Mário Francisco Leal de Quadro scite author profile

O conhecimento do desempenho das reanálises e dos erros associados a elas apresenta um papel fundamental na compreensão dos processos físicos que ocorrem na atmosfera. Este trabalho tem por objetivo documentar as principais características da precipitação associada à Zona de Convergência do Atlântico Sul (ZCAS), baseado em seis conjuntos de reanálises atmosféricas (MERRA, ERA-Interim, ERA-40, NCEP 1, NCEP 2 e NCEP CFSR) e cinco conjuntos de produtos observados de precipitação (SALDAS, CPC, CMAP, GPCP e GLDAS). Através destes dados também foi analisado o transporte de umidade sobre a região da ZCAS, para os anos de 1979 a 2007. Em resumo, este trabalho evidencia o avanço das novas reanálises na tentativa de representar de forma mais adequada a variável precipitação acumulada. Os diagramas de Taylor mostram que os produtos de precipitação estão bem correlacionados com o ponto de referência (CPC), com coeficientes entre 0,6 e 0,9. Somente a reanálise do NCEP CFSR possui correlações próximas as dos produtos de precipitação. Os conjuntos mais antigos de reanálises apresentam correlações menores, abaixo de 0,6. O Oceano Atlântico é a fonte principal do fluxo de umidade para a direção da ZCAS, que diminui na direção do continente. Na Região SE do Brasil, a topografia tem um papel importante para a convergência de umidade. Já na parte noroeste da ZCAS, este fator deve estar associado a processos termodinâmicos.

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Estudo de episódios de zonas de convergência do Atlântico Sul (ZCAS) sobre a América do Sul

Quadro¹

1999

Rev. Bras. Geof.

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Automated Detection Algorithm for SACZ, Oceanic SACZ, and Their Climatological Features

Rosa

Pezzi

Quadro

et al. 2020

Front. Environ. Sci.

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Uma Revisão dos Processos de Interação Oceano-Atmosfera em Regiões de Intenso Gradiente Termal do Oceano Atlântico Sul Baseada em Dados Observacionais

Pezzi

Souza

Quadro

2016

Rev. bras. meteorol.

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ResumoDe um modo geral, a interação do oceano com a atmosfera em regiões de intensa atividade da mesoescala oceânica (frentes oceanográficas, meandros e turbilhões de escalas espaciais típicas de cerca de 100-500 km e escalas temporais de cerca de 2-3 meses) apresenta uma correlação positiva entre a temperatura da superfície do mar (TSM) e variáveis meteorológicas tais como a estabilidade da Camada Limite Atmosférica Marinha (CLAM), a intensidade do vento e os fluxos de calor, de momentum e de gases entre o oceano e a atmosfera. Isto sugere que o oceano força a atmosfera nas escalas espaciais e temporais relacionados à mesoescala oceânica. Principalmente com base em dados observacionais, porém não exclusivamente, este trabalho apresenta uma breve revisão científica sobre o impacto das estruturas de mesoescala presentes no Oceano Atlântico Sudoeste em alguns componentes do sistema acoplado oceano-atmosfera que, em certos aspectos, impactam o tempo e o clima da regiões continentais adjacentes na América do Sul. Inclui-se neste artigo também uma breve revisão do estado da arte do conhecimento sobre a parte oceânica da Zona de Convergência do Atlântico Sul. Este artigo apresenta as características oceanográficas gerais da área de estudo, incluindo alguns aspectos sobre a circulação do Atlântico Sul e a variabilidade. Lembrando do fato que o Atlântico Sudoeste e Sul são regiões consideradas como trilha de tempestade, este trabalho também discute os impactos dos gradientes de TSM do Oceano Atlântico Sul Ocidental sobre os sistemas atmosféricos transientes que atravessam frequentemente esta região. Além disso, o artigo discute novos indícios de que os processos oceanográficos que ocorrem no litoral sul do Brasil no inverno tem um forte impacto sobre a modulação CLAM sobre a plataforma continental do sul do Brasil. O artigo aponta também índicos passados e presentes que os processos ecológicos causados pela variabilidade climática atmosférica e marinha na costa sul do Brasil impactam na desova e captura da sardinha (Sardinella Brasiliensis), que é um dos mais importantes recursos marinhos renováveis do Brasil. O artigo termina apresentando alguns dos esforços observacionais atuais do Brasil, visando a coleta de dados meteorológicos e marinhos no Oceano Atlântico Equatorial e Sul. Estes esforços visam aumentar a nossa compreensão do acoplamento oceano-atmosfera nas escalas sinóticas e climáticas, bem como o papel do Oceano Atlântico em controlar o calor, momentum e fluxos de dióxido de carbono para a atmosfera. Palavras-chave: interação oceano-atmosfera, TSM, camada limite atmosférica marinha, ZCAS, Oceano Atlântico Sudoeste, dados in situ. AbstractIn a general view, the interaction of the ocean with the atmosphere in regions of intense oceanic mesoscale activity (oceanographic fronts, meanders and eddies typical of spatial scales of about 100-500 km and time scales of about 2-3 Revista Brasileira de Meteorologia, v. 31, n. 4, 428-453, 2016

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Oceanic eddy-induced modifications to air–sea heat and CO2 fluxes in the Brazil-Malvinas Confluence

Pezzi

Souza

Santini

et al. 2021

Sci Rep

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Sea surface temperature (SST) anomalies caused by a warm core eddy (WCE) in the Southwestern Atlantic Ocean (SWA) rendered a crucial influence on modifying the marine atmospheric boundary layer (MABL). During the first cruise to support the Antarctic Modeling and Observation System (ATMOS) project, a WCE that was shed from the Brazil Current was sampled. Apart from traditional meteorological measurements, we used the Eddy Covariance method to directly measure the ocean–atmosphere sensible heat, latent heat, momentum, and carbon dioxide (CO2) fluxes. The mechanisms of pressure adjustment and vertical mixing that can make the MABL unstable were both identified. The WCE also acted to increase the surface winds and heat fluxes from the ocean to the atmosphere. Oceanic regions at middle and high latitudes are expected to absorb atmospheric CO2, and are thereby considered as sinks, due to their cold waters. Instead, the presence of this WCE in midlatitudes, surrounded by predominantly cold waters, caused the ocean to locally act as a CO2 source. The contribution to the atmosphere was estimated as 0.3 ± 0.04 mmol m−2 day−1, averaged over the sampling period. The CO2 transfer velocity coefficient (K) was determined using a quadratic fit and showed an adequate representation of ocean–atmosphere fluxes. The ocean–atmosphere CO2, momentum, and heat fluxes were each closely correlated with the SST. The increase of SST inside the WCE clearly resulted in larger magnitudes of all of the ocean–atmosphere fluxes studied here. This study adds to our understanding of how oceanic mesoscale structures, such as this WCE, affect the overlying atmosphere.

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The effect of Oceanic South Atlantic Convergence Zone episodes on regional SST anomalies: the roles of heat fluxes and upper-ocean dynamics

et al. 2022

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The South Atlantic Convergence Zone (SACZ) is an atmospheric system occurring in austral summer on the South America continent and sometimes extending over the adjacent South Atlantic. It is characterized by a persistent and very large, northwest-southeast-oriented, cloud band. Its presence over the ocean causes sea surface cooling that some past studies indicated as being produced by a decrease of incoming solar heat flux induced by the extensive cloud cover. Here we investigate ocean–atmosphere interaction processes in the Southwestern Atlantic Ocean (SWA) during SACZ oceanic episodes, as well as the resulting modulations occurring in the oceanic mixed layer and their possible feedbacks on the marine atmospheric boundary layer. Our main interests and novel results are on verifying how the oceanic SACZ acts on dynamic and thermodynamic mechanisms and contributes to the sea surface thermal balance in that region. In our oceanic SACZ episodes simulations we confirm an ocean surface cooling. Model results indicate that surface atmospheric circulation and the presence of an extensive cloud cover band over the SWA promote sea surface cooling via a combined effect of dynamic and thermodynamic mechanisms, which are of the same order of magnitude. The sea surface temperature (SST) decreases in regions underneath oceanic SACZ positions, near Southeast Brazilian coast, in the South Brazil Bight (SBB) and offshore. This cooling is the result of a complex combination of factors caused by the decrease of solar shortwave radiation reaching the sea surface and the reduction of horizontal heat advection in the Brazil Current (BC) region. The weakened southward BC and adjacent offshore region heat advection seems to be associated with the surface atmospheric circulation caused by oceanic SACZ episodes, which rotate the surface wind and strengthen cyclonic oceanic mesoscale eddy. Another singular feature found in this study is the presence of an atmospheric cyclonic vortex Southwest of the SACZ (CVSS), both at the surface and aloft at 850 hPa near 24°S and 45°W. The CVSS induces an SST decrease southwestward from the SACZ position by inducing divergent Ekman transport and consequent offshore upwelling. This shows that the dynamical effects of atmospheric surface circulation associated with the oceanic SACZ are not restricted only to the region underneath the cloud band, but that they extend southwestward where the CVSS presence supports the oceanic SACZ convective activity and concomitantly modifies the ocean dynamics. Therefore, the changes produced in the oceanic dynamics by these SACZ events may be important to many areas of scientific and applied climate research. For example, episodes of oceanic SACZ may influence the pathways of pollutants as well as fish larvae dispersion in the region.

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The atmospheric water cycle over South America as seen in the new generation of global reanalyses

Quadro¹,

Berbery²,

Dias³

et al. 2013

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Abstract. In this study the main features of the hydrological cycle over the South American region are documented with three reanalysis datasets and two observation-derived precipitation products. Rather than attempting to "close the water balance" that requires additional terms, many model dependent, we focus on the individual terms of the water cycle. An additional analysis is also presented in this work to investigate the role of the transport of moisture over the La Plata Basin (LPB) and South Atlantic Convergence Zone (SACZ) in the precipitation regimes from 1979 to 2007.

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Relating winds along the Southern Brazilian coast to extratropical cyclones

Bitencourt

Manoel

Acevedo

et al. 2010

Meteorological Applications

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ABSTRACT:Intense wind events at the southern Brazilian coast cause severe socio-economic losses. Generally, such events have been associated with extratropical cyclones over the Southwest Atlantic Ocean. The purpose of this study is to identify favoured locations and the processes through which the winds are associated with the extratropical cyclones. Using a statistical analysis, the wind speed observed at nine meteorological stations was compared with cyclone depth and offshore distance. Both cyclone depth and location were obtained through an objective procedure of identifying and tracking. Generally, the winds are well associated with the extratropical cyclones only south of 28°S. Altitude also plays an important role in this relationship. Furthermore, the cyclones influence the observed wind field up to 1200 km inland at higher latitude locations. For stations near 28°S, cyclones further from the coast have an influence, but with smaller statistical significance.

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