The Impacts of Inter-El Nino Variability on the Tropical Atlantic and Northeast Brazil Climate


Autoria(s): RODRIGUES, Regina R.; HAARSMA, Reindert J.; CAMPOS, Edmo J. D.; AMBRIZZI, Tercio
Contribuinte(s)

UNIVERSIDADE DE SÃO PAULO

Data(s)

19/10/2012

19/10/2012

2011

Resumo

In this study, observations and numerical simulations are used to investigate how different El Nino events affect the development of SST anomalies in the Atlantic and how this relates to the Brazilian northeast (NE) precipitation. The results show that different types of El Nino have different impacts on the SST anomalies of the equatorial and tropical South Atlantic but a similar SST response in the tropical North Atlantic. Strong and long (weak and short) El Ninos with the main heating source located in the eastern (central) Pacific generate cold (warm) anomalies in the cold tongue and Benguela upwelling regions during boreal winter and spring. When the SST anomalies in the eastern equatorial and tropical South Atlantic are cold (warm), the meridional SST gradient across the equator is positive (negative) and the ITCZ is not allowed (allowed) to move southward during the boreal spring; as a consequence, the precipitation is below (above) the average over the NE. Thus, strong and long (weak and short) El Ninos are followed by dry (wet) conditions in the NE. During strong and long El Ninos, changes in the Walker circulation over the Atlantic and in the Pacific-South Atlantic (PSA) wave train cause easterly wind anomalies in the western equatorial Atlantic, which in turn activate the Bjerknes mechanism, establishing the cold tongue in boreal spring and summer. These easterly anomalies are also responsible for the Benguela upwelling. During short and weak El Ninos, westerly wind anomalies are present in the western equatorial Atlantic accompanied by warm anomalies in the eastern equatorial and tropical South Atlantic; a positive phase of the South Atlantic dipole develops during boreal winter. The simulations highlight the importance of ocean dynamics in establishing the correct slope of the equatorial thermocline and SST anomalies, which in turn determine the correct rainfall response over the NE.

FAPESP[2007/03279-5]

FAPESP[2008/01565-3]

CNPq

Inter-American Institute for Global Change Research (IAI)[CRNII-047]

Inter-American Institute for Global Change Research (IAI)[CRNII-076]

National Science Foundation (NSF)[GEO-0452325]

Identificador

JOURNAL OF CLIMATE, v.24, n.13, p.3402-3422, 2011

0894-8755

http://producao.usp.br/handle/BDPI/26975

10.1175/2011JCLI3983.1

http://dx.doi.org/10.1175/2011JCLI3983.1

Idioma(s)

eng

Publicador

AMER METEOROLOGICAL SOC

Relação

Journal of Climate

Direitos

restrictedAccess

Copyright AMER METEOROLOGICAL SOC

Palavras-Chave #SEA-SURFACE TEMPERATURE #ATMOSPHERIC CIRCULATION CELLS #SOUTH ATLANTIC #SEASONAL PRECIPITATION #COUPLED VARIABILITY #EASTERN-PACIFIC #OCEAN #RAINFALL #MODEL #ENSO #Meteorology & Atmospheric Sciences
Tipo

article

original article

publishedVersion