Ecological Indicators (Nov 2023)
Assessment of urban ecosystem condition and ecosystem services in Shenzhen based on the MAES analysis framework
Abstract
Rapid urbanization has led to a reduction in the capacity of urban ecosystems to provide essential services. Understanding the interplay between urban ecosystem condition (EC), ecosystem service (ES) capacity and environmental stress is important for achieving sustainable economic and social development. Taking Shenzhen, a representative region of rapid urbanization in China, as an example, this study analyzed the evolution of urban EC and spatial and temporal patterns of key ESs from 2000 to 2020. With reference to the Mapping and Assessment of Ecosystems and their Services (MAES) framework and its indicators, the analysis process used the InVEST model and empirical statistical methods. The spatial and temporal geographically weighted regression (GTWR) model was used to determine how the ESs responded to EC. The results demonstrated a tendency of increased environmental stress and degraded EC in the urban ecosystem during the study period. The supply of ESs was on the decline, with runoff retention and microclimate regulation showing significant declines, while noise reduction showed an upward tendency. ESs had an overall “east-high-west-low” spatial pattern. In terms of response relationships, the regulating and cultural services were mainly negatively correlated with PM10 concentration, temperature, and the percentage of construction land and positively correlated with vegetation cover. There was spatial and temporal heterogeneity in the mechanism of EC influence on specific services. The percentage of construction land was the key negative influencing factor, indicating that urban expansion exacerbates the decrease in the supply of ESs. The results of the study also provided evidence that the MAES analysis framework can accurately analyze environmental problems in urban ecosystems and offer a practical solution for urban ecosystem assessments. For the sustainable development of urban ecosystems, it is advised that the ES concept be included as a key decision factor in the development of urban planning policies.