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Spatial heterogeneity and environmental drivers of drought vulnerability in the Yangtze River Basin

Yuting Yang, Yunfei Feng, Xie He, Meng Li

2025Ecological Indicators8 citationsDOIOpen Access PDF

Abstract

• Assessed drought vulnerability in the Yangtze Basin under the IPCC risk framework. • Resilience dominates over exposure and sensitivity in shaping vulnerability patterns. • Key drivers (e.g., altitude, biodiversity) show non-linear effects and ecological thresholds. • Promoting ecosystem resilience is vital for long-term drought risk reduction strategies. Drought-induced ecological vulnerability is intensifying under global climate change, threatening ecosystem stability and function. Using the Yangtze River Basin (YRB) as a case study, we constructed a Drought Vulnerability Index integrating exposure, sensitivity, and resilience—three core dimensions defined in the IPCC framework. Exposure was represented by drought severity and duration, while sensitivity and resilience were derived from autoregressive modeling of vegetation dynamics using vegetation and climate data from 2001 to 2023. We employed XGBoost with SHAP analysis to disentangle the drivers of spatial heterogeneity. Results reveal strong spatial contrasts: the central-northern YRB shows the highest vulnerability due to concurrent high exposure and sensitivity with low resilience, whereas the western highlands exhibit comparatively low vulnerability despite high exposure, supported by stronger resilience. Quantitative analysis confirms resilience as the dominant determinant of vulnerability, with over 65 % of vegetated pixels showing a significant negative correlation (R < –0.8, p < 0.05) between resilience and vulnerability. Among environmental drivers, altitude, precipitation, and species richness exerted the greatest influence, often with non-linear or threshold effects. Notably, altitude displayed a U-shaped relationship, with both lowlands and highlands being more vulnerable. These findings highlight the central role of resilience in modulating drought vulnerability and provide a robust indicator-based framework for assessing ecological risk and guiding resilience-oriented adaptation strategies under climate extremes.

Topics & Concepts

Vulnerability (computing)Environmental scienceSpatial heterogeneityEcosystemVegetation (pathology)GeographySpecies richnessEcologyPsychological resilienceClimate changeVulnerability assessmentResilience (materials science)Adaptive capacityEnvironmental resource managementStructural basinSpatial variabilityVulnerability indexSpatial analysisDrainage basinPhysical geographyAltitude (triangle)Land coverSpatial ecologyWater resource managementLand useHydrology and Drought AnalysisClimate change impacts on agricultureClimate variability and models