Abstract:
The ecological risk of a
Microcystis bloom was evaluated on the basis of the ecotoxicological risk assessment method. The effects of
Microcystis bloom on benthic fauna, zooplankton, fish, and submerged macrophytes were assessed by using acute and chronic exposures experiments and the findings reported by previous studies. The algal cell densities were calculated by using toxicity percentile rank (TPR) method, and aquatic ecological risk assessment for
Microcystis bloom was performed by using risk quotient approach. The criteria required for acute and chronic ecological risk assessment of
Microcystis bloom were defined based on the algal cell density, algal bloom coverage in lake, as well as duration of algae blooms. The acute ecological risk was classified as low-, moderate-, and high-levels. A
Microcystis bloom with cell density less than 3.4×10
6 cells/L was defined as low risk-level, with cell density at the range of 3.4×10
6—3.4×10
7 cells/L was denoted as moderate-risk level, and with cell density higher than 3.4×10
7 cells/L was defined as high-risk level. Similarly, chronic ecological risk of
Microcystis bloom was also classified as low-, moderate-, and high-levels of risk. The
Microcystis bloom with cell density less than 1.1×10
6 cells/L was classified as low risk, cell density between 1.1×10
6—1.1×10
7 cells/L was classified as moderate risk, and the cell density greater than 1.1×10
7 cells/L was classified as high risk. In practical applications, cell density, algal bloom coverage, and duration of algal blooms are essential factors to formulate a robust ecological risk assessment strategy for
Microcystis bloom in Erhai Lake. In presence of moderate-risk level, early warning of
Microcystis bloom should be alarmed, and improvement of water quality or implementation of biological control should be carried out. Under the high risk level, emergent removal or control of algal bloom should be undertaken as well.