Evaluation of vegetation-wetland-soil ecological water retention capacity in the source region of the Yangtze and Yellow rivers (SRYY)

Watershed Ecology and the Environment Pub Date : 2025-01-01 DOI:10.1016/j.wsee.2025.05.005

Zhiyi Li , Lingyan Dong , Liang Xu , Li Wang , Zhe Yuan

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Abstract

Ecological Regulation and Storage (ERS), a crucial natural regulatory mechanism in river basins, is vital in assessing watershed resilience and guiding water resource management. This study establishes a novel tripartite framework (vegetation-wetland-soil) to quantify ERS dynamics in the ecologically fragile Source Region of the Yangtze and Yellow Rivers (SRYY). Integrating multi-source hydrological data (2000–2020) with improved modeling approaches, including a modified SCS-CN method incorporating organic matter dynamics and NDVI-driven vegetation modules, we reveal three key insights: (1) Total ERS exhibited a distinct V-shaped trajectory during 2000–2020, underscoring the system’s resilience and recovery potential; (2) Wetland regulation dominated temporal fluctuations, followed by soil regulation, while canopy interception and litter retention functioned as stabilizing components; (3) Vegetation regulation displayed pronounced seasonal variability, with a robust positive correlation between canopy interception and litter retention (r = 0.94, p = 0.019), revealing synergistic hydrological coordination within the vegetation layer.

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长江黄河源区植被-湿地-土壤生态保水能力评价

生态调节与蓄水（ERS）是一种重要的流域自然调节机制，在评价流域恢复力和指导水资源管理方面具有重要意义。本研究建立了植被-湿地-土壤三方框架来量化长江黄河生态脆弱源区ERS动态。综合多源水文数据（2000-2020年）和改进的建模方法，包括改进的SCS-CN方法，包括有机质动力学和ndvi驱动的植被模块，我们发现了三个关键见解：(1)2000-2020年期间，总ERS呈现出明显的v型轨迹，强调了系统的弹性和恢复潜力；(2)湿地调控主导时间波动，土壤调控次之，冠层截留和凋落物滞留是稳定因子；(3)植被调节表现出明显的季节变异性，冠层截留与凋落物滞留呈显著正相关（r = 0.94, p = 0.019），揭示了植被层内部的协同水文协调作用。

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来源期刊

Watershed Ecology and the Environment

CiteScore

3.00

自引率

0.00%

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