ABSTRACT
Extreme Precipitation Events in Southeastern South America and
Large-Scale Convective Patterns in the South Atlantic Convergence Zone
Leila M.V. Carvalho
Department of Atmospheric Sciences, Institute of Astronomy and
Geophysics, University of São Paulo, São Paulo, Brazil
Charles Jones
Institute for Computational Earth System Science, University of
California, Santa Barbara, Santa Barbara, California
Brant
Liebmann
NOAA-CIRES Climate Diagnostics Center, Boulder, Colorado
(Manuscript received 5 October 2001, in final form 12 March
2002)
Abstract
The occurrence of daily extreme precipitation events in the Southeast
South America (São Paulo, Brazil) and the spatial features of
convective activity in the South Atlantic convergence zone (SACZ) are
investigated. Precipitation data from surface stations in
São Paulo state from 1979 through 1996 are used to determine the
frequency of occurrence of extremely heavy daily precipitation
events. Daily averages of outgoing longwave radiation (OLR) are examined to
characterize convective activity in the SACZ. OLR features are
identified with factor analysis. Two factors explain ~65% of the total
variance of the convective activity patterns in tropical South
America and characterize events according to the intensity and extent
of the OLR features over the Atlantic Ocean. The combination of factors
indicates that 35% of extreme precipitation events occurred when
convective activity in the SACZ was intense over large parts of
tropical South America, which includes São Paulo, but with less extent
toward the Atlantic Ocean. Warm SST episodes (El Niño) seem to
modulate the occurrence of extremes associated with intense convection
in the SACZ displaced northward of São Paulo and toward the Atlantic
Ocean. The remaining events associated with weak convective activity in
the SACZ suggest the role of transient systems producing extreme
precipitation in São Paulo. The important contribution of the present
work is the documentation of the role of orographic features for the
regional distribution of extreme precipitation in São Paulo. It is
shown that the regional distribution of extreme precipitation depends
on both the intensity and form of the convection in the SACZ.