Short-term response mechanisms of water quantity and quality in Daihai Lake under temperature-driven changes

环境科学 质量(理念) 水质 水文学(农业) 水平衡 水资源管理 环境工程 计算机科学 水污染 生态学
作者
张好 Hao ZHANG,Xiaohong Shi,Xianhua Li,Junping Lu,Ruizhong Gao,Xixi Wang,Shuhao Zhang,Longmei Xie,Yu LIU
出处
期刊:Ecological Indicators [Elsevier BV]
卷期号:188: 115006-115006
标识
DOI:10.1016/j.ecolind.2026.115006
摘要

Temperature-driven mechanisms involving complex feedback and lag that affect the evolution of hydrological processes and ecological functions in cold- and arid-region lakes represent a core scientific issue in current hydrology and lake ecology research. In this study, based on month-scale temperature and environmental factor data from Daihai Lake in Inner Mongolia from January to December 2023, statistical methods (redundancy analysis, Tukey's test analysis, correlation analysis, structural equation modeling), time series analysis methods (dynamic time warping), and machine learning methods (random forest) were combined. A hierarchical and phased response framework was constructed that encompassed driver identification, path tracing, lag characterization, and contribution quantification. The framework was used to explore the short-term response mechanisms of environmental factors to temperature, analyze the response degrees of different environmental factors to temperature changes, and investigate the driving mechanism of temperature fluctuations on lake environmental factors. The results showed that the temperature (T), lake area (Z), wind speed (WS), and precipitation (P) explained 31.35%, 23.38%, 15.35%, and 22.09% of the variations in the water environmental factors, respectively ( p < 0.05), with temperature being the primary driver of Daihai's water environment changes.

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