Spatiotemporal differentiation and the coupling analysis of ecosystem service value with land use change in Hubei Province, China

Abstract

Rapid urbanization has exacerbated land use transformation, which in turn has affected ecosystem service value (ESV). Clarifying the spatial association between land use change (LUC) and ESV is of relevance to the development of policies for sustainable land development and ecosystem service (ES) management. In this paper, taking Hubei Province as an example, the biomass coefficient, resource scarcity coefficient and socioeconomic adjustment coefficient are introduced to improve the ESV assessment model, and then the spatiotemporal dynamics of land use and ESV from 2000 to 2020 are analyzed. Furthermore, the coupling coordination degree (CCD) between land use intensity and ESV was explored through a CCD model. The results show that (1) land use in Hubei Province changed significantly from 2000 to 2020, mainly in cropland and built-up land. (2) The change in ESV showed a fluctuating upward trend, with an increase of 71.30%, and the spatial differences generally decreased, showing a spatial pattern of “low in the center and high in the surroundings”. (3) All individual ESVs first decreased and then increased, with regulating services and supporting services contributing more to ESV and hydrological regulation, maintenance of biodiversity and soil conservation being the top three ecosystem functions with high service value. (4) The CCD between ESV and land use intensity in Hubei Province and its cities (prefecture and forest area) decreased and then increased, being at the lowest and highest values in 2005 and 2020, respectively. This paper revealed the spatiotemporal evolution process of LUC and ESV in Hubei Province and their coupling coordinated relationship, which can provide effective guidance for the formulation of interzonal ES maintenance policies to reconcile the conflicts between land use and ecosystem management.