Abstract
Large-scale deep reservoirs associated with hydropower cascade development are known to influence the cycle of phosphorus (P). However, there is scarce information on the fractions and availability of P in sediments of large-scale deep reservoirs constructed due to hydropower cascade development. In this study, we researched the fractions and release mechanism of P in the sediments of large-scale deep reservoirs by analyzing the fractions and availability of P in the sediments of the Xiaowan (XW) and Nuozhadu (NZD) reservoirs in the middle and lower reaches of the Lancang River (China). According to the results, there is a significant difference in the P fractions in the sediments of the XW and NZD reservoirs, but not for the available P in the sediments. Compared to the NZD reservoir, there was less solid bioavailable phosphorus (BAP) in the sediments of the XW reservoir, but the replenishment degree of active solid phase P into pore water was higher in the XW. There was a significant positive correlation between the available P and the BAP; the Fe/P ratio measured by the diffusive gradients in thin films reflects the control of active iron (oxyhydr) oxides over labile P in the sediments. In addition to the reductive dissolution of iron-bound P, the release of P into the large deep reservoirs may be related to factors such as the sulfate reduction and the degradation of organic materials. The P cycling in deep reservoir sediments is mainly controlled by the Fe, and there is a clear spatial distribution of this mechanism in deep reservoirs.
Highlights
Phosphorus (P) is an essential constituent element of the protoplasm of biological cells [1] and is key for the metabolism of materials [2]
Reservoir was higher than that in the NZD reservoir, with average values of 555.5 ± 105.9 and 490.9 ± 94.5 mg/kg. This is because the XW reservoir is located upstream of the NZD reservoir, and phosphorus was trapped in the upstream reservoir sediment
The sediment contents of the P fractions of the NZD reservoir were in the order of BD-P > residual P (Res-P) > HCl-P > NaOH-P > EX-P
Summary
Phosphorus (P) is an essential constituent element of the protoplasm of biological cells [1] and is key for the metabolism of materials [2]. It is considered an important factor that limits productivity in water ecosystems. The efforts towards reducing water eutrophication have focused on controlling the external input of P into the water without considering the internal release of P into water sediments [5,6,7]. A previous study showed that because the migration and transformation of P may occur in water environments, reducing external P inputs may even enhance the internal loading [8]. During these migration and transformation processes, the sediments play an important role as a source or sink
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