Forecasting and Evaluation of Ecosystem Services Supply-Demand Under SSP-RCP Scenarios in the Henan Segment of the Yellow River Basin, China DOI Creative Commons
Chaokun Wang,

Yujie Chang,

Binbin Guo

et al.

Remote Sensing, Journal Year: 2025, Volume and Issue: 17(6), P. 1067 - 1067

Published: March 18, 2025

Equilibrating the supply and demand for ecosystem services (ESs) is essential sustainable development. Nonetheless, elements like policy modifications, land utilization, climate change are profoundly transforming dynamics of service (ESSD). As a result, there an imperative necessity to methodically evaluate predict these alterations by including both social environmental elements. This study utilized Henan region Yellow River Basin (HYRB) as case forecast in three ESs—water production (WY), carbon storage (CS), food (FP)—under scenarios 2030 2050, grounded SSP-RCP framework. We further evaluated supply–demand equilibrium at grid county degrees. The results indicate following key findings: (1) From 2020 significant spatial differences services. While CS FP exceeds demand, WY falls short. (2) ratios projected decline under all scenarios, whereas expected continue growing. Surplus areas aggregated northwest, southwest, central areas, while surpluses found eastern northern plains. Deficits primarily located urban areas. (3) dominant patterns matching also vary. exhibit high–low agglomeration patterns, particularly northwest southwest mountain regions, shows low–low agglomeration, mainly These findings enhance comprehension ESSD, serving foundation preservation advancement Basin, China.

Language: Английский

Forecasting and Evaluation of Ecosystem Services Supply-Demand Under SSP-RCP Scenarios in the Henan Segment of the Yellow River Basin, China DOI Creative Commons
Chaokun Wang,

Yujie Chang,

Binbin Guo

et al.

Remote Sensing, Journal Year: 2025, Volume and Issue: 17(6), P. 1067 - 1067

Published: March 18, 2025

Equilibrating the supply and demand for ecosystem services (ESs) is essential sustainable development. Nonetheless, elements like policy modifications, land utilization, climate change are profoundly transforming dynamics of service (ESSD). As a result, there an imperative necessity to methodically evaluate predict these alterations by including both social environmental elements. This study utilized Henan region Yellow River Basin (HYRB) as case forecast in three ESs—water production (WY), carbon storage (CS), food (FP)—under scenarios 2030 2050, grounded SSP-RCP framework. We further evaluated supply–demand equilibrium at grid county degrees. The results indicate following key findings: (1) From 2020 significant spatial differences services. While CS FP exceeds demand, WY falls short. (2) ratios projected decline under all scenarios, whereas expected continue growing. Surplus areas aggregated northwest, southwest, central areas, while surpluses found eastern northern plains. Deficits primarily located urban areas. (3) dominant patterns matching also vary. exhibit high–low agglomeration patterns, particularly northwest southwest mountain regions, shows low–low agglomeration, mainly These findings enhance comprehension ESSD, serving foundation preservation advancement Basin, China.

Language: Английский

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