Differential responses of ecosystem stability to climatic and anthropogenic factors in connected and isolated lake basins on the Yangtze River

• Published in: Journal of environmental management Vol. 359; p. 121014
• Main Authors: Huang, Ying, Chen, Xin-sheng, Zhu, Lianlian
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.05.2024
• Subjects: China; Climate; Climate change; Ecosystem; Ecosystem stability; Environmental Monitoring; Human disturbance; Lakes; River-connected basin; River-disconnected basin; Rivers - chemistry; China; River-disconnected basin; Climate change; Human disturbance; River-connected basin; Ecosystem stability
• ISSN: 0301-4797; 1095-8630
• DOI: 10.1016/j.jenvman.2024.121014

Maintaining optimal ecological security in the Yangtze River-connected and isolated lake basins is of great significance to national projects involving Yangtze River protection. Ecosystem stability and associated factors are important components of ecological security in these basins. However, few studies have focused on ecosystem stability and its driving factors over long periods in the Yangtze River Basin. In this study, a remote sensing index was used to analyze the spatiotemporal variation in the ecosystem stability of the Dongting Lake Basin (DTL), Poyang Lake Basin (PYL), and the isolated Chaohu Lake Basin (CHL) and Taihu Lake Basin (THL) in the Yangtze River over the period 2000–2022 to determine the potential affecting factors. The results showed fluctuations in the ecosystem stability of the DTL and PYL, while a V-shape was observed for the CHL and THL during the same period; the closer to the lake, the weaker the stability of the ecosystem, especially in the DTL and PYL. Moreover, the ecosystem stability was greater in the DTL and PYL than in the CHL and THL. The spillover effect of anthropogenic activities on the ecosystem stability of the four basins and the direct effect of temperature have the greatest effect on the ecosystem stability. Specifically, the ecosystem stability index for the area around the DTL and PYL decreased with increasing human interference, whereas the opposite was observed in the CHL and THL. The effect of temperature was negative for the ecosystem stability of DTL and PYL and significantly positive for CHL and THL, at a level of 0.01 %. The findings of this study provide significant information for targeted ecological restoration of the Yangtze River Basin. •The ecosystem stability in the river-connected basins was better.•The closer to the lake area, the weaker the stability of the ecosystem.•Human activity has the greatest spillover effect on ecosystem stability.•Temperature has the greatest direct effect on ecosystem stability.