Effect of future climate change on the coupling between the tropical oceans and precipitation over Southeastern South America
Abstract El Niño, the Indian Ocean Dipole (IOD), and the Tropical North Atlantic variability (TNA) can influence southeastern South America (SESA) rainfall, particularly during springtime. A recent study has shown that during the last century, there were two synchronization periods (1930s and 1970s)...
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ftrepec:oai:RePEc:spr:climat:v:141:y:2017:i:2:d:10.1007_s10584-016-1888-6 2023-05-15T17:35:36+02:00 Effect of future climate change on the coupling between the tropical oceans and precipitation over Southeastern South America Verónica Martín-Gómez Marcelo Barreiro http://link.springer.com/10.1007/s10584-016-1888-6 unknown http://link.springer.com/10.1007/s10584-016-1888-6 article ftrepec 2020-12-04T13:31:05Z Abstract El Niño, the Indian Ocean Dipole (IOD), and the Tropical North Atlantic variability (TNA) can influence southeastern South America (SESA) rainfall, particularly during springtime. A recent study has shown that during the last century, there were two synchronization periods (1930s and 1970s) in which different tropical oceans interacted among themselves and, in turn, induced precipitation anomalies over SESA. In this study, we evaluate how this collective influence of the tropical oceans on SESA precipitation observed during the twentieth century, can change in the next century as result of anthropogenic forcing. To do so, we use the output of seven different CMIP5 models and construct a network using as nodes the indices of the Niño3.4, the TNA, the IOD and rainfall over SESA. After evaluating their skill in representing the observed network statistics during the twentieth century, we study changes in the network under RCP4.5 and 8.5 global warming scenarios in the twenty-first century. Focusing on the grand CMIP5 ensemble mean, results suggest that an anthropogenic forcing would increase the number of synchronization periods per century, their time length, and the connectivity between nodes (with the exception of TNA and IOD in RCP8.5). The stronger connectivity of SESA precipitation with the tropical oceans in both scenarios suggest an increase of the oceanic influence on rainfall over SESA as a result of anthropogenic forcing, which would enhance its seasonal predictability. However, these results have to be taken with caution because there is a large disparity in model behavior and thus a large uncertainty in conclusions suggested from the grand ensemble mean. Indian Ocean Dipole, Ensemble Member, CMIP5 Model, Tropical Ocean, Network Distance Article in Journal/Newspaper North Atlantic RePEc (Research Papers in Economics) Indian |
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RePEc (Research Papers in Economics) |
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Abstract El Niño, the Indian Ocean Dipole (IOD), and the Tropical North Atlantic variability (TNA) can influence southeastern South America (SESA) rainfall, particularly during springtime. A recent study has shown that during the last century, there were two synchronization periods (1930s and 1970s) in which different tropical oceans interacted among themselves and, in turn, induced precipitation anomalies over SESA. In this study, we evaluate how this collective influence of the tropical oceans on SESA precipitation observed during the twentieth century, can change in the next century as result of anthropogenic forcing. To do so, we use the output of seven different CMIP5 models and construct a network using as nodes the indices of the Niño3.4, the TNA, the IOD and rainfall over SESA. After evaluating their skill in representing the observed network statistics during the twentieth century, we study changes in the network under RCP4.5 and 8.5 global warming scenarios in the twenty-first century. Focusing on the grand CMIP5 ensemble mean, results suggest that an anthropogenic forcing would increase the number of synchronization periods per century, their time length, and the connectivity between nodes (with the exception of TNA and IOD in RCP8.5). The stronger connectivity of SESA precipitation with the tropical oceans in both scenarios suggest an increase of the oceanic influence on rainfall over SESA as a result of anthropogenic forcing, which would enhance its seasonal predictability. However, these results have to be taken with caution because there is a large disparity in model behavior and thus a large uncertainty in conclusions suggested from the grand ensemble mean. Indian Ocean Dipole, Ensemble Member, CMIP5 Model, Tropical Ocean, Network Distance |
format |
Article in Journal/Newspaper |
author |
Verónica Martín-Gómez Marcelo Barreiro |
spellingShingle |
Verónica Martín-Gómez Marcelo Barreiro Effect of future climate change on the coupling between the tropical oceans and precipitation over Southeastern South America |
author_facet |
Verónica Martín-Gómez Marcelo Barreiro |
author_sort |
Verónica Martín-Gómez |
title |
Effect of future climate change on the coupling between the tropical oceans and precipitation over Southeastern South America |
title_short |
Effect of future climate change on the coupling between the tropical oceans and precipitation over Southeastern South America |
title_full |
Effect of future climate change on the coupling between the tropical oceans and precipitation over Southeastern South America |
title_fullStr |
Effect of future climate change on the coupling between the tropical oceans and precipitation over Southeastern South America |
title_full_unstemmed |
Effect of future climate change on the coupling between the tropical oceans and precipitation over Southeastern South America |
title_sort |
effect of future climate change on the coupling between the tropical oceans and precipitation over southeastern south america |
url |
http://link.springer.com/10.1007/s10584-016-1888-6 |
geographic |
Indian |
geographic_facet |
Indian |
genre |
North Atlantic |
genre_facet |
North Atlantic |
op_relation |
http://link.springer.com/10.1007/s10584-016-1888-6 |
_version_ |
1766134800299589632 |