Abstract:Taking slope unit as evaluation unit, through establishing the evaluation index system of three factors including regional geological environment background, resource damage and geological hazard, the evaluation indexes are quantified and weighted to make the zoning evaluation of mine geological environment in Xuchang City by layer overlapping analysis of GIS technology. The zoning results are consistent with the current survey, which verifies the practicability of the method and provides reference for planning and treatment of mine geological environment in the area.
Wen S Q, Li R F, Ren Q Z, et al. Application of GIS technology in the regionalization of geological hazards[J]. Geology in China, 2005, 32(3):512-517.温守钦,李仁锋,任群智,等. GIS技术在地质灾害区划中的应用[J].中国地质, 2005, 32(3):512-517.
[2]
Wu B Q, He Z W. Application of GIS technology in the risk assessment of geological hazards in Jiulong County[J]. The Chinese Journal of Geological Hazard and Control, 2008, 19(2):114-117, 123.吴柏清,何政伟. GIS技术在四川省九龙县地质灾害危险性评价中的应用[J].中国地质灾害与防治学报, 2008, 19(2):114-117, 123.
[3]
Shang H, Ni W K, Cheng H. Application of slope unit division to risk zoning of geological hazards of Pengyang County[J]. Soil and Water Conservation in China, 2011(3):48-50.尚慧,倪万魁,程花.斜坡单元划分在彭阳县地质灾害危险性区划中的应用[J].中国水土保持, 2011(3):48-50.
[4]
Zhou Q M, Liu X J. Digital terrain analysis[M]. Beijing:Science Press, 2006:52-70.(in Chinese)周启鸣,刘学军.数字地形分析[M].北京:科学出版社, 2006:52-70.
[5]
Tang G A, Yang X. ArcGIS spatial analysis experiment course[M]. Beijing:Science Press, 2006:429-445.(in Chinese)汤国安,杨昕. ArcGIS地理信息系统空间分析实验教程[M].北京:科学出版社, 2006:429-445.
[6]
He F, Xu Y N, Yuan H C. Method for the determination of objective weight-values in the comprehensive evaluation of mine environmental geological problems[J]. Geology in China, 2008, 35(2):337-343.何芳,徐友宁,袁汉春.矿山环境地质问题综合评价客观权值确定方法探讨[J].中国地质, 2008, 35(2):337-343.
[7]
Huang D L, Wan Y H. Study on evaluation partition of mine geological environment in Changde of Hunan[J]. Journal of Geology, 2010, 34(1):104-109.黄栋良,万益宏.湖南常德市矿山地质环境综合评价分区研究[J].地质学刊, 2010, 34(1):104-109.
[8]
GAO Y Z, Zheng W Z, Chu Y. Assessment of geological environment of mines in Heilongjiang province based on RS and GIS[J]. Geology and Resources, 2016, 25(2):171-175.高永志,郑卫政,初禹.基于RS与GIS的黑龙江省矿山地质环境评价研究[J].地质与资源, 2016, 25(2):171-175.
[9]
Liao Z Wei, Wang Z X, Huang C, et al. Comprehensive evaluation of mine geological environment in Guangxi based on RS and GIS[J]. Geological Survey of China, 2016, 3(4):43-48.廖振威,王志星,黄诚,等.基于RS和GIS的广西矿山地质环境综合评价[J].中国地质调查, 2016, 3(4):43-48.
[10]
Sun H Y, Jin X, Wang C S, et al. Comprehensive evaluation of geological environment in mineral concentrated areas of Bayingaole watershed based on AHP, RS and GIS[J]. Mineral Exploration, 2019, 10(8):2093-2103.孙厚云,金兴,王晨昇,等.基于RS、GIS与AHP的巴音高勒小流域矿集区地质环境综合评价[J].矿产勘查, 2019, 10(8):2093-2103.
[11]
Dong Q L, Zhang L F, Zhang Z K, et al. Research on mine geological environment evaluation based on AHP in large scale spatial region[J]. Mineral Exploration, 2020, 11(8):1780-1787.东启亮,张路飞,张志科,等.基于AHP的大尺度空间域矿山地质环境评价研究[J].矿产勘查, 2020, 11(8):1780-1787.
[12]
Guo F, Nie B L, Shi C B, et al. Zoning evaluation of comprehensive evaluation of phosphate mine geological environment in Yiling District, Yichang city[J]. Resources Environment& Engineering, 2012, 26(3):240-244.郭峰,聂邦亮,石长柏,等.宜昌市夷陵区磷矿矿山地质环境综合评估分区评价[J].资源环境与工程, 2012, 26(3):240-244.
[13]
Yin K L, Zhu L F. Landslide hazard zonation and application of GIS[J]. Earth Science Frontiers, 2001, 8(2):279-284.殷坤龙,朱良峰.滑坡灾害空间区划及GIS应用研究[J].地学前缘, 2001, 8(2):279-284.
[14]
Cui J, Bai C J, Song X. Mine environment evaluation in Henan Province by analytic hierarchy process[J]. Henan Science and Technology, 2019(5):149-153.崔剑,白朝军,宋轩.基于层次分析法的河南省矿山环境评价[J].河南科技, 2019(5):149-153.
[15]
Luo Q W, Feng Y L. Comprehensive assessment for damage degree of geo-environmental problems at mines, based on the analytic hierarchy process[J]. Journal of Geological Hazards and Environment Preservation, 2015, 26(3):85-88.罗清威,冯有利.基于层次分析法的矿山地质环境问题危害程度综合评价[J].地质灾害与环境保护, 2015, 26(3):85-88.
[16]
Li X Y, Wen W F. Comprehensive impact assessment of mine geological environment based on AHP and GIS:A case study of Yuhu and Yuetang Districts in Xiangtan[J]. Land& Resources Herald, 2020, 17(2):49-54.李雪宇,文武飞.基于层次分析法和GIS的矿山地质环境综合评价——以湘潭市雨湖、岳塘区为例[J].国土资源导刊, 2020, 17(2):49-54.
[17]
Zhu S Y, Fan X G, Wang Y, et al. Partition evaluation of mine geological environment based on comprehensive judgment method[J]. China Energy and Environmental Protection, 2019, 41(5):62-65.朱双燕,范旭光,王莹.基于综合判断法的矿山地质环境分区评价[J].能源与环保, 2019, 41(5):62-65.
[18]
Song G J, Huang J C, Wu D M, et al. Applying slope unit division method in Zoning Ruyang County in terms of geo-hazard proneness[J]. Journal of Geological Hazards and Environment Preservation, 2015, 26(1):103-107.宋高举,黄继超,吴东民.基于斜坡单元划分法的汝阳县地质灾害易发性区划[J].地质灾害与环境保护, 2015, 26(1):103-107.
[19]
Zhang G, Liu C Y, Huang J C, et al. Analysis of geological hazard susceptibility in Xiuwu County based on GIS technology[J]. Ground Water, 2018, 40(1):124-125, 176.(in Chinese)张公,刘承勇,黄继超,等.基于GIS技术的修武县地质灾害易发性分析[J].地下水, 2018, 40(1):124-125, 176.
[20]
Song G J, Zheng D C, Huang J C, et al. Brief analysis of mine geological environment problems in Xuchang City[J]. Journal of Geological Hazards and Environment Preservation, 2020, 31(2):57-61.宋高举,郑栋材,黄继超,等.许昌市矿山地质环境问题浅析[J].地质灾害与环境保护, 2020, 31(2):57-61.
[21]
Wu G H, Wang C S, Chen H H. Eco-environmental assessment and genetic analysis of heavy metal pollution in the soil around the abandoned tungsten-molybdenum mine area in Inner Mongolia[J]. Geology in China, 2020, 47(6):1838-1852.邬光海,王晨昇,陈鸿汉.内蒙古废弃钨钼矿区周围土壤重金属污染生态环境评价及成因分析[J].中国地质, 2020, 47(6):1838-1852.