PHOSPHORUS RELEASE AND ASSIMILATORY CAPACITY OF TWO LOWER MISSISSIPPI VALLEY FRESHWATER WETLAND SOILS
Autor: | Patrick H. Masscheleyn, W. H. Patrick, John H. Pardue, R. D. DeLaune |
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Rok vydání: | 1992 |
Předmět: |
geography
geography.geographical_feature_category Marsh Ecology Soil biodiversity Soil organic matter food and beverages Biogeochemistry Wetland complex mixtures Agronomy Hydric soil Environmental chemistry Soil water Environmental science Soil fertility Earth-Surface Processes Water Science and Technology |
Zdroj: | Journal of the American Water Resources Association. 28:763-773 |
ISSN: | 1752-1688 1093-474X |
Popis: | Phosphorus fluxes and water quality functions of a bottomland hardwood and freshwater marsh wetland soil were compared. The effect of soil physicochemical conditions, phosphorus loading rate, and diffusive exchange between soils and the overlying food water column on phosphorus release and retention were studied. The predominantly mineral swamp forest soil displayed greater phosphorus sorption potential than the organic freshwater marsh soil. Moreover, due to its low bulk density (0.11 g cm−3), the freshwater marsh soil surface area required for phosphorus retention is very large compared to the bottomland hardwood wetland soil. For both wetlands, soil redox status affected P release and assimilatory capacity. The more reducing the soils, the smaller their phosphorus retention capacity (greater their release). Phosphorus removal from the overlying water column into the wetland soils followed a first-order kinetic model. Under similar hydrological conditions, phosphorus was found to diffuse 1.2 times faster to the bottom. land hardwood soil than in the freshwater marsh soil. Results indicate that while the bottomland hardwood wetland soil will serve as a sink for phosphorus entering such wetland, phosphorus will be released and exported from the freshwater marsh soil into adjacent ecosystems. |
Databáze: | OpenAIRE |
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