Spatial-temporal variation of dissolved inorganic material in the Amazon basin / Variação espaço-temporal do material inorgânico dissolvido na bacia Amazônica

The Amazon River basin is important in the contribution of dissolved material to oceans (4% worldwide). The aim of this work was to study the spatial and the temporal variability of dissolved inorganic materials in the main rivers of the Amazon basin. Data from 2003 to 2011 from six gauging stations of the ORE-HYBAM localized in Solimões, Purus, Madeira and Amazon rivers were used for this study. The concentrations of Ca2+, Na+, K+, Mg2+, Cl-, SO4 -2, HCO3 - and SiO2 were analyzed. At the stations of Solimões and Amazon rivers, the concentrations of Ca2+, Mg2+, HCO3 - and SO4 -2 had heterogeneous distribution over the years and did not show seasonality. At the stations of Madeira river, the concentration of these ions had seasonality inversely proportional to water discharge (dilution-concentration effect). Similar behavior was observed for the concentrations of Cl- and Na+ at the stations of the Solimões, Amazon and Madeira rivers, indicating almost constant release of Cl- and Na+ fluxes during the hydrological cycle. K+ and SiO2 showed almost constant concentrations throughout the years and all the stations, indicating that their flows depend on the river discharge variation. Therefore, the temporal variability of the dissolved inorganic material fluxes in the Solimões and Amazon rivers depends on the hydro-climatic factor and on the heterogeneity of the sources. In the Madeira and Purus rivers there is less influence of these factors, indicating that dissolved load fluxes are mainly associated to silicates weathering. As the Solimões basin contributes approximately 84% of the total flux of dissolved materials in the basin and is mainly under the influence of a hydro-climatic factor, we conclude that the temporal variability of this factor controls the temporal variability of the dissolved material fluxes of the Amazon basin.

A bacia do rio Amazonas é importante no aporte de material dissolvido para o oceano (4% a nível mundial). O objetivo deste trabalho foi estudar a variabilidade espaço-temporal do material inorgânico dissolvido nos principais rios da bacia Amazônica, para o qual foram utilizados dados entre 2003 e 2011 de seis estações hidrológicas do ORE-HYBAM localizadas nos rios Solimões, Purus, Madeira e Amazonas, analisados Ca2+, Na+, K+, Mg2+, Cl-, SO4 -2, HCO3 - e SiO2. Nas estações do rio Solimões e Amazonas as concentrações de Ca2+, Mg2+, HCO3 - e SO4 -2 tiveram distribuição heterogênea ao longo dos anos e não apresentaram sazonalidade. Nas estações do rio Madeira a concentração desses íons mostraram sazonalidade inversamente proporcional à vazão (efeito diluição-concentração). Comportamento similar tiveram Cl- e Na+ nas estações dos rios Solimões, Amazonas e Madeira, indicando liberação quase constante desses fluxos ao longo do ciclo hidrológico. K+ e SiO2 apresentaram concentrações quase constantes ao longo dos anos e entre as estações, indicando que seus fluxos dependem da variação da vazão. Portanto, a variação temporal do fluxo de material inorgânico dissolvido no rio Solimões e Amazonas depende do fator hidroclimatológico e da heterogeneidade das fontes. Nos rios Madeira e Purus há menor influência desses fatores, o que evidencia maior aporte dos silicatos. Como a bacia do Solimões aporta aproximadamente 84% do fluxo total de material dissolvido na bacia e está sob influência, principalmente, do fator hidroclimático, pode-se concluir que a variabilidade temporal desse fator controla a temporalidade dos fluxos do material dissolvido na bacia Amazônica.

Geographical origin of Amazonian freshwater fishes fingerprinted by 87Sr/86Sr ratios on fish otoliths and scales.

Calcified structures such as otoliths and scales grow continuously throughout the lifetime of fishes. The geochemical variations present in these biogenic structures are particularly relevant for studying fish migration and origin. In order to investigate the potential of the (87)Sr/(86)Sr ratio as a precise biogeochemical tag in Amazonian fishes, we compared this ratio between the water and fish otoliths and scales of two commercial fish species, Hoplias malabaricus and Schizodon fasciatus, from three major drainage basins of the Amazon: the Madeira, Solimões, and Tapajós rivers, displaying contrasted (87)Sr/(86)Sr ratios. A comparison of the (87)Sr/(86)Sr ratios between the otoliths and scales of the same individuals revealed similar values and were very close to the Sr isotopic composition of the local river where they were captured. This indicates, first, the absence of Sr isotopic fractionation during biological uptake and incorporation into calcified structures and, second, that scales may represent an interesting nonlethal alternative for (87)Sr/(86)Sr ratio measurements in comparison to otoliths. Considering the wide range of (87)Sr/(86)Sr variations that exist across Amazonian rivers, we used variations of (87)Sr/(86)Sr to discriminate fish origin at the basin level, as well as at the sub-basin level between the river and savannah lakes of the Beni River (Madeira basin).