Common cause for severe droughts in South America and marine heatwaves in the South Atlantic

In 2013/14 eastern South America experienced one of its worst droughts. At the same time an unprecedented marine heatwave developed in the western South Atlantic. The drought was linked to suppression of the South Atlantic convergence zone and its associated rainfall, which led to water shortages in...

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Bibliographic Details
Published in:Nature geoscience 2019-08, Vol.12 (8), p.620-626
Main Authors: Rodrigues, Regina R., Taschetto, Andréa S., Sen Gupta, Alex, Foltz, Gregory R.
Format: Article
Language:English
Subjects:
Air temperature
Anticyclonic circulation
Atmospheric blocking
Cloud cover
Convection
Convergence zones
Drought
Duration
Extreme weather
Fisheries
Food supply
Heat loss
Heat waves
Oceans
Primary production
Radiation
Rain
Rainfall
Short wave radiation
South Atlantic Convergence Zone (SACZ)
Tropical climate
Tropical convection
Water shortages
Winds
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Summary:In 2013/14 eastern South America experienced one of its worst droughts. At the same time an unprecedented marine heatwave developed in the western South Atlantic. The drought was linked to suppression of the South Atlantic convergence zone and its associated rainfall, which led to water shortages in Brazil and impacted food supplies globally. Here we show from observations that such droughts and adjacent marine heatwaves have a common remote cause. Atmospheric blocking triggered by tropical convection in the Indian and Pacific oceans can cause persistent anticyclonic circulation that not only leads to severe drought but also generates marine heatwaves in the adjacent ocean. We show that increased shortwave radiation due to reduced cloud cover and reduced ocean heat loss from weaker winds are the main contributors to the establishment of marine heatwaves in the region. The proposed mechanism, which involves droughts, extreme air temperature over land and atmospheric blocking explains approximately 60% of the marine heatwave events in the western South Atlantic. We also identified an increase in frequency, duration, intensity and extension of marine heatwave events over the satellite period 1982–2016. Moreover, surface primary production was reduced during these events with implications for regional fisheries.
ISSN:1752-0894
1752-0908
DOI:10.1038/s41561-019-0393-8