Journal
HYDROBIOLOGIA
Volume 584, Issue -, Pages 37-48Publisher
SPRINGER
DOI: 10.1007/s10750-007-0610-0
Keywords
sediment; phosphorus; mobility; bio-regulation; seasonality
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Funding
- Natural Environment Research Council [ceh010023, ceh010022] Funding Source: researchfish
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Sediment and water column phosphorus fractions were recorded monthly for one year (April 2004-April 2005) in a shallow lake recovering from nutrient pollution (Loch Leven, Scotland). Equilibrium phosphate concentration (EPC0) and gross sediment phosphorus (P) release rates were estimated from laboratory experiments. Pore water and organic P pools were lowest during warm water periods whereas bottom water P was lowest during cold water periods. Reductant-soluble, organic, metal oxide-adsorbed, residual and sediment total phosphorus pools all varied significantly with overlying water depth. Short-term, high magnitude, redox initiated P release events occurred in late summer and winter as a result of anoxic sediment conditions. Lower magnitude long-term release conditions were maintained for most of the year, most likely as a result of organic P cycling and maintenance of high concentration gradients between the pore and bottom water P pools. Estimates of summer P uptake/release rates, across an intact sediment-water interface, suggested that maximum gross internal release was similar to 12 mg SRP m(-2) lake surface area d(-1) with EPC0 values ranging between 180 and 270 mu g P L-1. This study highlights the biological mediation of internal loading in shallow eutrophic lakes, and in particular, the role of sediment algae in decreasing, and sediment bacteria in enhancing, sediment P release.
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