Decomposition and phosphorus release from four di erent size fractions ofMicrocystis spp. taken from Lake Taihu, China
WANG Yuanyuan , CHEN Feizhou
DOI:
Received September 11, 2007,Revised November 21, 2007, Accepted , Available online
Volume 20,2008,Pages 891-896
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Decomposition of Microcystis is accompanied by the release of phosphorus, during bacteria play an important role. A series of
experiments were undertaken to evaluate the e ect of bacteria on the decomposition of Microcystis taken from Lake Taihu, China, a
lake that is su ering from dense Microcystis blooms. The 16 experiments involved four size fractions of colonial Microcystis with or
without the addition of lake sediment and Gram-negative bacterial inhibitor NaN3. The highest decomposition rates were recorded for
the smallest size Microcystis fraction (< 25 m) with the addition of the sediment. The lowest decomposition rates were recorded for
the smallest Microcystis fraction without the sediment, but with the addition of Gram-negative bacterial inhibitor NaN3. The higher
decomposition rates in the treatments with NaN3 and sediment suggest that Gram-positive bacteria in the sediment are important
for the decomposition process. Additionally, higher concentrations of total dissolved phosphorus (TDP) in the treatments with NaN3
suggest that more phosphorus accumulates in the Gram-negative bacterial cells around the colony, which may be an important source
of phosphorus for Microcystis cells. In the no-sediment treatments, the ratios of TDP concentration to initial TP concentration were
64%–82%. The results of this experiment suggest that both Gram-negative and Gram-positive bacteria play an important role in the
decomposition of Microcystis cells and the release of phosphorus from Microcystis colonies.
