Sedimentary Phosphorus Form Distribution and Cycling in the Littoral Subzones of a Eutrophic Lake |
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| Authors: | Honglei Liu Chengqing Yin Hongjun Wang Weidong Wang Baoqing Shan |
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| Institution: | 1. State Key Laboratory of Environmental Aquatic Chemistry, Research Center for Eco‐Environmental Sciences, Chinese Academy of Sciences, Beijing, P. R. China.;2. Institute of Botany, Chinese Academy of Sciences, Beijing, P. R. China. |
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| Abstract: | Algae which bloom in open water and accumulate in the littoral zones may affect the biogeochemical cycle of phosphorus in eutrophic lakes. To determine such effects, a part of the lakeshore with little allochthonous nutrient input in Taihu Lake, China was selected for this field study. Distinct differences in sedimentary P forms were found among the different littoral subzones. The surface sedimentary total phosphorus (TP) content was 655 mg/kg in the eulittoral subzone and 631 to 641 mg/kg in the infralittoral subzone. Both were much higher than that in the profundal zone (410 mg/kg). Calcium‐bound P (Ca‐P) was significantly correlated to exchangeable P (Ex‐P), and they both had the highest contents in the infralittoral subzone and the lowest in the profundal zone. The aluminum‐ and iron‐bound P (Al‐P, Fe‐P) contents decreased from land to water along the ecotone section. Lower Fe/P ratios and higher Al‐P/Fe‐P ratios appeared in the infralittoral subzone, as compared with the profundal zone. This suggested that the accumulated algae could lead to a great deposit of P in the littoral zones. However, the active sedimentary P form transformation in the littoral zones would also result in a partial release of the accumulated P to the overlying water. |
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| Keywords: | Algae Accumulation Littoral Zone Phosphorus Form Sediment |
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