基于气候和土地利用变化的云南省水源涵养功能时空演变及驱动力分析
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昆明理工大学

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滇中城市群“三生空间”多尺度耦合及多目标协同优化研究


Temporal and spatial evolution and driving force analysis of water conservation function in Yunnan Province based on climate and land use change.
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1.College of Land and Resources Engineering,Kunming University of Science and Technology;2.Science and Technology Innovation Team of Spatial Information Integration and Application of Natural Resources in Universities of Yunnan Province

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    摘要:

    水源涵养功能作为最重要的生态系统服务功能之一,对区域的生态可持续性具有重要影响。本文以云南省为例,结合系统动力学模型、斑块级土地利用变化模拟模型(PLUS模型)和InVEST模型,构建了未来气候和土地利用变化影响下水源涵养评价框架。该框架可在未来气候变化和不同经济发展的背景下预测土地利用变化和评估水源涵养。基于3种共享社会经济路径和典型浓度路径(SSP1-19、SSP2-45、SSP5-85)的耦合情景对云南省水源涵养进行评价。并利用最优参数地理探测器识别云南省水源涵养时空变化的主要驱动因子。结果表明:(1)2000-2030年,耕地、未利用地面积整体减少,水域和建设用地面积逐渐增加,林地和草地呈波浪线变化;不同情景的土地利用变化趋势大致相同,即:草地>建设用地>耕地>未利用地>水域>林地。(2)2000-2020年水源涵养量总体上呈现逐渐减少趋势,减少了2.27×109m3;受不同气候和土地利用模式的影响,不同情景下的水源涵养量有所差异,其中SSP245情景下的水源涵养量最高,为9.338×109m3;空间上呈“西南高东北低”的分布格局。(3)地理探测结果表明,年均降水量、土壤类型、DEM是影响水源涵养时空分布差异的主要驱动因素,且降水量与其他因素交互显著增强。本研究根据云南省水源涵养时空分异提出不同建议,为云南省生态系统服务研究和可持续发展路线规划提供科学参考。

    Abstract:

    As one of the most important ecosystem service functions, water conservation plays an important role in regional ecological sustainability. Taking Yunnan Province as an example, this paper combined the system dynamics model, patch-level land use change simulation model (PLUS model), and InVEST model to build a water conservation evaluation framework under the impact of future climate and land use change. The framework can predict land use change and assess water conservation in the context of future climate change and different economic developments. Water conservation in Yunnan Province was evaluated based on the coupling scenarios of three shared socioeconomic paths and typical concentration paths (SSP1-19, SSP2-45, SSP5-85). The main driving factors of temporal and spatial changes in water conservation in Yunnan Province were identified by using the optimal parameter geodetector. The results showed that: (1) From 2000 to 2030, the total area of cultivated land and unused land decreased, the area of water area and construction land increased gradually, and the forest land and grassland changed in a wavy line; The trend of land use change in different scenarios is roughly the same, namely: grassland > construction land > cultivated land > unused land > water area > forest land. (2) From 2000 to 2020, water conservation showed a gradually decreasing trend, decreasing by 2.27×109m3; Under the influence of different climate and land use models, the water conservation under different scenarios is different, and the water conservation under the SSP245 scenario is the highest, which is 9.338×109m3. The spatial distribution pattern is "high in the southwest and low in the northeast". (3) The results of geographical detection show that the average annual precipitation, soil type, and DEM are the main driving factors affecting the spatiotemporal distribution difference of water conservation, and the interaction between precipitation and other factors is significantly enhanced. According to the temporal and spatial differences in water conservation in Yunnan Province, different suggestions were put forward in this study to provide scientific reference for ecosystem service research and sustainable development route planning in Yunnan Province.

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  • 收稿日期:2024-06-03
  • 最后修改日期:2024-06-23
  • 录用日期:2024-07-19
  • 在线发布日期: 2024-09-18
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