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	Provedor de dados ArchiMer (13) Autor Talandier, Claude (13) Treguier, Anne-marie (7) Deshayes, Julie (4) Lique, Camille (4) Madec, G. (3) Barnier, Bernard (2) Le Sommer, Julien (2) Marti, O. (2) Mignot, J. (2) Molines, Jean-marc (2) Penduff, Thierry (2) Swingedouw, D. (2) Theetten, Sebastien (2) Accensi, Mickael (1) Ardhuin, Fabrice (1) Aumont, Olivier (1) Balkanski, Y. (1) Barnier, B (1) Barnier, B. (1) Beckmann, A (1) Mais... Palavra-chave Aerosols (1) Allowable emissions (1) Arctic (1) Arctic Ocean (1) Atlantic Meridional Overturning Circulation (1) Atlantic Water (1) Barticlinic jet (1) Bight of Biafra (1) CMIP3 (1) CMIP5 (1) Carbon cycle (1) Climate (1) Climate change (1) Climate model (1) Climate projections (1) Congo (1) Coupled ocean biogeochemistry (1) Deep Western Boundary Current (1) Downwelling current (1) Earth System Model (1) Mais... Tipo do documento Text (13) Ano 2020 (2) 2019 (1) 2015 (1) 2014 (4) 2013 (2) 2006 (3) Mais... País France (13) Idioma Inglês (12) Francês (1)		Registro completo Provedor de dados:  ArchiMer País:  France Título:  Possible sources driving the potential vorticity structure and long-wave instability of coastal upwelling and downwelling currents Autores:  Morel, Yves G. Darr, David S. Talandier, Claude Data:  2006-05 Ano:  2006 Palavras-chave:  Vorticity structure Physical oceanograpy Upwelling current Downwelling current Resumo:  It is well known that upwelling and downwelling currents are unstable to perturbations. Less is, however, known about the physical mechanism responsible for the observed and modeled instabilities. It is shown that the origin of the long-wave barotropic/ baroclinic instability observed on upwelling currents has to be sought among diabatic or thermobaric mechanisms. In particular, the role of mixing associated with Kelvin Helmholtz instability and of wind forcing is investigated. Low Richardson numbers occur when the pycnocline outcrops at the sea surface. The criterion for instability ( Ri <= 1/ 4) can be reached in a narrow region close to the upwelling front, permitting Kelvin - Helmholtz instability and mixing. This can precondition the current for long- wave instability by transforming the current's potential vorticity. A constant wind can likewise modify the potential vorticity. The resulting potential vorticity anomaly is always negative for both upwelling and downwelling currents, and this anomaly interacts with the outcropped front, destabilizing it. Examples are provided via numerical calculations using an idealized front. A wind stress is an effective means of inducing the negative PV necessary for instability; with wind, Kelvin-Helmholz instability, when present, merely modifies the instability characteristics. In addition, upwelling fronts are always less stable than comparable downwelling fronts. Tipo:  Text Idioma:  Inglês Identificador:  http://archimer.ifremer.fr/doc/2006/publication-1703.pdf DOI:10.1175/JPO2899.1 Editor:  American Meteorological Society Relação:  http://archimer.ifremer.fr/doc/00000/1703/ Formato:  application/pdf Fonte:  Journal of Physical Oceanography (0022-3670) (American Meteorological Society), 2006-05 , Vol. 36 , N. 5 , P. 875-896 Direitos:  American Meteorological Society 2006 Fechar

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