Fe,Al and Si species and organic matter leached off a ferrallitic and podzolic soil system from Central Amazonia |
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| Institution: | 1. USDA Forest Service, Northern Research Station, 410 MacInnes Drive, Houghton, MI 49931, United States;2. U.S. Geological Survey, Geosciences & Environmental Change Science Center, Denver Federal Center, MS 980, Box 25046, Denver, CO 80225, United States;3. U.S. Geological Survey, 345 Middlefield Road, Menlo Park, CA 94025-3561, United States |
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| Abstract: | The geochemistry of soil formation in central Amazonia, Brasil, was investigated by studying the waters draining off small podzolic, ferrallitic or mixed catchment areas. Dissolved, colloidal and particulate fractions were obtained by cascade filtration and tangential-flow filtration. The organic carbon, Fe, Si, Al concentrations and the complexing capacity with regard to Cu2+ were determined for each fraction. In the waters draining podzolic areas, bulk concentrations were in the range 25.0–38.1 mg L? 1 for organic carbon, 240–280 μg L? 1 for Fe, 130–630 μg L? 1 for Al and around 0.9 mg L? 1 for Si. Fe mainly migrates as organo-metallic complexes, while Al migrates roughly half as inorganics in the particulate fraction and half as small species likely inorganic in the dissolved fraction. The result is the leaching of all elements and the relative accumulation of residual quartz. In the waters draining ferrallitic areas, bulk concentrations were in the range 1.2–1.9 mg L? 1 for organic carbon, 45–55 μg L? 1 for Fe, 106–220 μg L? 1 for Al and around 1.9 mg L? 1 for Si, this later concentration remaining below saturation with quartz. Most elements were transported in the dissolved fraction, except 10% of Si which was in the particulate fraction, likely as quartz, and 40–45% of Al which was in the colloidal fractions, likely as Al-hydroxides. The result is a relative enrichment of the soil in Si with regard to Al. The soils strongly control the physico-chemical characteristics of the forest stream waters, and their transport capacity with regard to complexable metals. Moreover, our results showed that the behaviour of Al with regard to organic matter was different from the behaviour of Fe. |
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