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Extreme drought-heatwave events threaten the biodiversity and stability of aquatic plankton communities in the Yangtze River ecosystems

Jixuan Lyu, Yong Shi, Tao Liu, Xiaomei Xu, Shengjing Liu, Guang Yang, Dong Peng, Yubing Qu, Shuo Zhang, Chonghao Chen, Yanxu Zhang, Jianhua Gao

2025Communications Earth & Environment23 citationsDOIOpen Access PDF

Abstract

Rivers are crucial to biogeochemical cycles, connecting terrestrial, oceanic, and atmospheric systems. However, their ecosystems are increasingly threatened by extreme weather events. Here we used the environmental DNA approach to assess the impact of extreme drought-heatwave events on the aquatic plankton communities of the Yangtze River. We showed that an extreme drought-heatwave event reduced the α diversity of communities, increased their β diversity, and simultaneously simplified and destabilized community network structure. This event also shifted the dominant algae taxa from Bacillariophyta to Cyanobacteria, accompanied by increases in organic carbon and labile organic carbon contents. Globally, temperature rises during this extreme drought-heatwave event are more pronounced in high-latitude regions, likely amplifying impacts on river ecosystem biodiversity and stability. Our findings highlight the vulnerability of river ecosystems to extreme events and underscore the need to mitigate climate change’s effects on river ecosystems. Extreme drought-heatwave events reduce alpha diversity, increase beta diversity, and disrupt the community network structure of aquatic plankton in the Yangtze River, according to an analysis using the environmental DNA approach.

Topics & Concepts

BiodiversityYangtze riverPlanktonEcosystemEnvironmental scienceAquatic ecosystemEcologyGeographyChinaBiologyArchaeologyFish Ecology and Management StudiesAquatic Ecosystems and Phytoplankton DynamicsIsotope Analysis in Ecology
Extreme drought-heatwave events threaten the biodiversity and stability of aquatic plankton communities in the Yangtze River ecosystems | Litcius