Litcius/Paper detail

Nonlinear Water–Heat Thresholds, Human Amplification, and Adaptive Governance of Grassland Degradation Under Climate Change

Denghui Xu, Jiani Li, Caifang Xu, Tongsheng Fan, Yao Wang, Zhonglin Xu

2026Remote Sensing5 citationsDOIOpen Access PDF

Abstract

Dryland grasslands face elevated risks of rapid threshold crossing under a regime of warming, precipitation redistribution, and intensified interannual hydrothermal variability. Using the Ebinur Lake Basin (ELB) as a case, we developed an integrated structure × function assessment—linking land-use/cover change (LUCC) transitions with functional indicators of net primary productivity (NPP), net ecosystem production (NEP), soil conservation (SC), and grass supply (GS)—and coupled it with Bayesian-optimized XGBoost, SHAP, and partial dependence plots (PDPs) at a 30 m pixel scale to identify dominant drivers and ecological thresholds, subsequently translating them into governance zones. From 2003 to 2023, overall grassland status was dominated by degradation (20,160.62 km2; 69.42%), with restoration at 8878.85 km2 (30.57%) and stability at 2.79 km2 (0.01%). NPP/NEP followed a rise–decline–recovery trajectory, while SC exhibited marked bipolarity. Precipitation and temperature emerged as primary drivers (interaction X3 × X4 = 0.0621), whose effects, together with topography and accessibility, shaped a spatial paradigm of piedmont sensitive–oasis sluggish–lakeshore vulnerable. Key thresholds included an annual precipitation recovery threshold of ~200 mm and an optimal window of 272–429 mm; a road-density divide near ~0.06 km km−2; and sustainable grazing windows of ~2.2–4.2 and ~4.65–5.61 livestock units (LU) km−2. These thresholds underpinned four management units—Priority Control (52.53%), Monitoring and Alert (21.53%), Natural Recovery (20.40%), and Optimized Maintenance (5.55%)—organized within a “two belts–four zones–one axis” spatial framework, closing the loop from threshold detection to adaptive governance. The approach provides a replicable paradigm for climate-adaptive management and ecological risk mitigation of dryland grasslands under warming.

Topics & Concepts

Environmental sciencePrimary productionPrecipitationClimate changeGrasslandAdaptive managementEcosystemGrassland degradationEnvironmental resource managementLand degradationRestoration ecologyAdaptabilityDisturbance (geology)Ecosystem managementProductivityEcological stabilityPhysical geographyClosing (real estate)Temporal scalesEcologyAgroforestryHydrology (agriculture)Ecological successionStructural basinGlobal changeRemote Sensing in AgricultureLand Use and Ecosystem ServicesEcosystem dynamics and resilience