基于改进遥感生态指数的玉溪市东部生态质量评价
English
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参考文献
[1] 辛俊会. 中国特色社会主义生态文明建设的现实思考. 甘肃农业, 2022(4): 76-78. doi: 10.3969/j.issn.1673-9019.2022.04.026 XIN J H. Realistic thinking on the construction of socialist ecological civilization with Chinese characteristics. Gansu Agriculture, 2022(4): 76-78. doi: 10.3969/j.issn.1673-9019.2022.04.026
[2] 张学玲, 余文波, 蔡海生, 郭晓敏. 区域生态环境脆弱性评价方法研究综述. 生态学报, 2018, 38(16): 5970-5981. ZHANG X L, YU W B, CAI H S, GUO X M. Review of the evaluation methods of regional eco-environmental vulnerability. Acta Ecologica Sinica, 2018, 38(16): 5970-5981.
[3] 杨磊, 单姝瑶, 桑晨, 刘越, 徐浩杰. 祁连山国家公园生态环境质量综合评价及演变特征分析. 草业科学, 2022, 39(2): 278-289. doi: 10.11829/j.issn.1001-0629.2021-0392 YANG L, SHAN S Y, SANG C, LIU Y, XU H J. Comprehensive evaluation and evolutionary characteristics of eco-environment quality in Qilian Mountain National Park. Pratacultural Science, 2022, 39(2): 278-289. doi: 10.11829/j.issn.1001-0629.2021-0392
[4] 左璐, 孙雷刚, 徐全洪, 刘剑锋, 李晓婧, 鲁军景. 区域生态环境评价研究综述. 云南大学学报(自然科学版), 2021, 43(4): 806-817. ZUO L, SUN L G, XU Q H, LIU J F, LI X J, LU J J. A review of the studies on regional ecological environment evaluation. Journal of Yunnan University (Natural Sciences Edition), 2021, 43(4): 806-817.
[5] SOLARIN S A. An environmental impact assessment of fossil fuel subsidies in emerging and developing economies. Environmental Impact Assessment Review, 2020, 85: 106443. doi: 10.1016/j.eiar.2020.106443
[6] CORSI I, BERGAMI E, GRASSI G. Behavior and bio-interactions of anthropogenic particles in marine environment for a more realistic ecological risk assessment. Frontiers in Environmental Science, 2020, 8: 60. doi: 10.3389/fenvs.2020.00060
[7] NITANAN K M, AHMAD S, SRIDAR R, SYAMSUL H M A. Total economic value of ecosystem services in Malaysia: A review. Journal of Sustainability Science and Management, 2019, 14(5): 148-163.
[8] 李一蒙, 马建华, 刘德新, 孙艳丽, 陈彦芳. 开封城市土壤重金属污染及潜在生态风险评价. 环境科学, 2015, 36(3): 1037-1044. LI Y M, MA J H, LIU D X, SUN Y L, CHEN Y F. Assessment of heavy metal pollution and potential ecological risks of urban soils in Kaifeng City, China. Environmental Science, 2015, 36(3): 1037-1044.
[9] 谭少军, 邵景安. 基于生态适宜性评价的西南丘陵区土地整治工程布局研究. 地理研究, 2018, 37(4): 659-677. TAN S J, SHAO J A. Land consolidation project layout based on ecological suitability evaluation in hilly areas of Southwest China. Geographical Research, 2018, 37(4): 659-677.
[10] 何晓瑶. 基于生态承载力的河套地区农业生态环境可持续发展评价. 中国农业资源与区划, 2020, 41(6): 130-137. HE X Y. Assessment sustainable development of the agroecological environment in terms of ecological carrying capacity in the Hetao area. Chinese Journal of Agricultural Resources and Regional Planning, 2020, 41(6): 130-137.
[11] 叶达, 吴克宁, 刘霈珈. 半干旱区农业开发土地资源生态安全评价: 以宁夏孙家滩国家农业科技园区为例. 环境科学学报, 2016, 36(3): 1099-1105. YE D, WU K N, LIU P J. Ecological security evaluation of land resources based on agricultural development in semi-arid areas. Acta Scientiae Circumstantiae, 2016, 36(3): 1099-1105.
[12] 左其亭, 杨振龙, 曹宏斌, 马军霞. 基于SMI-P方法的黄河流域水生态安全评价与分析. 河南师范大学学报(自然科学版), 2022, 50(3): 10-19, 165. doi: 10.16366/j.cnki.1000-2367.2022.03.002 ZUO Q T, YANG Z L, CAO H B, MA J X. Evaluation and analysis of water ecological security in the Yellow River basin based on SMI-P method. Journal of Henan Normal University (Natural Science Edition), 2022, 50(3): 10-19, 165. doi: 10.16366/j.cnki.1000-2367.2022.03.002
[13] 张松滨, 王风翔. 灰色模糊聚类分析与环境质量评价. 化工环保, 1992, 12(3): 170-172. ZHANG S B, WANG F X, The fuzzy classification of grey and the environmental quality evaluation. Environmental Protection of Chemical Industry, 1992, 12(3): 170-172.
[14] 刘丽颖, 官冬杰, 杨清伟, 苏维词. 基于人工神经网络的喀斯特地区水资源安全评价. 水土保持通报, 2017, 37(2): 207-214. doi: 10.13961/j.cnki.stbctb.2017.02.032 LIU L Y, GUAN D J, YANG Q W, SU W C. Assessment of water resources security in Karst area based on artificial neural network. Bulletin of Soil and Water Conservation, 2017, 37(2): 207-214. doi: 10.13961/j.cnki.stbctb.2017.02.032
[15] 徐涵秋, 邓文慧. MRSEI指数的合理性分析及其与RSEI指数的区别. 遥感技术与应用, 2022, 37(1): 1-7. XU H Q, DENG W H. Rationality analysis of MRSEI and its difference with RSEI. Remote Sensing Technology and Application, 2022, 37(1): 1-7.
[16] 聂菊芬. 污染源磷对星云湖水质富营养化的影响研究. 环境科学与管理, 2022, 47(2): 83-87. doi: 10.3969/j.issn.1673-1212.2022.02.021 NIE J F. Study on influence of pollution source phosphorus on eutrophication of Xingyun Lake. Environmental Science and Management, 2022, 47(2): 83-87. doi: 10.3969/j.issn.1673-1212.2022.02.021
[17] 田湘云, 张超, 陈棋, 史小蓉, 王妍. 云南省岩溶地区土地利用对石漠化景观格局演变的影响分析. 林业资源管理, 2022(1): 61-69. doi: 10.13466/j.cnki.lyzygl.2022.01.008 TIAN X Y, ZHANG C, CHEN Q, SHI X R, WANG Y. Influence of land use on landscape pattern evolution of rocky desertification in Karst areas of Yunnan. China. Forest Resources Management, 2022(1): 61-69. doi: 10.13466/j.cnki.lyzygl.2022.01.008
[18] 陈炳绅, 朱艳艳. 玉溪市水土流失重点防治区划分及防治对策. 中国水土保持, 2022(2): 26-29. doi: 10.3969/j.issn.1000-0941.2022.02.011 CHEN B S, ZHU Y Y. Division and control countermeasures of key prevention and control areas of soil and water loss in Yuxi City. Soil and Water Conservation in China, 2022(2): 26-29. doi: 10.3969/j.issn.1000-0941.2022.02.011
[19] YANG J, HUANG X. The 30 m annual land cover dataset and its dynamics in China from 1990 to 2019. Earth System Science Data, 2021, 13(8): 3907-3925. doi: 10.5194/essd-13-3907-2021
[20] 徐涵秋. 城市遥感生态指数的创建及其应用. 生态学报, 2013, 33(24): 7853-7862. XU H Q. A remote sensing urban ecological index and its application. Acta Ecologica Sinica, 2013, 33(24): 7853-7862.
[21] 褚馨德, 贾伟, 张峻豪, 李净. 基于RSEI模型的祁连山自然保护区生态环境质量评价. 环境监测管理与技术, 2022, 34(1): 38-42. doi: 10.3969/j.issn.1006-2009.2022.01.008 CHU X D, JIA W, ZHANG J H, LI J. Ecological environment quality evaluation of Qilian Mountain nature reserve based on RSEI model. The Administration and Technique of Environmental Monitoring, 2022, 34(1): 38-42. doi: 10.3969/j.issn.1006-2009.2022.01.008
[22] 丁圆圆, 赵健赟, 杨静, 赵沁浩, 王祖顺, 赵利江. 黄河源永曲河流域地表温度与土地覆盖的时空变化特征分析. 科学技术与工程, 2022, 22(7): 2592-2600. doi: 10.3969/j.issn.1671-1815.2022.07.005 DING Y Y, ZHAO J Y, YANG J, ZHAO Q H, WANG Z S, ZHAO L J. Analysis on the characteristics of temporal and spatial changes of surface temperature and land cover in Yongqu River basin at the source of the Yellow River. Science Technology and Engineering, 2022, 22(7): 2592-2600. doi: 10.3969/j.issn.1671-1815.2022.07.005
[23] 刘林甫, 盛艳, 秦富仓, 李龙, 李艳. 基于RSEI模型的砒砂岩区生态环境质量演变研究. 水土保持通报, 2022, 42(1): 233-239, 334. doi: 10.3969/j.issn.1000-288X.2022.1.stbctb202201031 LIU L F, SHENG Y, QIN F C, LI L, LI Y. Evolution of ecological environmental quality in feldspathic sandstone area based on RSEI model. Bulletin of Soil and Water Conservation, 2022, 42(1): 233-239, 334. doi: 10.3969/j.issn.1000-288X.2022.1.stbctb202201031
[24] RENARD K G, FOSTER G R, WEESIES G A, MCCOOL D K, YODER D C. Predicting soil erosion by water: A guide to conservation planning with the Revised Universal Soil Loss Equation (RUSLE). Agricultural Handbook, 1997(1): 703.
[25] 赵青, 黄菲, 陈晓辉, 林玉英, 邱荣祖, 巫志龙, 胡喜生. 乔木林丧失的时空变化及驱动力分析. 南京林业大学学报(自然科学版), 2022, 46(2): 227-235. ZHAO Q, HUANG F, CHEN X H, LIN Y Y, QIU R Z, WU Z L, HU X S. Spatiotemporal variations and a driving force analysis of arbor forest loss. Journal of Nanjing Forestry University (Natural Sciences Edition), 2022, 46(2): 227-235.
[26] 蔡博峰, 于嵘. 基于遥感的植被长时序趋势特征研究进展及评价. 遥感学报, 2009, 13(6): 1170-1186. doi: 10.11834/jrs.20090614 CAI B F, YU R. Advance and evaluation in the long time series vegetation trends research based on remote sensing. Journal of Remote Sensing, 2009, 13(6): 1170-1186. doi: 10.11834/jrs.20090614
[27] MANDELBROT B B, WALLIS J R. Robustness of the rescaled range R/S in the measurement of noncyclic long run statistical dependence. Water Resources Research, 1969, 5(5): 967-988. doi: 10.1029/WR005i005p00967
[28] 巩杰, 高秉丽, 李焱, 靳甜甜, 张云霞, 朱月华. 1960-2020年黄河流域气候干湿状况时空分异及变化趋势. 中国农业气象, 2022, 43(3): 165-176. GONG J. GAO B L, LI Y, JIN T T, ZHANG Y X, ZHU Y H. Spatial-temporal variability of climate dry-wet condition and its potential trend in the Yellow River Basin from 1960 to 2020. Chinese Journal of Agrometeorology, 2022, 43(3): 165-176.
[29] 钟欣呈, 许泉立. 基于RSEI模型的玉溪市生态环境变化监测与评价. 水土保持研究, 2021, 28(4): 350-357. doi: 10.13869/j.cnki.rswc.20201218.001 ZHONG X C, XU Q L. Monitoring and evaluation of ecological environment changes in Yuxi City based on RSEI model. Research of Soil and Water Conservation, 2021, 28(4): 350-357. doi: 10.13869/j.cnki.rswc.20201218.001
[30] 农兰萍, 王金亮, 玉院和. 基于改进型遥感生态指数(MRSEI)模型的滇中地区生态环境质量研究. 生态与农村环境学报, 2021, 37(8): 972-982. doi: 10.19741/j.issn.1673-4831.2020.0821 NONG L P, WANG J L, YU Y H. Research on ecological environment quality in central Yunnan based on MRSEI model. Journal of Ecology and Rural Environment, 2021, 37(8): 972-982. doi: 10.19741/j.issn.1673-4831.2020.0821
[31] 尹娟, 资本飞, 阳利永, 陈婧祎. 抚仙湖流域生态用地时空演变及其驱动因素. 水土保持通报, 2020, 40(6): 228-235, 331. doi: 10.13961/j.cnki.stbctb.2020.06.033 YIN J, ZI B F, YANG L Y, CHEN J Y. Spatial-temporal evolution and driving factors of ecological land use in Fuxian Lake Basin. Bulletin of Soil and Water Conservation, 2020, 40(6): 228-235, 331. doi: 10.13961/j.cnki.stbctb.2020.06.033
[32] 朱军, 李益敏, 余艳红. 基于GIS的高原湖泊流域生态安全格局构建及优化研究: 以星云湖流域为例. 长江流域资源与环境, 2017, 26(8): 1237-1250. doi: 10.11870/cjlyzyyhj201708014 ZHU J, LI Y M, YU Y H. Study of construction and optimization of ecological security pattern of lake basin in plateau based on GIS: A case study of Xingyun Lake Basin. Resources and Environment in the Yangtze Basin, 2017, 26(8): 1237-1250. doi: 10.11870/cjlyzyyhj201708014
[33] 朱泓, 王金亮, 程峰, 邓欢, 张恩伟, 李应鑫. 滇中湖泊流域生态环境质量监测与评价. 应用生态学报, 2020, 31(4): 1289-1297. doi: 10.13287/j.1001-9332.202004.011 ZHU H, WANG J L. CHENG F, DENG H, ZHANG E W, LI Y X. Monitoring and evaluation of eco-environmental quality of lake basin regions in Central Yunnan Province, China. Chinese Journal of Applied Ecology, 2020, 31(4): 1289-1297. doi: 10.13287/j.1001-9332.202004.011
[34] 孙雨露, 李正升, 李虹, 娄阳. 基于PSR模型的玉溪市生态安全评价. 四川职业技术学院学报, 2017, 27(5): 34-40. doi: 10.3969/j.issn.1672-2094.2017.05.009 SUN Y L, LI Z S, LI H, LOU Y. Ecological security evaluation of Yuxi City based on PSR model. Journal of Sichuan Vocational and Technical College, 2017, 27(5): 34-40. doi: 10.3969/j.issn.1672-2094.2017.05.009
[35] 邢春兰. 玉溪市营造林的自然保护与生态修复. 绿色科技, 2020(21): 149-150. doi: 10.3969/j.issn.1674-9944.2020.21.060 XING C L. Nature conservation and ecological restoration of Yuxi’s created forests. Journal of Green Science and Technology, 2020(21): 149-150. doi: 10.3969/j.issn.1674-9944.2020.21.060
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图 1 玉溪市东部2003-2019年生态质量分布图
Figure 1. Ecological quality distribution map of the eastern part of Yuxi City in 2003 to 2019
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图 2 2003-2019年玉溪市东部各等级标准差椭圆分布图(a)和多年变化趋势分布图(b)
Figure 2. Elliptical distribution of standard deviation of each grade for the eastern part of Yuxi City, 2003 to 2019 (a) and multi-year trend distribution (b)
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图 3 Hurst指数结果图(a)和变化持续性分布图(b)
Figure 3. Hurst index results (a) and persistence of change distribution (b)
表 1 玉溪市东部IRSEI各指标第1主成分结果
Table 1 Results of the primary component of each IRSEI index in the eastern part of Yuxi City
指标
Index年份 Year 2003 2007 2011 2015 2019 绿度指标 Greenness index 0.19 0.24 0.21 0.13 0.03 湿度指标 Wet Index 0.06 0.23 0.31 0.02 0.14 热度指标 Heat index −0.23 −0.13 −0.21 −0.10 −0.33 干度指标 Dryness index −0.12 −0.25 −0.01 −0.31 −0.25 土壤侵蚀指标 Soil erosion index −0.05 −0.15 −0.12 −0.19 0.00 特征值 Eigenvalue 0.11 0.21 0.20 0.16 0.19 特征值贡献率 Eigenvalue contribution rate/% 51.85 72.38 71.00 67.76 67.93 累计贡献率 Cumulative contribution rate/% 51.85 72.38 71.00 67.76 67.93 
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表 2 2003-2019年玉溪市东部各年生态质量等级区域面积
Table 2 Ecological quality class area of the eastern part of Yuxi City by year, 2003 to 2019
hm2 生态质量等级
Ecological quality grade年份 Year 2003 2007 2011 2015 2019 差 Bad 2 079.99 25 427.70 16 947.00 17 348.94 9 936.63 较差 Poor 40 681.17 59 122.35 51 846.57 57 525.03 48 924.54 中等 Fair 124 094.25 102 673.44 97 203.78 107 680.68 99 408.60 良好 Good 117 518.76 88 359.03 107 006.76 103 721.58 103 711.32 优 Excellent 40 629.06 49 420.71 51 999.12 38 727.00 63 022.14
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表 3 2003-2019年玉溪市东部生态质量等级区域面积转移矩阵
Table 3 Area transfer matrix of the eastern ecological quality class area of Yuxi City, 2003 to 2019
hm2 年份
Year生态质量等级
Ecological quality grade2019年 2019 year 差 Bad 较差 Poor 中等 Fair 良好 Good 优 Excellent 总计 Total 2003 差 Bad 741.51 830.07 409.59 88.11 10.71 2 079.99 较差 Poor 4 828.77 16 600.14 14 663.16 4 049.37 539.73 40 681.17 中等 Fair 3 125.97 23 659.83 53 454.33 37 510.47 6 343.65 124 094.25 良好 Good 1 011.96 6 356.88 24 826.68 50 514.39 34 808.85 117 518.76 优 Excellent 228.42 1 477.62 6 054.84 11 548.98 21 319.2 40 629.06 总计 Total 9 936.63 48 924.54 99 408.6 103 711.32 63 022.14 325 003.23
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表 4 标准差椭圆系数表
Table 4 Standard deviation elliptic coefficients
年份
YearX坐标
X-coordinateY坐标
Y-coordinateX轴
X-axis/kmY轴
Y-axis/km面积
Area/hm2旋转角
Rotation angle/°2003 102.87 24.34 18.88 35.06 207 921.84 18.54 2007 102.88 24.34 18.81 35.61 210 422.54 19.12 2011 102.87 24.34 18.81 35.51 209 899.67 19.30 2015 102.87 24.34 19.06 35.20 210 692.47 19.86 2019 102.88 24.34 19.01 35.26 210 587.77 19.48
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表 5 不同高程区间IRSEI均值变化
Table 5 Mean values of IRSEI variation in different elevation intervals
高程
Elevation/m年份 Year 2003 2007 2011 2015 2019 < 1 450 0.45 0.41 0.42 0.44 0.50 1 450~1 800 0.57 0.47 0.53 0.51 0.53 1 800~2 150 0.55 0.51 0.54 0.52 0.56 2 150~2 500 0.54 0.59 0.55 0.53 0.59 > 2 500 0.51 0.59 0.51 0.48 0.56
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[1] 辛俊会. 中国特色社会主义生态文明建设的现实思考. 甘肃农业, 2022(4): 76-78. doi: 10.3969/j.issn.1673-9019.2022.04.026 XIN J H. Realistic thinking on the construction of socialist ecological civilization with Chinese characteristics. Gansu Agriculture, 2022(4): 76-78. doi: 10.3969/j.issn.1673-9019.2022.04.026
[2] 张学玲, 余文波, 蔡海生, 郭晓敏. 区域生态环境脆弱性评价方法研究综述. 生态学报, 2018, 38(16): 5970-5981. ZHANG X L, YU W B, CAI H S, GUO X M. Review of the evaluation methods of regional eco-environmental vulnerability. Acta Ecologica Sinica, 2018, 38(16): 5970-5981.
[3] 杨磊, 单姝瑶, 桑晨, 刘越, 徐浩杰. 祁连山国家公园生态环境质量综合评价及演变特征分析. 草业科学, 2022, 39(2): 278-289. doi: 10.11829/j.issn.1001-0629.2021-0392 YANG L, SHAN S Y, SANG C, LIU Y, XU H J. Comprehensive evaluation and evolutionary characteristics of eco-environment quality in Qilian Mountain National Park. Pratacultural Science, 2022, 39(2): 278-289. doi: 10.11829/j.issn.1001-0629.2021-0392
[4] 左璐, 孙雷刚, 徐全洪, 刘剑锋, 李晓婧, 鲁军景. 区域生态环境评价研究综述. 云南大学学报(自然科学版), 2021, 43(4): 806-817. ZUO L, SUN L G, XU Q H, LIU J F, LI X J, LU J J. A review of the studies on regional ecological environment evaluation. Journal of Yunnan University (Natural Sciences Edition), 2021, 43(4): 806-817.
[5] SOLARIN S A. An environmental impact assessment of fossil fuel subsidies in emerging and developing economies. Environmental Impact Assessment Review, 2020, 85: 106443. doi: 10.1016/j.eiar.2020.106443
[6] CORSI I, BERGAMI E, GRASSI G. Behavior and bio-interactions of anthropogenic particles in marine environment for a more realistic ecological risk assessment. Frontiers in Environmental Science, 2020, 8: 60. doi: 10.3389/fenvs.2020.00060
[7] NITANAN K M, AHMAD S, SRIDAR R, SYAMSUL H M A. Total economic value of ecosystem services in Malaysia: A review. Journal of Sustainability Science and Management, 2019, 14(5): 148-163.
[8] 李一蒙, 马建华, 刘德新, 孙艳丽, 陈彦芳. 开封城市土壤重金属污染及潜在生态风险评价. 环境科学, 2015, 36(3): 1037-1044. LI Y M, MA J H, LIU D X, SUN Y L, CHEN Y F. Assessment of heavy metal pollution and potential ecological risks of urban soils in Kaifeng City, China. Environmental Science, 2015, 36(3): 1037-1044.
[9] 谭少军, 邵景安. 基于生态适宜性评价的西南丘陵区土地整治工程布局研究. 地理研究, 2018, 37(4): 659-677. TAN S J, SHAO J A. Land consolidation project layout based on ecological suitability evaluation in hilly areas of Southwest China. Geographical Research, 2018, 37(4): 659-677.
[10] 何晓瑶. 基于生态承载力的河套地区农业生态环境可持续发展评价. 中国农业资源与区划, 2020, 41(6): 130-137. HE X Y. Assessment sustainable development of the agroecological environment in terms of ecological carrying capacity in the Hetao area. Chinese Journal of Agricultural Resources and Regional Planning, 2020, 41(6): 130-137.
[11] 叶达, 吴克宁, 刘霈珈. 半干旱区农业开发土地资源生态安全评价: 以宁夏孙家滩国家农业科技园区为例. 环境科学学报, 2016, 36(3): 1099-1105. YE D, WU K N, LIU P J. Ecological security evaluation of land resources based on agricultural development in semi-arid areas. Acta Scientiae Circumstantiae, 2016, 36(3): 1099-1105.
[12] 左其亭, 杨振龙, 曹宏斌, 马军霞. 基于SMI-P方法的黄河流域水生态安全评价与分析. 河南师范大学学报(自然科学版), 2022, 50(3): 10-19, 165. doi: 10.16366/j.cnki.1000-2367.2022.03.002 ZUO Q T, YANG Z L, CAO H B, MA J X. Evaluation and analysis of water ecological security in the Yellow River basin based on SMI-P method. Journal of Henan Normal University (Natural Science Edition), 2022, 50(3): 10-19, 165. doi: 10.16366/j.cnki.1000-2367.2022.03.002
[13] 张松滨, 王风翔. 灰色模糊聚类分析与环境质量评价. 化工环保, 1992, 12(3): 170-172. ZHANG S B, WANG F X, The fuzzy classification of grey and the environmental quality evaluation. Environmental Protection of Chemical Industry, 1992, 12(3): 170-172.
[14] 刘丽颖, 官冬杰, 杨清伟, 苏维词. 基于人工神经网络的喀斯特地区水资源安全评价. 水土保持通报, 2017, 37(2): 207-214. doi: 10.13961/j.cnki.stbctb.2017.02.032 LIU L Y, GUAN D J, YANG Q W, SU W C. Assessment of water resources security in Karst area based on artificial neural network. Bulletin of Soil and Water Conservation, 2017, 37(2): 207-214. doi: 10.13961/j.cnki.stbctb.2017.02.032
[15] 徐涵秋, 邓文慧. MRSEI指数的合理性分析及其与RSEI指数的区别. 遥感技术与应用, 2022, 37(1): 1-7. XU H Q, DENG W H. Rationality analysis of MRSEI and its difference with RSEI. Remote Sensing Technology and Application, 2022, 37(1): 1-7.
[16] 聂菊芬. 污染源磷对星云湖水质富营养化的影响研究. 环境科学与管理, 2022, 47(2): 83-87. doi: 10.3969/j.issn.1673-1212.2022.02.021 NIE J F. Study on influence of pollution source phosphorus on eutrophication of Xingyun Lake. Environmental Science and Management, 2022, 47(2): 83-87. doi: 10.3969/j.issn.1673-1212.2022.02.021
[17] 田湘云, 张超, 陈棋, 史小蓉, 王妍. 云南省岩溶地区土地利用对石漠化景观格局演变的影响分析. 林业资源管理, 2022(1): 61-69. doi: 10.13466/j.cnki.lyzygl.2022.01.008 TIAN X Y, ZHANG C, CHEN Q, SHI X R, WANG Y. Influence of land use on landscape pattern evolution of rocky desertification in Karst areas of Yunnan. China. Forest Resources Management, 2022(1): 61-69. doi: 10.13466/j.cnki.lyzygl.2022.01.008
[18] 陈炳绅, 朱艳艳. 玉溪市水土流失重点防治区划分及防治对策. 中国水土保持, 2022(2): 26-29. doi: 10.3969/j.issn.1000-0941.2022.02.011 CHEN B S, ZHU Y Y. Division and control countermeasures of key prevention and control areas of soil and water loss in Yuxi City. Soil and Water Conservation in China, 2022(2): 26-29. doi: 10.3969/j.issn.1000-0941.2022.02.011
[19] YANG J, HUANG X. The 30 m annual land cover dataset and its dynamics in China from 1990 to 2019. Earth System Science Data, 2021, 13(8): 3907-3925. doi: 10.5194/essd-13-3907-2021
[20] 徐涵秋. 城市遥感生态指数的创建及其应用. 生态学报, 2013, 33(24): 7853-7862. XU H Q. A remote sensing urban ecological index and its application. Acta Ecologica Sinica, 2013, 33(24): 7853-7862.
[21] 褚馨德, 贾伟, 张峻豪, 李净. 基于RSEI模型的祁连山自然保护区生态环境质量评价. 环境监测管理与技术, 2022, 34(1): 38-42. doi: 10.3969/j.issn.1006-2009.2022.01.008 CHU X D, JIA W, ZHANG J H, LI J. Ecological environment quality evaluation of Qilian Mountain nature reserve based on RSEI model. The Administration and Technique of Environmental Monitoring, 2022, 34(1): 38-42. doi: 10.3969/j.issn.1006-2009.2022.01.008
[22] 丁圆圆, 赵健赟, 杨静, 赵沁浩, 王祖顺, 赵利江. 黄河源永曲河流域地表温度与土地覆盖的时空变化特征分析. 科学技术与工程, 2022, 22(7): 2592-2600. doi: 10.3969/j.issn.1671-1815.2022.07.005 DING Y Y, ZHAO J Y, YANG J, ZHAO Q H, WANG Z S, ZHAO L J. Analysis on the characteristics of temporal and spatial changes of surface temperature and land cover in Yongqu River basin at the source of the Yellow River. Science Technology and Engineering, 2022, 22(7): 2592-2600. doi: 10.3969/j.issn.1671-1815.2022.07.005
[23] 刘林甫, 盛艳, 秦富仓, 李龙, 李艳. 基于RSEI模型的砒砂岩区生态环境质量演变研究. 水土保持通报, 2022, 42(1): 233-239, 334. doi: 10.3969/j.issn.1000-288X.2022.1.stbctb202201031 LIU L F, SHENG Y, QIN F C, LI L, LI Y. Evolution of ecological environmental quality in feldspathic sandstone area based on RSEI model. Bulletin of Soil and Water Conservation, 2022, 42(1): 233-239, 334. doi: 10.3969/j.issn.1000-288X.2022.1.stbctb202201031
[24] RENARD K G, FOSTER G R, WEESIES G A, MCCOOL D K, YODER D C. Predicting soil erosion by water: A guide to conservation planning with the Revised Universal Soil Loss Equation (RUSLE). Agricultural Handbook, 1997(1): 703.
[25] 赵青, 黄菲, 陈晓辉, 林玉英, 邱荣祖, 巫志龙, 胡喜生. 乔木林丧失的时空变化及驱动力分析. 南京林业大学学报(自然科学版), 2022, 46(2): 227-235. ZHAO Q, HUANG F, CHEN X H, LIN Y Y, QIU R Z, WU Z L, HU X S. Spatiotemporal variations and a driving force analysis of arbor forest loss. Journal of Nanjing Forestry University (Natural Sciences Edition), 2022, 46(2): 227-235.
[26] 蔡博峰, 于嵘. 基于遥感的植被长时序趋势特征研究进展及评价. 遥感学报, 2009, 13(6): 1170-1186. doi: 10.11834/jrs.20090614 CAI B F, YU R. Advance and evaluation in the long time series vegetation trends research based on remote sensing. Journal of Remote Sensing, 2009, 13(6): 1170-1186. doi: 10.11834/jrs.20090614
[27] MANDELBROT B B, WALLIS J R. Robustness of the rescaled range R/S in the measurement of noncyclic long run statistical dependence. Water Resources Research, 1969, 5(5): 967-988. doi: 10.1029/WR005i005p00967
[28] 巩杰, 高秉丽, 李焱, 靳甜甜, 张云霞, 朱月华. 1960-2020年黄河流域气候干湿状况时空分异及变化趋势. 中国农业气象, 2022, 43(3): 165-176. GONG J. GAO B L, LI Y, JIN T T, ZHANG Y X, ZHU Y H. Spatial-temporal variability of climate dry-wet condition and its potential trend in the Yellow River Basin from 1960 to 2020. Chinese Journal of Agrometeorology, 2022, 43(3): 165-176.
[29] 钟欣呈, 许泉立. 基于RSEI模型的玉溪市生态环境变化监测与评价. 水土保持研究, 2021, 28(4): 350-357. doi: 10.13869/j.cnki.rswc.20201218.001 ZHONG X C, XU Q L. Monitoring and evaluation of ecological environment changes in Yuxi City based on RSEI model. Research of Soil and Water Conservation, 2021, 28(4): 350-357. doi: 10.13869/j.cnki.rswc.20201218.001
[30] 农兰萍, 王金亮, 玉院和. 基于改进型遥感生态指数(MRSEI)模型的滇中地区生态环境质量研究. 生态与农村环境学报, 2021, 37(8): 972-982. doi: 10.19741/j.issn.1673-4831.2020.0821 NONG L P, WANG J L, YU Y H. Research on ecological environment quality in central Yunnan based on MRSEI model. Journal of Ecology and Rural Environment, 2021, 37(8): 972-982. doi: 10.19741/j.issn.1673-4831.2020.0821
[31] 尹娟, 资本飞, 阳利永, 陈婧祎. 抚仙湖流域生态用地时空演变及其驱动因素. 水土保持通报, 2020, 40(6): 228-235, 331. doi: 10.13961/j.cnki.stbctb.2020.06.033 YIN J, ZI B F, YANG L Y, CHEN J Y. Spatial-temporal evolution and driving factors of ecological land use in Fuxian Lake Basin. Bulletin of Soil and Water Conservation, 2020, 40(6): 228-235, 331. doi: 10.13961/j.cnki.stbctb.2020.06.033
[32] 朱军, 李益敏, 余艳红. 基于GIS的高原湖泊流域生态安全格局构建及优化研究: 以星云湖流域为例. 长江流域资源与环境, 2017, 26(8): 1237-1250. doi: 10.11870/cjlyzyyhj201708014 ZHU J, LI Y M, YU Y H. Study of construction and optimization of ecological security pattern of lake basin in plateau based on GIS: A case study of Xingyun Lake Basin. Resources and Environment in the Yangtze Basin, 2017, 26(8): 1237-1250. doi: 10.11870/cjlyzyyhj201708014
[33] 朱泓, 王金亮, 程峰, 邓欢, 张恩伟, 李应鑫. 滇中湖泊流域生态环境质量监测与评价. 应用生态学报, 2020, 31(4): 1289-1297. doi: 10.13287/j.1001-9332.202004.011 ZHU H, WANG J L. CHENG F, DENG H, ZHANG E W, LI Y X. Monitoring and evaluation of eco-environmental quality of lake basin regions in Central Yunnan Province, China. Chinese Journal of Applied Ecology, 2020, 31(4): 1289-1297. doi: 10.13287/j.1001-9332.202004.011
[34] 孙雨露, 李正升, 李虹, 娄阳. 基于PSR模型的玉溪市生态安全评价. 四川职业技术学院学报, 2017, 27(5): 34-40. doi: 10.3969/j.issn.1672-2094.2017.05.009 SUN Y L, LI Z S, LI H, LOU Y. Ecological security evaluation of Yuxi City based on PSR model. Journal of Sichuan Vocational and Technical College, 2017, 27(5): 34-40. doi: 10.3969/j.issn.1672-2094.2017.05.009
[35] 邢春兰. 玉溪市营造林的自然保护与生态修复. 绿色科技, 2020(21): 149-150. doi: 10.3969/j.issn.1674-9944.2020.21.060 XING C L. Nature conservation and ecological restoration of Yuxi’s created forests. Journal of Green Science and Technology, 2020(21): 149-150. doi: 10.3969/j.issn.1674-9944.2020.21.060
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