Research
Title: | Microcystin pollution in lakes and reservoirs: A nationwide meta-analysis and assessment in China |
---|---|
First author: | Wei, Huimin; Jia, Yunlu; Wang, Zhi |
Journal: | ENVIRONMENTAL POLLUTION |
Years: | 2022 |
DOI: | 10.1016/j.envpol.2022.119791 |
Abstract: | The frequent occurrence of microcystins (MCs) has caused a series of water security issues worldwide. Although MC pollution in natural waters of China has been reported, a systematic analysis of the risk of MCs in Chinese lakes and reservoirs is still lacking. In this study, the distribution, trend, and risk of MCs in Chinese lakes and reservoirs were comprehensively revealed through meta-analysis for the first time. The results showed that MC pollution occurrence in numerous lakes and reservoirs have been reported, with MC pollution being distributed in the waters of 15 provinces in China. For lakes, the maximum mean total MC (TMC) and dissolved MC (DMC) concentrations occurred in Lake Dianchi (23.06 mu g/L) and Lake Taihu (1.00 mu g/L), respectively. For reservoirs, the maximum mean TMC and DMC concentrations were detected in Guanting (4.31 mu g/L) and Yanghe reservoirs (0.98 mu g/L), respectively. The TMC concentrations in lakes were significantly higher than those in the reservoirs (p < 0.05), but no difference was observed in the DMC between the two water bodies (p > 0.05). Correlation analysis showed that the total phosphorus concentrations, pH, transparency, chlorophyll a, and dissolved oxygen were significantly related to the DMC in lakes and reservoirs. The ecological risks of DMC in Chinese lakes and reservoirs were generally at low levels, but high or moderate ecological risks of TMC had occurred in several waters, which were not negligible. Direct drinking water and consumption of aquatic products in several MC -polluted lakes and reservoirs may pose human health risks. This study systematically analyzed the pollution and risk of MCs in lakes and reservoirs nationwide in China and pointed out the need for further MC research and management in waters. |