Temperature and cyanobacterial bloom biomass influence phosphorous cycling in eutrophic lake sediments

Cyanobacterial blooms frequently occur in freshwater lakes, subsequently, substantial amounts of decaying cyanobacterial bloom biomass (CBB) settles onto the lake sediments where anaerobic mineralization reactions prevail. Coupled Fe/S cycling processes can influence the mobilization of phosphorus (...

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Bibliographic Details
Published in:PloS one 2014-03, Vol.9 (3), p.e93130
Main Authors: Chen, Mo, Ye, Tian-Ran, Krumholz, Lee R, Jiang, He-Long
Format: Article
Language:English
Subjects:
Anaerobic processes
Aquatic environment
Bioavailability
Biogeochemistry
Biology and Life Sciences
Biomass
Climate change
Cyanobacteria - growth & development
Cycles
Decomposition
Earth Sciences
Ecology and Environmental Sciences
Ecosystems
Engineering and Technology
Environmental Monitoring - methods
Eutrophic lakes
Eutrophication
Eutrophication - physiology
Fresh Water - analysis
Fresh Water - chemistry
Fresh Water - microbiology
Freshwater lakes
Geologic Sediments - analysis
Geologic Sediments - chemistry
Geologic Sediments - microbiology
Incubation
Iron
Iron sulfides
Laboratories
Lake sediments
Lakes
Lakes - analysis
Lakes - chemistry
Lakes - microbiology
Limnology
Microorganisms
Mineralization
Nitrogen
Organic phosphorus
Oxidation
Phosphates
Phosphates - chemistry
Phosphorus
Phosphorus - chemistry
Physical Sciences
Pools
Reduction
Science
Sediments
Sulfate reduction
Sulfates
Sulfur
Sulfur - chemistry
Sulfur oxidation
Temperature
Temperature effects
Water Pollutants, Chemical - chemistry
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Summary:Cyanobacterial blooms frequently occur in freshwater lakes, subsequently, substantial amounts of decaying cyanobacterial bloom biomass (CBB) settles onto the lake sediments where anaerobic mineralization reactions prevail. Coupled Fe/S cycling processes can influence the mobilization of phosphorus (P) in sediments, with high releases often resulting in eutrophication. To better understand eutrophication in Lake Taihu (PRC), we investigated the effects of CBB and temperature on phosphorus cycling in lake sediments. Results indicated that added CBB not only enhanced sedimentary iron reduction, but also resulted in a change from net sulfur oxidation to sulfate reduction, which jointly resulted in a spike of soluble Fe(II) and the formation of FeS/FeS2. Phosphate release was also enhanced with CBB amendment along with increases in reduced sulfur. Further release of phosphate was associated with increases in incubation temperature. In addition, CBB amendment resulted in a shift in P from the Fe-adsorbed P and the relatively unreactive Residual-P pools to the more reactive Al-adsorbed P, Ca-bound P and organic-P pools. Phosphorus cycling rates increased on addition of CBB and were higher at elevated temperatures, resulting in increased phosphorus release from sediments. These findings suggest that settling of CBB into sediments will likely increase the extent of eutrophication in aquatic environments and these processes will be magnified at higher temperatures.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0093130