Dynamic Spatiotemporal Evolution of Ecological Environment in the Yellow River Basin in 2000–2024 and the Driving Mechanisms

Wang, Yinan; Yuan, Lu; Zhou, Yanli; Qin, Xiangchao

Dynamic Spatiotemporal Evolution of Ecological Environment in the Yellow River Basin in 2000–2024 and the Driving Mechanisms

Yinan Wang, Lu Yuan (), Yanli Zhou and Xiangchao Qin
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Yinan Wang: Key Laboratory of Water and Soil Conservation on the Loess Plateau of MWR, Yellow River Institute of Hydraulic Research, Zhengzhou 450003, China
Lu Yuan: Eco-Environmental Monitoring and Scientific Research Center, Yellow River Basin Ecology and Environment Administration, Zhengzhou 450004, China
Yanli Zhou: Eco-Environmental Monitoring and Scientific Research Center, Yellow River Basin Ecology and Environment Administration, Zhengzhou 450004, China
Xiangchao Qin: Eco-Environmental Monitoring and Scientific Research Center, Yellow River Basin Ecology and Environment Administration, Zhengzhou 450004, China

Land, 2025, vol. 14, issue 10, 1-29

Abstract: The Yellow River Basin (YRB), a pivotal ecoregion in China, has long been plagued by a range of ecological problems, including water loss, soil erosion, and ecological degradation. Despite previous reports on the ecological environment of YRB, systematic studies on the multi-factor driving mechanism and the coupling between the ecological and hydrological systems remain scarce. In this study, with multi-source remote-sensing imagery and measured hydrological data, the random forest (RF) model and the geographical detector (GD) technique were employed to quantify the dynamic spatiotemporal changes in the ecological environment of YRB in 2000–2024 and identify the driving factors. The variables analyzed in this study included gross primary productivity (GPP), fractional vegetation cover (FVC), land use and cover change (LUCC), meteorological statistics, as well as runoff and sediment data measured at hydrological stations in YRB. The main findings are as follows: first, the GPP and FVC increased significantly by 37.9% and 18.0%, respectively, in YRB in 2000–2024; second, LUCC was the strongest driver of spatiotemporal changes in the ecological environment of YRB; third, precipitation and runoff contributed positively to vegetation growth, whereas the sediment played a contrary role, and the response of ecological variables to the hydrological processes exhibited a time lag of 1–2 years. This study is expected to provide scientific insights into ecological conservation and water resources management in YRB, and offer a decision-making basis for the design of sustainability policies and eco-restoration initiatives.

Keywords: gross primary productivity; vegetation cover; Yellow River Basin; spatiotemporal variation; driving factor (search for similar items in EconPapers)
JEL-codes: Q15 Q2 Q24 Q28 Q5 R14 R52 (search for similar items in EconPapers)
Date: 2025
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