A framework of Economic-Social-Natural sustainability evaluation based on multidimensional land-use ecological niche theory: Evidence in Shendong CEBs, China

Abstract

Coal-electricity base cities (CEBs) are coal-based electric energy centralized and sustained production and output cities built following China’s strategic energy layout, in regions with abundant coal resources, and by the integrated coal-electricity production model. However, CEBs are mainly located in the ecologically fragile area, and coal mining activities and anthropogenic pressures caused a series of land ecological effects such as dramatic land resources change, the alleviation of land supply and demand conflict, and land damage surrounding mining area. Currently, there is not enough research on land use in CEBs, and less attention has been paid to variation ecological system response. Aiming at this problem, the research constructed a modeling framework for evaluating the spatial and temporal evolution of land use characteristics and ecological response of CEBs land use from the perspective of “Economic-Social-Natural” by adopting methods of land transfer matrix, cluster analysis, ecological niche theory, and center of gravity model. Shendong mining area was accordingly chosen as the research region to explore the multidimensional land use dynamic evolution by bringing into the evaluating framework. Therefore, the Shendong area was accordingly chosen as the research region, and land is used as the spatial carrier to explore the evaluation effect of the model framework. The result showed that grassland played a considerable role in the procedure of land transformation with the greatest utilization degree, followed by cultivated land and used land. For ecological niche, mining land and water area dominated the core economic niche, mining land, and construction land occupied the social niche, mining land controlled mostly natural niche and comprehensive niche value. In terms of ecologically integrated and comprehensive quantitative evaluation response, the production functional area, living functional area, and ecological functional area of CEBs were also quantitatively depicted and evaluated. Ecological management should focus on the downtown area of Shenmu and optimize land use patterns by increasing vegetation cover. This study combines different types of indicators to derive regional differences in ecological niches, providing an assessment method for decision makers and stakeholders to optimize land use structure and improve the ecological benefits of CEBs.