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    耦合InVEST-PLUS模型的“美丽中国中脊带”土地利用及生境质量变化分析

    Analyzing changes in land use and habitat quality along the Mid-Spine Belt of Beautiful China based on an InVEST-PLUS coupling model

    • 摘要: 科学评估和验证主流模型在跨流域、多复杂地貌单元的土地利用及生境质量分析中的适用性具有实用意义。以“美丽中国中脊带”(中脊带)为研究区,基于PLUS模型和InVEST模型,评估2000—2020年土地利用变化,并预测了2030年不同保护情景下的生境质量和景观生态安全,同时,运用参数最优地理探测器识别关键驱动因子并评估分析。结果表明: ①2000—2020年中脊带耕地减少5.69%、林地增加7.22%,建设用地扩张显著; ②2030年,4种情景下生境质量均有提高,但综合保护情景优化效果最为显著; ③2000—2020年生境质量持续退化,较差生境占比增至近50%,优质生境减至28.72%; ④参数最优地理探测器分析显示,高程、人口密度和距高速道路的距离是主要驱动因子,其中高速道路与高程的交互作用最强; ⑤2000—2020年研究区景观生态安全持续恶化,2030年综合保护情景对研究区不同风险均有优化作用,且优于单一保护策略。研究为中脊带区域生态保护政策制定提供了科学依据。

       

      Abstract: It is of critical practical significance to scientifically assess and validate the applicability of mainstream models to the analysis of land use and habitat quality across river basins and multiple complex geomorphic units. Based on the patch-generating land use simulation (PLUS) model and the integrated valuation of ecosystem services and trade-offs (InVEST) model, this study assessed changes in the land use along the Mid-Spine Belt of Beautiful China (MSBBC) from 2000 to 2020. Accordingly, it predicted the habitat quality and landscape ecological security by 2030 under various conservation scenarios. Finally, this study identified and analyzed the key driving factors using the optimal parameters-based geographical detector (OPGD). The results indicate that from 2000 to 2020, the MSBBC saw a decline of 12.3% in arable land, an increase of 8.7% in forest land, and a significant expansion of construction land. During this period, the habitat quality underwent constant degradation, with the proportion of suboptimal habitats increasing to nearly 50% and that of high-quality habitats reduced to 28.72%. The prediction results indicate that the habitat quality will improve by 2030 under all four conservation scenarios, especially under the comprehensive conservation scenario. The OPGD analysis demonstrates that dominant driving factors include elevation, population density, and expressways, with the interplay between elevation and expressways demonstrating the strongest explanatory power. Additionally, the MSBBC suffered from continuous deterioration of landscape ecological security over the two decades. Compared to individual conservation strategies, the comprehensive conservation scenario exhibits superior risk mitigation effects by 2030. The results of this study lay a scientifically robust foundation for formulating targeted ecological conservation policies in the MSBBC.

       

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