Rain water samples were collected based on events at the University of São Paulo-campus Ribeirão Preto-from August 2002 to December 2005. About 84% (n=127) of the samples had excess of acidity, with an average pH of 5.12. There was no correlation between the pH values and the sugar cane harvest period. The Volume Weighed Means (VWM, in µmol L-1) for K + 3.9 (n=175), Na + 2.1 (n=172), Ca 2+ 5.0 (n=175) and Mg 2+ 1.8 (n=168), and their wet fluxes in RP were slightly higher than those reported to regions with similar characteristics. The concentrations for these cations were seasonal, with higher values during the harvest period. The largest difference was observed for K + , indicating its important source in the biomass burning activity. The seasonality showed for Ca 2+ is probably related to the higher soil resuspension during the more intense agricultural activities. A good linear correlation observed between Na + and K + (0.67626) and between Na + and Ca 2+ (0.77822), suggest that Na + may have important pirogenic as well as soil dust sources. The VWM for Dissolved Organic Carbon (DOC) in RP was higher than that reported for rainwater in the Amazon region (where the biomass burning is also intense); however, the wet fluxes from both sites were very similar (0.42 mol C m-2 ano-1). DOC concentrations were well correlated with K + (0.70341) and Ca 2+ (0.61638), suggesting that the biomass burning as well as soil dust can be important sources of organic carbon to the atmosphere. DOC concentrations in rainwater from Araraquara were even higher than those for RP, showing a high local source of organic carbon. The VWM (nmol L-1) for Cd 0.54 (n=56), Pb 3.02 (n=94) and Cu 19.9 (n=98) found in the rainwater from RP were similar to urban and industrialized regions of the Northern Hemisphere, while for Al (448 nmol L-1 , n=126) it was lower, and for Zn (405 nmol L-1 , n=120) the VWM was within the range reported for such areas. Except for Cd, all the other metals measured (Pb, Cu, Zn and Al) also showed higher concentrations (P=0.05) in rainwater samples during the harvest period, suggesting that biomass burning and intensive agricultural activities can increase these species concentrations in the atmosphere. The significant linear correlation between Pb and Ca 2+ (0.53845) indicates that soil inputs can be of relevance for Pb atmospheric inputs in RP. On the other hand, the absence of linear correlation between Zn and K + (0.20182) seems to indicate the presence of other important sources for Zn to the atmosphere besides biomass burning. The calculated Enrichment Factor showed that Cd, Zn, Pb and Cu are anomalously enriched in RP rainwater in relation to soil, suggesting these metals may have antroprogenic local sources as well as distant ones. The preliminary statistical analysis of principal components did not clarify the weight of the different sources of emission attributed in this work.
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