Impervious surface area, due to its high energy storage and low permeability, hinders the cycles of material and energy between soil and atmosphere, thus affecting the sustainable supply of ecosystem services. It is of great practical significance to explore the influence of impervious surface areas on ecosystem services for territorial spatial planning and ecological construction projects. Correlation analysis and decoupling are used to explore the spatiotemporal variation and interaction between impervious surface areas and six ecosystem services in Hangzhou Bay from 1996 to 2018. The results show that different abundance levels of impervious surface areas are negatively correlated with ecosystem services, and with the increase of the impervious surface areas, the correlation coefficients with ecosystem services gradually decrease; there are mostly weak decoupling (79.2%) and strong decoupling (11.9%) between impervious surface areas and ecosystem services from 2007 to 2018, and the central areas that have achieved urbanization are mostly dominated by strong and weak decoupling, while the peripheral areas of the central cities are dominated by expansive recoupling and expansive connection. These results indicate that the loss of ecosystem services can be mitigated with the continuous advancement of urbanization and the enhancement of land use intensification. Finally, based on the aforementioned results, differentiated control suggestions are proposed, in order to provide insights for the sustainability of the urbanization of Hangzhou Bay and other cities with similar characteristics around the world.
Keywords: Decoupling; Differentiated management suggestions; Ecosystem services; Impervious surface areas; Spatiotemporal analysis; Urbanization.
© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.