Remote Sensing Monitoring of the Mineral Resources Exploration and Mining Environment of the Salt Lake Based on SPOT5 Data

doi:10.6046/gtzyyg.2012.03.26

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Abstract Using the remote sensing interpretation data of the SPOT5 images acquired in three periods from 2008 to 2010, the authors analyzed the mining geological environment and the status of mineral resources exploitation in the Chaerhan salt lake. The results show that the numbers of factories and pump stations have increased, the exploited saline land,tailings and waste bittern convergence areas are rapidly expanding. Both extracting ditches and transporting ditches are extending. The monitoring scheme for the study area is discussed in detail,which provides some essential scientific references for regulating a monitoring system and technical standard in this field.

Keywords pixel decomposition cubic convolution mono-window algorithm proximity effect

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Issue Date: 20 August 2012

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	WANG Fei
	QIN Zhi-hao
	WANG Qian-qian

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WANG Fei,QIN Zhi-hao,WANG Qian-qian. Remote Sensing Monitoring of the Mineral Resources Exploration and Mining Environment of the Salt Lake Based on SPOT5 Data[J]. REMOTE SENSING FOR LAND & RESOURCES, 2012, 24(3): 146-153.

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https://www.gtzyyg.com/EN/10.6046/gtzyyg.2012.03.26 OR https://www.gtzyyg.com/EN/Y2012/V24/I3/146

[1] 郑绵平.论中国盐湖[J].矿床地质,2001,20(2):181-189. Zheng M P.On Saline Lakes of China[J].Mineral Deposits,2001,20(2):181-189(in Chinese with English Abstract).
[2] 郑绵平,齐文.我国盐湖资源及其开发利用[J].矿产保护与利用,2006(5):45-50. Zheng M P,Qi W.Saline Resources and Its Development in China[J].Conservation and Utilization of Mineral Resources,2006(5):45-50(in Chinese with English Abstract).
[3] 印象初,印红,周可新,等.高原盐湖盐藻和卤虫资源的开发和利用[J].盐湖研究,2002,9(1):4-8. Ying X C,Yin H,Zhou K X,et al. Development and Utilization of Salt Algae (Dunaliella salina) and Brine Shrimp (Artemia spp) in the Plateau Salt Lake of China[J].Journal of Salt Lake Research,2002,9(1):4-8(in Chinese with English Abstract).
[4] 黄西平.国内外盐湖(地下)卤水资源综合利用综述[J].海洋技术,2002,21(4):65-71. Huang X P.Multipurpose Utilization of Bittern Resource in Salt Lake[J].Ocean Technology,2002,21(4):65-71(in Chinese with English Abstract).
[5] 郑绵平.中国盐湖资源与生态环境[J].地质学报,2010,84(11):1613-1622. Zheng M P.Salt Lake Resources and Eco-environment in China[J].Acta Geologica Sinica,2010,84(11):1613-1622(in Chinese with English Abstract).
[6] 郑绵平.盐湖学的研究与展望[J].地质论评,2006,52(6):737-746. Zheng M P.Salinology:Research and Prospects[J].Geological Review,2006,52(6):737-746(in Chinese with English Abstract).
[7] 蔡伟,余俊清,李红娟.遥感技术在湖泊环境变化研究中的应用和展望[J].盐湖研究,2005,13(4):14-20. Cai W,Yu J Q,Li H J.Application and Prospect of Remote Sensing Techniques to Lake Environmental Monitoring[J].Journal of Salt Lake Research,2005,13(4):14-20(in Chinese with English Abstract).
[8] 张博,张柏,洪梅,等.湖泊水质遥感研究进展[J].水科学进展,2007,18(2):301-310. Zhang B,Zhang B,Hong M,et al.Advance in Remote Sensing of Lake Water Quality[J].Advances in Water Science,2007,18(2):301-310(in Chinese with English Abstract).
[9] 周立国,冯学智,肖鹏峰,等.盐湖遥感研究的进展与展望[J].地球科学进展,2009,24(2):141-149. Zhou L G,Feng X Z,Xiao P F,et al.Advance and Prospection of Remote Sensing Application to Salt Lakes[J].Advances in Earth Science,2009,24(2):141-149(in Chinese with English Abstract).
[10] 胡东生.柴达木盆地察尔汗盐湖动态变化的地球卫星监测研究[J].海湖盐与化工,1996,25(6):6-10. Hu D S.The Qaidam Basin Chaerhan Salt Lake Dynamic Changes of the Earth’s Satellite Monitoring Research [J].Sea-Lake Salt and Chemical Industry,1996,25(6):6-10(in Chinese).
[11] 王学佑,熊介凡,管海晏,等.罗布泊钾盐矿遥感技术应用分析[J].化工矿产地质,1997,19(2):129-134. Wang X Y,Xiong J F,Guan H Y,et al.Application of Remote Sensing to Potash Prospection in Luobubo District[J].Geology of Chemical Minerals,1997,19(2):129-134(in Chinese with English Abstract).
[12] 白朝军,王跃峰,武萍.西藏自治区盐湖矿产资源遥感信息提取方法[J].国土资源遥感,2004(2):35-38. Bai C J,Wang Y F,Wu P.The Remote Sensing Information Extraction of Modern Salt Lake Ore Deposits in Tibet[J].Remote Sensing for Land and Resources,2004(2):35-38(in Chinese with English Abstract).
[13] 王跃峰,陈瑞保,白朝军,等.西藏盐湖TM影像遥感分析[J].盐湖研究,2004,12(2):1-7. Wang Y F,Chen R B,Bai C J,et al.Remote Sensing Analysis of Tibetan Salt Lakes by TM Imaging[J].Journal of Salt Lake Research, 2004,12(2):1-7(in Chinese with English Abstract).
[14] 田淑芳,秦绪文,郑绵平,等.西藏扎布耶盐湖总盐含量遥感定量分析[J].现代地质,2005,19(4):596-602. Tian S F,Qin X W,Zheng M P,et al.Quantitative Analysis of Remote Sensing on the Total Salinity of Zhabuye Salt Lake in Tibet[J].Geoscience,2005,19(4):596-602(in Chinese with English Abstract).
[15] 高会军,李小强,张峰,等.青海湖地区生态环境动态变化遥感监测[J].中国地质灾害与防治学报,2005,16(3):100-103. Gao H J,Li X Q,Zhang F,et al.Remote Sensing Monitory Study on the Dynamic Change of Ecological Environment in Qinghai Lake Area During 25 Years[J].The Chinese Journal of Geological Hazard and Control,2005,16(3):100-103(in Chinese with English Abstract).
[16] 田淑芳,洪友堂,秦绪文.高浓度盐湖水深遥感研究[J].国土资源遥感,2006(1):26-30. Tian S F,Hong Y T,Qin X W.A Remote Sensing Approach to the Depth of the Highly Concentrated Salt Lake[J].Remote Sensing for Land and Resources,2006(1):26-30(in Chinese with English Abstract).
[17] 张灿龙,邓自旺,倪绍祥,等.遥感与GIS的青海湖岸线分维研究[J].地球信息科学,2006,8(4):141-145. Zhang C L,Deng Z W,Ni S X,et al.Remote Sensing and GIS Supported Study on the Fractal Dimension of the Shoreline of Qinghai Lake[J].Geo-information Science,2006,8(4):141-145(in Chinese with English Abstract).
[18] 颉耀文,王君婷.基于TM影像和DEM的白碱湖湖面变化模拟[J].遥感技术与应用,2006,21(4):284-287. Xie Y W,Wang J T.A Study on the Changes of Baijian Lake Based on TM Image and DEM[J].Remote Sensing Technology and Application,2006,21(4):284-287(in Chinese with English Abstract).
[19] 刘国庆.腾格里沙漠地区盐湖资源调查遥感应用研究[J].化工矿产地质,2010,32(3):163-167. Liu G Q.Application of Remote Sensing Technology in the Salt Lake Resoureces Survey in Tenggeli Desert Region[J].Geology of Chemical Minerals,2010,32(3):163-167(in Chinese with English Abstract).
[20] 杨金中,秦绪文,聂洪峰,等.矿山遥感监测工作指南[R].北京:国土资源部,2009. Yang J Z,Qin X W,Nie H F,et al.Manual for Remote Sensing Monitoring in Mine[R]. Beijing:Ministry of Land and Resources, 2009(in Chinese).
[21] 聂洪峰,杨金中,王晓红,等.矿产资源开发遥感监测技术问题与对策研究[J].国土资源遥感,2007(4):11-13. Nie H F,Yang J Z,Wang X H,et al.The Problems in the Remote Sensing Monitoring Technology for the Exploration of Mineral Resources and the Counterm Easures[J].Remote Sensing for Land and Resources,2007(4):11-13(in Chinese with English Abstract).
[22] 胡东生.察尔汗盐湖区地貌[J].湖泊科学,1990,2(1):37-43. Hu D S.Geomorphology of Qarhan Salt Lakes[J].Scientia Limnologica Sinica,1990,2(1):37-43(in Chinese with English Abstract).
[23] 王石军.察尔汗盐湖资源开发前景展望[J].化工矿产地质,1999,21(3):175-180. Wang S J.Prospects for Tapping the Resources of the Chaerhan Salt Lake[J].Geology of Chemical Minerals,1999,21(3):175-180(in Chinese with English Abstract).
[24] 周训,方斌,陈明佑,等.青海省察尔汗盐湖别勒滩区段晶间卤水数值模拟[J].干旱区研究,2006,23(2):254-263. Zhou X,Fang B,Chen M Y,et al.Numerical Simulation of Brine in Crystalline Halite in the Bieletan Area of the Charham Salt Lake Region,Qinghai Province[J].Arid Zone Research,2006,23(2):254-263(in Chinese with English Abstract).
[25] 郭新华,王春男,马明珠.青海柴达木盆地察尔汗盐湖首采区钾镁盐矿床开发及老卤排放对液体钾矿的影响现状[J].西北地质,2006,39(1):98-104. Guo X H,Wang C N,Ma M Z.Influence on the Ore of Development of the Potash Ore and the Laolu Disposing in the First Mine Areaof Qarhan Saline Lake,Qinghai[J].Northwestern Geology,2006,39(1):98-104(in Chinese with English Abstract).
[26] 青海省国土资源厅.青海省盐湖矿产资源规划研究报告[R].西宁:青海省国土资源厅,2002. Department of Land and Resources of Qinghai Province.Strategy Study Report of Mineral Resources in Salt Lake of Qinghai Province[R].Xining:Department of Land and Resources of Qinghai Province,2002(in Chinese).
[27] 甘玉萍,毕海良,张淑霞.青海省矿产资源开发引发的环境地质问题及防治对策[J].青海国土经略,2006(2):25-27. Gan Y P,Bi H L,Zhang S X.Geological Environment Issues and Their Preventions Caused by Mineral Resources Exploitation[J].Qinghai Provincial Territorial Strategy,2006(6):25-27(in Chinese).
[28] 杨萍.柴达木盆地生态环境的主要问题和保护对策[J].青海环境,2005,15(2):72-73. Yang P.The Ecological Environment of Qaidam Basin of the Main Problems and Protection Measures[J].Journal of Qinghai Environment,2005,15(2):72-73(in Chinese).
[29] 胡东生.中国钾肥基地察尔汗盐湖资源开发中的环境问题[J].海湖盐与化工,1995,25(1):1-5. Hu D S.Environmental Issues of China’s Potash Base Explotation in Qarhan Salt Lake[J].Sea-Lake Salt and Chemical Industry,1995,25(1):1-5(in Chinese).
[30] 余劲松,蔡华群,乔忠莲.老卤排放对盐湖开发的环境影响评价[J].化工矿物与加工,2005(1):33-35. Yu J S,Cai H Q,Qiao Z L.Environmental Impact Assessments in Emission of Laolu on Salt Lake Explotation[J].Industrial Minerals and Processing,2005(1):33-35(in Chinese).
[31] 徐军,梁义田,孙建英,等.盐湖资源开发污染问题的探讨及对策[J].矿冶,2003,12(3)9:79-82. Xu J,Liang Y T,Sun J Y,et al.Discussion on Pollution Problems and Their Countermeasures in Development of Salt Lake Resources[J].Mining and Metallurgy,2003,12(3):79-82(in Chinese with English Abstract).
[32] 刘成伦,廖振方,鲜学福.盐矿安全问题及环境污染的防治[J].中国安全科学学报,2003,13(3):62-65. Liu C L,Liao Z F,Xian X F.Safety Problems and Environmental Pollution Control in Salt Mine[J].China Safety Science Journal,2003,13(3):62-65(in Chinese with English Abstract).
[33] 王晓红,聂洪峰,杨清华,等.高分辨率卫星数据在矿山开发状况及环境监测中的应用效果比较[J].国土资源遥感,2004(1):15-18. Wang X H,Nie H F,Yang Q H,et al.The Different Monitoring Effects of Quickbird and SPOT-5 Data in Mine Exploitation[J].Remote Sensing for Land and Resources, 2004(1):15-18(in Chinese with English Abstract).
[34] 何芳,徐友宁,乔冈,等.中国矿山环境地质问题区域分布特征[J].中国地质,2010,37(5):1520-1529. He F,Xu Y N,Qiao G,et al.Regional Distribution Characteristics of Mine Environmental Geological Problems in China[J].Geology in China,2010,37(5):1520-1529(in Chinese with English Abstract).
[35] 谢连文,马密堂,李锋.罗布泊盐湖钾盐资源遥感研究现状[J].科技进步与对策,2003(增刊):239-240. Xie L W,Ma M T,Li F.LuoBuBo Salt Lake Potash Resources Current Situation of Remote Sensing Research[J].Science & Technology Progress and Policy,2003(Supplementary Issue):239-240(in Chinese).
[36] 张兆广,李百贤.青海省察尔汗盐湖盐溶研究[J].盐湖研究,2008,16(3):19-24. Zhang Z G,Li B X.Salt Karst Research of Qarhan Salt Lake in Qinghai Province[J].Journal of Salt Lake Research,2008,16(3):19-24(in Chinese with English Abstract).
[37] 王晓,陈建军.青海盐湖资源可持续发展的评价指标研究[J].青海师范大学学报:自然科学版,2003(4):68-72. Wang X,Chen J J.Study on Sustainable Development Evaluation Index of Qinghai Salt Lakes Resources[J].Journal of Qinghai Normal University:Natural Science,2003(4):68-72(in Chinese with English Abstract).
[38] 于升松,谭红兵.中国盐湖资源的开发利用与环境保护[J].盐湖研究,2000,8(1):24-29. Yu S S,Tan H B.Exploitation of Chinese Salt Lake Resources and Environmental Protection[J].Journal of Salt Lake Research, 2000,8(1):24-29(in Chinese with English Abstract).
[39] 赵英时,周心铁,唐文周,等.遥感应用分析原理与方法[M].北京:科学出版社,2003. Zhao Y S,Zou X T,Tang W Z,et al.Remote Sensing Application Analysis Principle and Method[M].Beijing:Science Press,2003(in Chinese).
[40] 刘峰,张继贤,靳奉祥,等.地物波谱研究现状及方法的初步探讨[J].北京测绘,2005(3):1-6. Liu F,Zhang J X,Jin F X,et al.The Original Study on the Current Situation and Methods of Landmark Spectrum[J].Beijing Surveying and Mapping,2005(3):1-6(in Chinese with English Abstract).

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