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基于参数最优地理探测器的福州市生境质量时空格局与驱动力分析

施智勇 谢慧黎 王圳峰 胡晓婷 王欣珂 谢香群 林弘 刘兴诏

施智勇,谢慧黎,王圳峰,等.基于参数最优地理探测器的福州市生境质量时空格局与驱动力分析[J].环境工程技术学报,2023,13(5):1921-1930 doi: 10.12153/j.issn.1674-991X.20230083
引用本文: 施智勇,谢慧黎,王圳峰,等.基于参数最优地理探测器的福州市生境质量时空格局与驱动力分析[J].环境工程技术学报,2023,13(5):1921-1930 doi: 10.12153/j.issn.1674-991X.20230083
SHI Z Y,XIE H L,WANG Z F,et al.Analysis of spatiotemporal heterogeneity of habitat quality and their driving factors based on optimal parameters-based geographic detector for Fuzhou City, China[J].Journal of Environmental Engineering Technology,2023,13(5):1921-1930 doi: 10.12153/j.issn.1674-991X.20230083
Citation: SHI Z Y,XIE H L,WANG Z F,et al.Analysis of spatiotemporal heterogeneity of habitat quality and their driving factors based on optimal parameters-based geographic detector for Fuzhou City, China[J].Journal of Environmental Engineering Technology,2023,13(5):1921-1930 doi: 10.12153/j.issn.1674-991X.20230083

基于参数最优地理探测器的福州市生境质量时空格局与驱动力分析

doi: 10.12153/j.issn.1674-991X.20230083
基金项目: 福建省科技创新项目资金(KY-090000-04-2021-012);国家自然科学基金项目(31800401)
详细信息
    作者简介:

    施智勇(1998—),男,硕士研究生,主要从事风景园林规划与设计,zyshi@fafu.edu.cn

    通讯作者:

    刘兴诏(1984—),男,副教授,博士,主要从事生态规划与区域发展研究,xzliu@fafu.edu.cn

  • 中图分类号: X826

Analysis of spatiotemporal heterogeneity of habitat quality and their driving factors based on optimal parameters-based geographic detector for Fuzhou City, China

  • 摘要:

    揭示生境质量的时空演变特征和影响因素可为区域可持续发展提供参考依据。基于2000年、2010年和2020年的土地利用数据,运用InVEST模型、土地利用转移矩阵和参数最优地理探测器等方法,综合分析福州市生境质量时空演变及其驱动因素。结果表明:福州市2000年、2010年和2020年生境质量指数分别为0.812、0.806和0.793,生境质量改善的面积小于生境质量退化的面积,福州主城区和东南沿海区域的生境状况亟须改善。3 km网格为本研究的最佳空间尺度,最佳数据离散化分类数为6,自然间断点法更能解释驱动因素的驱动程度。高程、坡度和夜间灯光是福州市生境质量空间分异的主要影响因素,坡度和夜间灯光的交互作用对生境质量变化的解释力最强。

     

  • 图  1  福州市行政区划及高程

    注:①—晋安区;②—鼓楼区;③—台江区;④—仓山区。

    Figure  1.  Districts and DEM of Fuzhou City

    图  2  2000—2020年福州市的生境质量分布

    Figure  2.  Habitat quality distribution of Fuzhou City from 2000 to 2020

    图  3  2000—2020年福州市生境质量变化的空间分布

    Figure  3.  Spatial distribution of changes in the habitat quality of Fuzhou City from 2000 to 2020

    图  4  3 km最佳空间离散化

    注:图中无数值的部分为未通过显著性检验。

    Figure  4.  3 km optimal spatial discretization

    图  5  因子交互探测结果

    Figure  5.  Results of interactive detection

    图  6  生境质量指数在各驱动因素上的分区统计数据

    Figure  6.  Statistical data of habitat quality in each driving factor

    表  1  福州市土地二级分类体系

    Table  1.   Two-level land classification system of Fuzhou City

    一级类型二级类型一级
    类型
    二级类型
    耕地水田、旱地水域河渠、湖泊、水库、
    滩涂、滩地
    林地有林地、灌木林、疏林地、
    其他林地
    建设
    用地
    城镇用地、农村居民点、其他建设用地
    草地高覆盖度草地、中覆盖度草地、低覆盖度草地未利用土地裸地、裸岩石质地
    下载: 导出CSV

    表  2  威胁因子的最大影响距离及其权重

    Table  2.   Threat factors and its maximum influence distance and weight

    威胁因子最大影响距离/km权重衰减类型
    水田80.7指数
    旱地80.5线性
    城镇用地101指数
    农村居民点50.7指数
    其他建设用地101指数
    下载: 导出CSV

    表  3  各土地利用类型的生境适宜度及其对威胁因子的敏感性

    Table  3.   Habitat suitability of each land use type and its sensitivity to threat factors

    一级地类二级地类生境适
    宜度
    水田旱地城镇
    用地
    农村居
    民点
    其他建设
    用地
    耕地水田0.40.30.30.50.40.1
    旱地0.60.30.30.50.40.1
    林地有林地10.80.80.950.850.6
    灌木林10.40.40.60.450.2
    疏林地10.90.910.90.65
    其他林地10.90.910.90.65
    草地髙覆盖度草地0.80.40.40.60.50.2
    中覆盖度草地0.70.450.450.650.550.25
    低覆盖度草地0.60.550.550.70.60.3
    水域河渠10.70.70.90.80.5
    湖泊10.70.70.90.80.5
    水库10.70.70.90.80.6
    滩涂0.60.80.80.90.80.55
    滩地0.60.750.750.90.80.55
    建设用地城镇用地000000
    农村居民点000000
    其他建设用地000000
    未利用土地裸地000000
    裸岩石质地000000
    下载: 导出CSV

    表  4  驱动因素栅格数据介绍

    Table  4.   Introduction to driver factor raster data

    维度因素分辨率/m数据来源
    自然环境高程(X1)30 www.gscloud.cn
    坡度(X2)30
    年均温度(X3)1 000data.cma.cn
    年均降水量(X4)1 000
    社会经济因素夜间灯光(X5)1 000www.resdc.cn
    人口数量(X6)100 www.worldpop.org
    GDP(X7)1 000www.resdc.cn
    区位条件因素与行政中心距离(X8)30 www.resdc.cn
    与一级道路距离(X9)30
    与二级道路距离(X10)30
    与三级道路距离(X11)30
    与四级道路距离(X12)30
    下载: 导出CSV

    表  5  2000—2020年福州市生境质量等级和面积统计

    Table  5.   Statistics of habitat quality grade and area of Fuzhou City from 2000 to 2020

    生境质量等级2000年2010年2020年
    面积/km2占比/%面积/km2占比/%面积/km2占比/%
    低[0,0.2)572.334.94740.746.39952.228.22
    较低[0.2,0.4)1612.2413.921493.4412.891417.1912.23
    中等[0.4,0.6)679.495.87622.375.37610.905.27
    较高[0.6,0.8)1486.7012.831457.0812.581445.3712.48
    高[0.8,1]7233.6762.447270.8062.777158.7561.80
    生境质量指数0.8120.8060.793
    下载: 导出CSV

    表  6  2000—2020年福州市生境质量等级变化

    Table  6.   Changes in the habitat quality grade of Fuzhou City from 2000 to 2020

    生境质量
    变化趋势
    2000—2010年2010—2020年2000—2020年
    面积/km2占比/%面积/km2占比/%面积/km2占比/%
    改善404.403.49359.133.10469.164.05
    稳定10663.6992.0510683.4592.2210359.6189.43
    退化516.344.46541.854.68755.666.52
    下载: 导出CSV

    表  7  驱动因素q和90%分位数的空间单元尺度效应比较

    Table  7.   Comparison of size effects of spatial units for q values and 90% quantile of driving factors

    驱动因素0.5 km1 km1.5 km2 km2.5 km3 km3.5 km4 km
    X10.4570.5160.5590.5790.5840.5990.5910.572
    X20.5220.5690.5930.6040.6050.6300.6010.603
    X30.2250.2540.2720.2770.2690.2790.2590.277
    X40.1030.1310.1530.1620.1820.1920.1900.212
    X50.3210.3760.4230.4470.4590.4860.4950.503
    X60.0860.1060.1200.1350.1420.1650.1720.184
    X70.1040.1220.1310.1410.1470.1600.1570.182
    X80.0740.0870.0920.0900.0760.0820.0820.082
    X90.1060.1240.1370.1420.1500.1500.1620.173
    X100.0800.0890.0960.0990.0910.0990.0960.094
    X110.0310.0350.0410.0370.0440.0600.0600.075
    X120.0370.0530.0700.0830.1200.1090.1130.144
    q的90%
    分位数
    0.4430.5020.5450.5660.5720.5880.5810.565
    下载: 导出CSV

    表  8  单因子探测结果

    Table  8.   Results of single factor detection

    因素q排序因素q排序
    X10.5992X70.1607
    X20.6301X80.08211
    X30.2794X90.1508
    X40.1925X100.09910
    X50.4863X110.06012
    X60.1656X120.1099
    下载: 导出CSV
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出版历程
  • 收稿日期:  2023-02-07
  • 录用日期:  2023-05-12
  • 修回日期:  2023-03-25
  • 网络出版日期:  2023-06-28

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