Pedro Tyaquiçã scite author profile

The North Brazil Current (NBC) is an intense western boundary current, which is the dominant feature of the surface circulation in the Western Tropical North Atlantic (WTNA). It flows predominantly northwestward along Brazilian northern coast and, around 6°N-8°N and 45°W, the current separates from the coast and retroflects to the east, feeding the North Equatorial Countercurrent (NECC; Garzoli et al., 2003; Johns

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Amazon River propagation evidenced by a CO2 decrease at 8°N, 38°W in September 2013

Lefèvre

Tyaquiçã

Veleda

et al. 2020

Journal of Marine Systems

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The surface fugacity of CO 2 (fCO 2 ) has been measured hourly at a mooring at 8°N, 38°W, using a spectrophotometric CO 2 sensor, from June to October 2013. In September 2013, the fCO 2 and the sea surface salinity (SSS) decrease significantly. The high precipitation due to the presence of the Intertropical Convergence Zone (ITCZ) and the propagation of low salinity waters from the Amazon River plume explain the decrease of SSS. Indeed, in fall, the retroflection of the North Brazil Current (NBC) feeds the North Equatorial Counter Current (NECC) and transports Amazon waters to the eastern part of the tropical Atlantic. Simulations from a three dimensional physical and biogeochemical model and observations at the mooring show that the Amazon plume reached the mooring in September 2013. The decrease of fCO 2 is associated with a moderate peak of chlorophyll. Over the period of the CO 2 observations, the site is a source of CO 2 to the atmosphere of 0.65 ± 0.47 mmol m −2 day −1 . Although the wind speed is at its lowest intensity in September 2013, the flux over the whole period would be about 14% higher without this month. Every month of September from 2006 to 2017, the model simulates a decrease of dissolved inorganic carbon corresponding to the SSS minimum.

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Amazon Plume Salinity Response to Ocean Teleconnections

et al. 2017

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Telhado verde: desempenho do sistema construtivo na redução do escoamento superficial

et al. 2013

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Na atualidade, metade da população mundial reside em centros urbanos, e os impactos negativos decorrentes de eventos hidrológicos têm sido recorrentes, visto que, com o aumento da impermeabilização, há redução nas taxas de infiltração, levando à diminuição da recarga dos aquíferos e à diminuição do escoamento de base. Consequentemente, o escoamento superficial é intensificado, aumentando a frequência e a magnitude dos picos de cheia, o que pode resultar na ocorrência de inundações, especialmente nos centros urbanos. Por outro lado, verifica-se já há algum tempo o emprego de telhados verdes em várias partes do mundo para contribuição arquitetônica estética e melhoria do conforto ambiental. Além desses enfoques, esta solução vem sendo tratada, também, como uma estrutura de controle do escoamento pluvial. Considerando características reais e os dados obtidos em campo, foi realizada a simulação da dinâmica da água em dois telhados verdes, com o emprego do código computacional Hydrus-1D, para diferentes intensidades de precipitação, visando verificar o desempenho desse sistema construtivo na redução do escoamento superficial. Os hidrogramas de saída mostraram-se qualitativamente adequados e quantitativamente coerentes e pode-se concluir que os telhados verdes constituem importantes dispositivos no amortecimento do escoamento superficial oriundo dos telhados, para as condições climáticas da área investigada.

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