Taillandier, V, Durrieu de Madron, X, Bourrin, F, Many, G, Damien, P, Estournel, C, Marsaleix, P, Taupier-Letage, I, Raimbault, P, Waldman, R, Bouin, MN, Giordani, H, Caniaux, G, Somot, S, Ducrocq, V & Conan, P 2018, 'Multiscale Observations of Deep Convection in the Northwestern Mediterranean Sea During Winter 2012–2013 Using Multiple Platforms', Journal of Geophysical Research: Oceans, VOL. 123, Numéro 3, p. 1745-1776. https://doi.org/10.1002/2016JC012671

TY - JOUR

T1 - Multiscale Observations of Deep Convection in the Northwestern Mediterranean Sea During Winter 2012–2013 Using Multiple Platforms

AU - Testor, Pierre

AU - Bosse, Anthony

AU - Houpert, Loïc

AU - Margirier, Félix

AU - Mortier, Laurent

AU - Legoff, Hervé

AU - Dausse, Denis

AU - Labaste, Matthieu

AU - Karstensen, Johannes

AU - Hayes, Daniel

AU - Olita, Antonio

AU - Ribotti, Alberto

AU - Schroeder, Katrin

AU - Chiggiato, Jacopo

AU - Onken, Reiner

AU - Heslop, Emma

AU - Mourre, Baptiste

AU - D'ortenzio, Fabrizio

AU - Mayot, Nicolas

AU - Lavigne, Héloise

AU - de Fommervault, Orens

AU - Coppola, Laurent

AU - Prieur, Louis

AU - Taillandier, Vincent

AU - Durrieu de Madron, Xavier

AU - Bourrin, Francois

AU - Many, Gael

AU - Damien, Pierre

AU - Estournel, Claude

AU - Marsaleix, Patrick

AU - Taupier-Letage, Isabelle

AU - Raimbault, Patrick

AU - Waldman, Robin

AU - Bouin, Marie Noelle

AU - Giordani, Hervé

AU - Caniaux, Guy

AU - Somot, Samuel

AU - Ducrocq, Véronique

AU - Conan, Pascal

PY - 2018/3/1

Y1 - 2018/3/1

N2 - During winter 2012–2013, open-ocean deep convection which is a major driver for the thermohaline circulation and ventilation of the ocean, occurred in the Gulf of Lions (Northwestern Mediterranean Sea) and has been thoroughly documented thanks in particular to the deployment of several gliders, Argo profiling floats, several dedicated ship cruises, and a mooring array during a period of about a year. Thanks to these intense observational efforts, we show that deep convection reached the bottom in winter early in February 2013 in a area of maximum 28 ± 3 109m2. We present new quantitative results with estimates of heat and salt content at the subbasin scale at different time scales (on the seasonal scale to a 10 days basis) through optimal interpolation techniques, and robust estimates of the deep water formation rate of 2.0±0.2 Sv. We provide an overview of the spatiotemporal coverage that has been reached throughout the seasons this year and we highlight some results based on data analysis and numerical modeling that are presented in this special issue. They concern key circulation features for the deep convection and the subsequent bloom such as Submesoscale Coherent Vortices (SCVs), the plumes, and symmetric instability at the edge of the deep convection area.

AB - During winter 2012–2013, open-ocean deep convection which is a major driver for the thermohaline circulation and ventilation of the ocean, occurred in the Gulf of Lions (Northwestern Mediterranean Sea) and has been thoroughly documented thanks in particular to the deployment of several gliders, Argo profiling floats, several dedicated ship cruises, and a mooring array during a period of about a year. Thanks to these intense observational efforts, we show that deep convection reached the bottom in winter early in February 2013 in a area of maximum 28 ± 3 109m2. We present new quantitative results with estimates of heat and salt content at the subbasin scale at different time scales (on the seasonal scale to a 10 days basis) through optimal interpolation techniques, and robust estimates of the deep water formation rate of 2.0±0.2 Sv. We provide an overview of the spatiotemporal coverage that has been reached throughout the seasons this year and we highlight some results based on data analysis and numerical modeling that are presented in this special issue. They concern key circulation features for the deep convection and the subsequent bloom such as Submesoscale Coherent Vortices (SCVs), the plumes, and symmetric instability at the edge of the deep convection area.

KW - Mediterranean Sea

KW - eddies

KW - energy and buoyancy fluxes

KW - ocean observation

KW - oceanic deep convection

KW - plumes

KW - symmetric instability

UR - https://www.scopus.com/pages/publications/85042640249

U2 - 10.1002/2016JC012671

DO - 10.1002/2016JC012671

M3 - Article

AN - SCOPUS:85042640249

SN - 2169-9291

VL - 123

SP - 1745

EP - 1776

JO - Journal of Geophysical Research: Oceans

JF - Journal of Geophysical Research: Oceans

IS - 3

ER -

Multiscale Observations of Deep Convection in the Northwestern Mediterranean Sea During Winter 2012–2013 Using Multiple Platforms

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