AUTHOR=Gozzo Luiz Felippe , Drumond Anita , Pampuch Luana Albertani , Ambrizzi Tércio , Crespo Natália Machado , Reboita Michelle Simões , Bier Anderson Augusto , Carpenedo Camila Bertoletti , Bueno Paola Gimenes , Pinheiro Henri Rossi , Custodio Maria de Souza , Kuki Cassia Akemi Castro , Tomaziello Ana Carolina Nóbile , Gomes Helber Barros , da Rocha Rosmeri Porfírio , Coelho Caio A. S. , Pimentel Raíssa de Matos TITLE=Intraseasonal Drivers of the 2018 Drought Over São Paulo, Brazil JOURNAL=Frontiers in Climate VOLUME=4 YEAR=2022 URL=https://www.frontiersin.org/journals/climate/articles/10.3389/fclim.2022.852824 DOI=10.3389/fclim.2022.852824 ISSN=2624-9553 ABSTRACT=

Dry conditions occurred over São Paulo state (southeastern Brazil) from February to July 2018, causing the driest semester in 35 years. Socioeconomic impacts included a record number of fire spots, most adverse conditions to pollutant dispersion in 3 years and the winter's lowest water reservoirs stored volume in 17 years. This paper discusses climate drivers to the onset and persistence of the dry conditions, with special attention to the intraseasonal forcing. Barotropic atmospheric circulations forced by the intraseasonal Pacific-South America teleconnection pattern, embedded in the lower frequency setup of the Pacific Decadal Oscillation and the Atlantic Multidecadal Oscillation, were identified as main large-scale forcings to reduce precipitation. Drought evolution was modulated by other intraseasonal drivers such as the Madden Julian, Antarctic and 10–30 days Oscillations. A break in the 6-month dry condition, in March 2018, highlighted the important role of such oscillations in determining precipitation anomalies over SP. Results show that intraseasonal phenomena and their interactions control drought characteristics such as magnitude, persistence and spatial distribution within a setup determined by lower-frequency oscillations. The intraseasonal timescale seems to be key and must be considered for a complete description and understanding of the complex drought evolution process in São Paulo.