Seasonal variability of phytoplankton community response to thermal discharge from nuclear power plant in temperate coastal area

Environ Pollut. 2023 Feb 1:318:120898. doi: 10.1016/j.envpol.2022.120898. Epub 2022 Dec 17.

Abstract

Nuclear power plants (NPPs) developed rapidly worldwide in the last half-century and have become one of the most important electric power sources. Thermal discharge from NPPs increases the temperature of receiving waters, directly and indirectly affecting phytoplankton community. Seasonal and interannual variation in environmental factors in temperate areas makes it challenging to determine the effects of thermal effluents from NPPs on coastal phytoplankton. Here, a five-year study was performed around a NPP in the western Yellow Sea to determine how thermal effluents affect phytoplankton community during different seasons. A total of 106 phytoplankton species from 7 phyla were identified in 10 biological sites during the 19 cruises, among which diatoms dominated phytoplankton abundance in all seasons. Our results show that increased seawater temperature caused by thermal effluents (1) was not enough to cause a statistically significant effect on phytoplankton abundance composition from autumn through spring, (2) significantly stimulated phytoplankton population growth and changed phytoplankton composition in summer (3) increased the proportion of diatoms and decreased the proportion of dinoflagellate in summer, and (4) increased the abundance and dominance of Skeletonema costatum sensu lato, especially in summer. The findings of this study provide essential information on the ecological impact of thermal effluents from NPPs in temperate coastal areas.

Keywords: Community structure; Nuclear power plant; Phytoplankton; Seasonal variation; Thermal discharge.

MeSH terms

  • China
  • Diatoms*
  • Nuclear Power Plants
  • Phytoplankton*
  • Seasons

Substances

  • N-(3-pyridyl)-3-phenylsuccinimide