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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Changes in the equatorial mode of the Tropical Atlantic in different oceanic reanalyses / Mudanças no modo equatorial do Atlântico Tropical em diferentes reanálises oceânicas

Júnior, Paulo Sergio da Silva 19 March 2019 (has links)
In the Tropical Atlantic Ocean, the main mode of SST variability is the Atlantic Equatorial Mode or Atlantic Niño, which is strongly associated with rainfall patterns in northeastern Brazil and the West Africa Monsoon. The region of largest interannual variability, where the Atlantic Cold Tongue forms, is also a region of consistent biases in climate models. In this study, we investigate the interannual variability of the Tropical Atlantic and its changes in the recent decades in terms of the Bjerknes Feedback Index in a set of seven ocean reanalyses for the periods 1980-1999 and 2000-2010 and for an XX century ocean reanalysis for 1950-2010. Warming trends are observed in SSTs in the cold tongue region, as well as a decrease interannual variability. These in turn are associated with a weakening in the Bjerknes Feedback in the early XXI century, resulting from a stronger thermal damping and weaker thermocline feedback, associated with a weaker response of equatorial zonal thermocline slope to equatorial zonal wind stress. However, the spread among the reanalysis products is large, which makes necessary the use of multiple products and an ensemble analysis to minimize errors and obtain more robust results. This is further reinforced as no significant shifts in the Bjerknes Feedback Index were found for the period previous to 1980, since only one reanalysis product covers this period and its individual errors are large. / No Atlântico Tropical, o principal modo de variabilidade da temperatura da superfície do mar é o modo equatorial, ou El Niño do Atlântico, que está fortemente associado aos padrões de precipitação no Nordeste do Brasil e à Monção Oeste-Africana. A região de maior variabilidade interanual, onde se forma a Língua Fria do Atlântico, é também uma região de consistente discordância entre modelos climáticos. Neste estudo, são investigadas a variabilidade interanual do Atlântico Tropical e suas mudanças nas últimas décadas por meio do Índice do Feedback de Bjerknes considerando um grupo de sete reanálises oceânicas para os períodos de 1980-1999 e 2000-2010 e uma reanálise do século XX para 1950-2010. Um aquecimento é observado na região da língua fria, assim como uma diminuição na variabilidade interanual. Essas mudanças estão ligadas a um enfraquecimento do Feedback de Bjerknes no início do século XXI, como resultado de um amortecimento térmico mais intenso e um enfraquecimento do feedback da termoclina, associado a uma resposta mais fraca do gradiente zonal da termoclina equatorial à tensão de cisalhamento do vento. Contudo, a dispersão entre as reanálises é alta, o que torna necessária a análise comparativa de múltiplos produtos, visando obter resultados mais robustos. Da mesma forma, não foi possível tirar conclusões sobre mudanças no Feedback de Bjerknes no período anterior a 1980, uma vez que somente uma reanálise cobria este período e os erros individuais são grandes.
2

Sources de la variabilité interannuelle de la langue d'eau froide Atlantique / Sources of the Atlantic cold tongue interannual variability

Planton, Yann 10 November 2015 (has links)
La langue d'eau froide Atlantique est un refroidissement saisonnier qui affecte les eaux superficielles au sud de l'équateur entre les côtes africaines et 30°W environ, pendant la " saison froide " (entre mai et octobre). Ce phénomène se produit tous les ans, mais son intensité, sa durée, ainsi que son extension spatiale sont très variables d'une année sur l'autre. En dépit du couplage très marqué qui lie la langue d'eau froide et les premiers stades de la mousson africaine, les causes de cette variabilité interannuelle sont peu connues. Cette thèse a pour objectif de combler cette lacune en améliorant notre compréhension des processus océaniques contrôlant la variabilité interannuelle de la langue d'eau froide. Cette étude se focalise sur les événements " intenses" de la langue d'eau froide, correspondant à des refroidissements anormalement forts (faibles), précédés par des anomalies négatives (positives) de vent zonal. On se focalise ainsi sur les événements dits " canoniques ", les plus nombreux, et potentiellement similaires en terme de mécanisme. Cette classification, appliquée à une dizaine de réanalyses, permet de retenir, avec une robustesse certaine, cinq années dans chacune des classes. Ces événements sont étudiés grâce à des simulations numériques réalistes. L'utilisation de bilans de chaleur nous a permis d'accéder aux processus physiques qui contrôlent la formation des événements froids et chauds. Le mélange vertical à la base de la couche de mélange apparaît comme le processus fondamental de la variabilité interannuelle de la langue d'eau froide. Lors des événements froids, il accroît le refroidissement entre mars et juillet, alors que son rôle reste discret lors des événements chauds. Au milieu de l'été boréal, les anomalies de mélange vertical sont contrebalancées par des anomalies d'advection horizontale de signes opposés. Ainsi les événements froids comme chauds sont atténués en fin de saison. Cette thèse montre qu'il est plus pertinent de s'intéresser au flux d'énergie cinétique qui est plus directement lié à l'activation du mélange vertical, qu'à la tension de vent en surface. Le flux d'énergie cinétique semble d'autant plus pertinent qu'il joue aussi un rôle majeur lors des événements intenses " non-canoniques ", i.e. événements froids (chauds), précédés par des anomalies positives (négatives) de vent zonal. Enfin, la modulation de la vitesse verticale induite par le vent tend à ajuster i) la profondeur de la couche de mélange, ii) la pente de la thermocline, et iii) le cisaillement vertical de courant zonal. Ce sont des paramètres clés du mélange vertical et donc du taux de refroidissement. La vitesse verticale joue donc un rôle indirect dans l'établissement et la variabilité interannuelle de la langue d'eau froide. / The Atlantic cold tongue is a seasonal cooling of the sea surface temperature south of the Equator between the African coasts and around 30°W during the " cold season " (from May to October). The cooling occurs every year but its intensity, duration and spatial extent vary strongly from one year to another. In spite of the very strong coupling between the Atlantic cold tongue and the West African monsoon, the origin of the Atlantic cold tongue variability is not well described. This thesis aims at filling this gap by improving our understanding of the oceanic processes controlling the variability of the Atlantic cold tongue. This study focuses on " intense " Atlantic cold tongue events, defined by abnormally strong (weak) cooling, preceded by negative (positive) zonal wind anomalies. Thus " canonical " being studied, that are the most frequent and probably similar in terms of mechanisms. This classification is applied to ten reanalyses and allows to select with good confidence, five events in each group. These events are studied through realistic simulations. The use of on-line heat budget allows to identify the physical processes that control the formation of cold and warm events. Vertical mixing at the base of the mixed-layer is the fundamental process controlling the interannual variability of the cold tongue. During cold events, it increases the cooling between March and July, while it remains weak during warm events. During boreal summer, vertical mixing anomalies are balanced by horizontal advection anomalies of opposite sign. So cold and warm events are weakened at the end of the season. This thesis highlights that it is more appropriate to focus on the wind energy flux because it is more directly related to the activation of vertical mixing, rather than on the surface wind stress. The wind energy flux is relevant since it is also shown to play a major role during intense " non-canonical " events, i.e. cold (warm) events preceded by positive (negative) zonal wind anomalies. Finally, the modulation of the vertical velocity induced by the wind tends to adjust i) the mixed-layer depth, ii) the intensity of the thermocline, and iii) the vertical shear of the zonal current. These are key parameters of vertical mixing and therefore the cooling rate. Thus, vertical velocity plays an indirect role in the establishment and interannual variability of the Atlantic cold tongue.

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