基于ASTER和L8-OLI的多龙矿集区高光谱方法遥感蚀变矿物(组合)提取
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- 论文作者:张廷斌 ; 李红梅 ; 易桂花 ; 别小娟 ; 汪子义
- 年:2016
- 作者机构:成都理工大学地学空间信息技术国土资源部重点实验室;成都理工大学工程技术学院;成都理工大学地球科学学院;
- 会议召开时间:2016-10-29
- 会议录名称:资源环境与地学空间信息技术新进展学术会议论文集
- 语种:中文
- 分类号:P627
- 学会代码:CDDQ
- 会议名称:资源环境与地学空间信息技术新进展学术讨论会
- 会议地点:中国四川成都
- 主办单位:成都理工大学地球科学学院、四川省矿物岩石地球化学学会、“构造与成矿成藏”国土资源部重点实验室(成都理工大学)、“地学空间信息技术”国土资源部重点实验室(成都理工大学)、地学核技术四川省重点实验室
- 学会名称:成都理工大学地球科学学院
- 页数:5
- 文件大小:774k
- 原文格式:O
- 会议级别:全国
摘要
<正>引言矿床围岩蚀变是重要的找矿标志之一,自20世纪70年代开始,利用遥感技术开展矿化蚀变信息提取和蚀变矿物填图已有40多年的历史~([1,2])。数据源方面,高光谱遥感数据由于其覆盖面积小、数据获取难或存档数据少等因素,难以在大范围内广泛应用~([3,4]);而多光谱遥感数据,因具有覆盖面积大、存档数据多和容易获取等优势往往成为大面积蚀变信息提取的首选~([5,6])。Advanced Spaceborne Thermal Emission and Reflection Radi-
引文
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[4]Rowan L C,Simpson C J,Mars J C.Hyperspectral analysis of the ultramafic complex and adjacent lithologies at Mordor,NT,Australia.Remote Sensing of Environment,2004,91:419-431.
[5]Ranjbar H,Honarmand M,Moezifa Z.Application of the Crosta technique for porphyry copper alteration mapping,using ETM+data in the southern part of the Iranian volcanic sedimentary belt.Journal of Asian Earth Sciences,2004,24:237-243.
[6]Mars J C,Rowan L C.Spectral assessment of new ASTER SWIR surface reflectance data products for spectroscopic mapping of rocks and minerals.Remote Sensing of Environment,2010,114:2011-2025.
[7]Azizi H,Tarverdi M A,Akbarpour A.Extraction of hydrothermal alterations from ASTER SWIR data from east Zanjan,northern Iran.Advances in Space Research,2010,46:99-109.
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[9]lrons J R,Dwyer J L,Barsi J A.The next Landsat satellite:The Landsat Data Continuity Mission.Remote Sensing of Environment,2012,122:11-21.
[10]张廷斌,唐菊兴,黄丁发.矿化蚀变信息提取的TM/ETM+遥感影像模式.遥感信息,2009,2:47-51.
[11]张廷斌.斑岩铜矿遥感蚀变信息重现性与优选研究——以西藏自治区典型斑岩铜矿为例.成都:西南交通大学博士学位论文,2012.
[12]Hubbard BE,Crowley J K.Mineral mapping on the Chilean-Bolivian Altiplano using co-orbital ALI,ASTER and Hyperion imagery:Data dimensionality issues and solutions.Remote Sensing of Environment,2005,99:173-186.
[13]Pour A B,Hashim M.Hydrothermal alteration mapping from Landsat-8 data,Sar Cheshmeh copper mining district,south-eastern Islamic Republic of Iran.Journal of Taibah University for Science,2015,9:155-166.
[14]张志,陈毓川,唐菊兴,等.西藏多不杂富金斑岩铜矿床蚀变与脉体系统.矿床地质,2014,33(6):1268-1286.
[15]Molan Y E,Refahib D,Tarashti A,H.Mineral mapping in the Maherabad area,eastern Iran,using the HyMap remote sensing data.International Journal of Applied Earth Observation and Geoinformation,2014,27:117-127.
[16]Lowell J,D,Guilbert J M.Lateral and vertical alteration mineralization zoning in porphyry ore deposits.Economic geology and the bulletin of the society of economic geologists,1970,65:373-408.
[17]代晶晶,曲晓明,辛洪波.基于ASTER遥感数据的西藏多龙矿集区示矿信息的提取.地质通报,2010,29(5):752-759.
[18]胡紫豪,唐菊兴,张廷斌,等.西藏多不杂斑岩型铜矿ASTER遥感蚀变异常特征.国土资源遥感,2012,92(1):150-154.
[19]别小娟,张廷斌,孙传敏,等.西藏多龙矿集区遥感异常提取与成矿预测.桂林理工大学学报,2013,33(2):252-258.
[2]Abrams M J,Brown L,Lepley R,et al.Remote sensing for porphyry copper deposits in Southern Arizona.Economic Geology,1983,78:591-604.
[3]Rowan L C,Crowley J K,Schmidt R G,et al.Mapping hydrothermally altered rocks by analyzing hyperspectral image(AV1R1S)data of forested areas in the Southeastern United States.Journal of Geochemical Exploration,2000,68:145-166.
[4]Rowan L C,Simpson C J,Mars J C.Hyperspectral analysis of the ultramafic complex and adjacent lithologies at Mordor,NT,Australia.Remote Sensing of Environment,2004,91:419-431.
[5]Ranjbar H,Honarmand M,Moezifa Z.Application of the Crosta technique for porphyry copper alteration mapping,using ETM+data in the southern part of the Iranian volcanic sedimentary belt.Journal of Asian Earth Sciences,2004,24:237-243.
[6]Mars J C,Rowan L C.Spectral assessment of new ASTER SWIR surface reflectance data products for spectroscopic mapping of rocks and minerals.Remote Sensing of Environment,2010,114:2011-2025.
[7]Azizi H,Tarverdi M A,Akbarpour A.Extraction of hydrothermal alterations from ASTER SWIR data from east Zanjan,northern Iran.Advances in Space Research,2010,46:99-109.
[8]Rowan L C,Schmidt R G,Mars J C.Distribution of hydrothermally altered rocks in the RekoDiq,Pakistan mineralized area based on spectral analysis of ASTER data.Remote Sensing of Environment,2006,104:74-87.
[9]lrons J R,Dwyer J L,Barsi J A.The next Landsat satellite:The Landsat Data Continuity Mission.Remote Sensing of Environment,2012,122:11-21.
[10]张廷斌,唐菊兴,黄丁发.矿化蚀变信息提取的TM/ETM+遥感影像模式.遥感信息,2009,2:47-51.
[11]张廷斌.斑岩铜矿遥感蚀变信息重现性与优选研究——以西藏自治区典型斑岩铜矿为例.成都:西南交通大学博士学位论文,2012.
[12]Hubbard BE,Crowley J K.Mineral mapping on the Chilean-Bolivian Altiplano using co-orbital ALI,ASTER and Hyperion imagery:Data dimensionality issues and solutions.Remote Sensing of Environment,2005,99:173-186.
[13]Pour A B,Hashim M.Hydrothermal alteration mapping from Landsat-8 data,Sar Cheshmeh copper mining district,south-eastern Islamic Republic of Iran.Journal of Taibah University for Science,2015,9:155-166.
[14]张志,陈毓川,唐菊兴,等.西藏多不杂富金斑岩铜矿床蚀变与脉体系统.矿床地质,2014,33(6):1268-1286.
[15]Molan Y E,Refahib D,Tarashti A,H.Mineral mapping in the Maherabad area,eastern Iran,using the HyMap remote sensing data.International Journal of Applied Earth Observation and Geoinformation,2014,27:117-127.
[16]Lowell J,D,Guilbert J M.Lateral and vertical alteration mineralization zoning in porphyry ore deposits.Economic geology and the bulletin of the society of economic geologists,1970,65:373-408.
[17]代晶晶,曲晓明,辛洪波.基于ASTER遥感数据的西藏多龙矿集区示矿信息的提取.地质通报,2010,29(5):752-759.
[18]胡紫豪,唐菊兴,张廷斌,等.西藏多不杂斑岩型铜矿ASTER遥感蚀变异常特征.国土资源遥感,2012,92(1):150-154.
[19]别小娟,张廷斌,孙传敏,等.西藏多龙矿集区遥感异常提取与成矿预测.桂林理工大学学报,2013,33(2):252-258.
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