Abstract
Land cover changes are the main factors driving the evolution of regional ecological quality. These changes must be considered in the strategic formulation of regional or national ecological policies. The forest-steppe ecotone in the Greater Khingan Mountains is an important ecological barrier in northern China. To measure the effect of ecological protection in recent years, Landsat images, object-oriented image segmentation, and convolutional neural networks were used to create land cover datasets of the forest-steppe ecotone. The Carnegie–Ames–Stanford approach (CASA) and the dimidiate pixel model were used to derive net primary productivity (NPP) and fractional vegetation cover (FVC) to assess the ecological quality of this area. The results showed that only grassland and urban land increased, whereas saline–alkali land and desert areas initially increased and then decreased from 2010 to 2018, indicating that the desertification process was substantially curbed. Total NPP increased by 26.3% (2000–2010) and 10.8% (2010–2018). However, NPP decreased slightly in the center of the study area. FVC first decreased and then increased, and the increased areas were concentrated in the forest-steppe ecotone, saline–alkali land, and desert zone in Xin Barag Left Banner. These observations indicate that the ecological quality has gradually improved due to the strict protection of forest and grassland resources and the suppression of desertification. Our results provide potential insights for land use planning and the development of environmental protection measures in the forest-steppe ecotone.
Highlights
Land use/cover change (LUCC) is the main research direction of land change science and landscape ecology [1,2,3,4]
The results showed that the forest-steppe ecotone exhibited serious ecological degradation from 2000 to 2010
The results showed that local control measures were relatively successful, and the ecological policies showed a positive effect from 2010 to 2018
Summary
Land use/cover change (LUCC) is the main research direction of land change science and landscape ecology [1,2,3,4]. It is of great significance to protect land resources and improve the ecological environment [5]. Contemporary human activities are causing profound impacts on terrestrial ecosystems and landscape patterns, primarily by altering land use purposes, which reflects the manner and extent of human influence on the natural. Due to population growth and economic booms, the irrational exploitation of natural resources has become a primary cause contributing to environmental deterioration in both intensity and extent, including habitat loss and the degradation of ecosystem functions [7]. A quantitative assessment of ecological quality in an effective and timely manner helps identify the current regional status of sustainable development to enable the implementation of countermeasures to protect the eco-environment [8]. Land cover change in China is more complex. Due to accelerated economic development, the urbanization rate in China has increased from 17.9%
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