Abstract
Climatic, socio-economic, geophysical, and human activity factors, among others, influence land use patterns. However, these driving factors also have different relationships with each other. Combining machine learning methods and statistical models is a good way to simulate the dominant land use types. The Luan River basin is located in a farming-pastoral transitional zone and is an important ecological barrier between Beijing and Tianjin. In this study, we predicted future land use and land cover changes from 2010 to 2020 in the Luan River’s upper and middle reaches under three scenarios—the natural scenario, the ecological scenario, and the sustainable scenario. The results indicate that cultivated land will decrease while the forested areas will increase quantitatively in the future. Built-up areas would increase quickly in the natural scenario, and augmented expansion of forest would be the main features of land use changes in both the ecological scenario and the sustainable scenario. Regarding the spatial pattern, different land use patterns will be aggregated and patches will become larger. Our findings for the scenario analysis of land use changes can provide a reference case for sustainable land use planning and management in the upper and middle Luan River basin.
Highlights
Land has dramatic effects on human life
Cultivated land will decrease while the forest areas will increase, and water area will remain stable under all three scenarios tested in this study
Built-up areas will increase quickly in the natural scenario, forest expansion and accumulation will be the main features of land use changes in the ecological scenario and both features appear in the sustainable scenario
Summary
Land has dramatic effects on human life. It has immense versatility and it can supply raw materials that are indispensable for human survival including food [1], water, and energy. It serves other functions such as providing living spaces, transportation, recreation, and so forth, giving land use its multi-functional attributes [2]. Optimizing the allocation of land resources is an important method to maintain land sustainability, promote the rapid development of regional economies, and gradually harmonize the environment with human activities [11]. Scenarios are increasingly being used in environmental change assessment as a means of exploring uncertainties about the consequence of human actions on the environment [12]
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