Coupling coordination analysis of production, living, and ecological spaces in wetlands: A case study of Xianghai Wetland nature reserve, China

With the global alterations in ecological conditions and population growth, the study of production-living-ecological space (PLES) offers a new perspective in balancing land resource utilization with the sustainable development of society, economy, and environment. China has incorporated the optimization of PLES into its sustainable development strategy. However, research concerning the PLES functions within wetland ecosystems remains notably sparse. Wetlands, distinguished by their unique ecosystem, command a special place in the realm of production, living and ecology research. Their importance is multifaceted, stemming from their roles in ecology, economy, and socio-cultural dimensions, and further accentuated by their distinct geographical, climatic, and biodiversity attributes. In light of this, the Xianghai Wetland Nature Reserve in Jilin, China, was chosen as the focal point of this study to probe into the coupling coordination degree of its PLES functions. The study commenced with a thorough analysis of the changes in land use types from 2000 to 2020 using a land use transition matrix model. Following this, a customized land use function assessment framework called LUF-PLE was formulated, offering a quantitative assessment of the Xianghai wetland’s production, living, and ecological space functions and shedding light on their spatiotemporal dynamics. Finally, a coupling coordination degree model (CCDM) was employed to elucidate the evolution of the PLES functions of Xianghai wetlands. Key findings revealed that: (1) the Xianghai wetland’s PLES coupling coordination degree exhibited a pattern of decline, stabilizing post-2010, with the most pronounced dip observed between 2000–2010; (2) the coordination between production and living functions was notably subdued, whereas the coordination between production and ecological functions saw the steepest decline. In the future, a sustainable wetland development strategy should be formulated and implemented based on the observed trends in coupling coordination and the spatiotemporal differentiation of production-liveling-ecological functions in the local context. This research furnishes scientific substantiation and serves as a reference for the sustainable stewardship and preservation of wetlands.