New insights into phosphorus mobilisation from sulphur-rich sediments: time-dependent effects of salinisation

New insights into phosphorus mobilisation from sulphur-rich sediments: time-dependent effects of salinisation

Internal phosphorus (P) mobilisation from aquatic sediments is an important process adding to eutrophication problems in wetlands. Salinisation, a fast growing global problem, is thought to affect P behaviour. Although several studies have addressed the effects of salinisation, interactions between...

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Bibliographic Details
Published in:PloS one Vol. 9; no. 11; p. e111106
Main Authors: van Diggelen, Josepha M H, Lamers, Leon P M, van Dijk, Gijs, Schaafsma, Maarten J, Roelofs, Jan G M, Smolders, Alfons J P
Format: Journal Article
Language:English
Published: United States Public Library of Science 04-11-2014
Public Library of Science (PLoS)
Subjects:
Analysis
Aquatic ecology
Automation
Availability
Bacteria
Binding sites
Biodiversity
Biogeochemistry
Biology
Calcium
Calcium - analysis
Calcium content
Chromatography, Gas
Earth Sciences
Ecology and Environmental Sciences
Eutrophic environments
Eutrophic waters
Eutrophication
Fresh Water - chemistry
Geologic Sediments - chemistry
Iron
Mud-water interfaces
Nutrient cycles
Oxidation
Oxygen
Peatlands
Phosphorus
Phosphorus - analysis
Phosphorus - metabolism
Pore water
Precipitation
Salinity
Salinity effects
Salinization
Sediment-water interface
Sediments
Sediments (Geology)
Sodium - analysis
Sulfate reduction
Sulfur
Sulfur - analysis
Sulfur compounds
Surface water
Surface water quality
Time dependence
Time Factors
Water Pollutants, Chemical - chemistry
Water quality
Water resources
Wetlands
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Summary:Internal phosphorus (P) mobilisation from aquatic sediments is an important process adding to eutrophication problems in wetlands. Salinisation, a fast growing global problem, is thought to affect P behaviour. Although several studies have addressed the effects of salinisation, interactions between salinity changes and nutrient cycling in freshwater systems are not fully understood. To tackle eutrophication, a clear understanding of the interacting effects of sediment characteristics and surface water quality is vital. In the present study, P release from two eutrophic sediments, both characterized by high pore water P and very low pore water iron (Fe(2+)) concentrations, was studied in a long-term aquarium experiment, using three salinity levels. Sediment P release was expected to be mainly driven by diffusion, due to the eutrophic conditions and low iron availability. Unexpectedly, this only seemed to be the driving mechanism in the short term (0-10 weeks). In the long term (>80 weeks), P mobilisation was absent in most treatments. This can most likely be explained by the oxidation of the sediment-water interface where Fe(2+) immobilises P, even though it is commonly assumed that free Fe(2+) concentrations need to be higher for this. Therefore, a controlling mechanism is suggested in which the partial oxidation of iron-sulphides in the sediment plays a key role, releasing extra Fe(2+) at the sediment-water interface. Although salinisation was shown to lower short-term P mobilisation as a result of increased calcium concentrations, it may increase long-term P mobilisation by the interactions between sulphate reduction and oxygen availability. Our study showed time-dependent responses of sediment P mobilisation in relation to salinity, suggesting that sulphur plays an important role in the release of P from FeSx-rich sediments, its biogeochemical effect depending on the availability of Fe(2+) and O2.
Bibliography:Conceived and designed the experiments: JMHVD AJPS LPML. Performed the experiments: JMHVD MJS. Analyzed the data: JMHVD AJPS LPML MJS. Contributed reagents/materials/analysis tools: JMHVD AJPS LPML JGMR. Wrote the paper: JMHVD AJPS LPML JGMR GVD.
Competing Interests: The authors have declared that no competing interests exist.
Current address: Royal Haskoning DHV, Nijmegen, The Netherlands
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0111106