The Storm Tracks Response to Changes in Atmospheric Greenhouse Gas Concentration at the South of Brazil and Southwest Atlantic Ocean
Autor: | Jeferson Prietsch Machado, Rose Ane Pereira de Freitas, Douglas Lindemann, Fernanda Casagrande, Maria Angélica Gonçalves Cardoso |
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Rok vydání: | 2019 |
Předmět: |
010102 general mathematics
Magnitude (mathematics) Storm Zonal and meridional 0102 computer and information sciences General Medicine Sensible heat 01 natural sciences Latitude Sea surface temperature 010201 computation theory & mathematics Climatology Greenhouse gas Extratropical cyclone Environmental science 0101 mathematics |
Zdroj: | Atmospheric and Climate Sciences. :545-557 |
ISSN: | 2160-0422 2160-0414 |
DOI: | 10.4236/acs.2019.94035 |
Popis: | Here we investigate the ocean-atmosphere coupling and the contribution of the Sea Surface Temperature (SST) variations in: 1) Brazil-Malvinas Confluence (BMC) region, 2) Southwest Atlantic Ocean and 3) Southern Brazil. Numerical simulations of the ECHAM5/MPI-OM coupled ocean-atmosphere model were used to analyze the changes in the seasonal trajectory of the extratropical cyclones, in terms of intensification of physical mechanisms and implications for future scenarios. The numerical experiment for the future scenario considered an atmospheric CO2 concentration of approximately 770 ppm, which represents an increment of more than 350 ppm over the current values recorded by the Mauna Loa reference station. For this scenario, the results indicated a Storm Tracks (ST) displacement of 5° latitude toward south and changes of the meridional transport of sensible heat, close to 50°S. The increase in SST induces ST intensification and consequently an increase in the occurrence of extratropical cyclones. Overall, in the BMC region, we found a change in the pattern of cyclogenetic activity occurrence, with less frequent, but more intense events. On the Southern Brazilian region, the results of this study indicate increases in rainfall during summer months, whereas, a decrease in frequency and an increase in intensity were found for wintertime. We suggest that these changes could impact the climate dynamic of the Brazilian South coast, with a magnitude yet unknown. |
Databáze: | OpenAIRE |
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