Abstract
The geologic metallogenetic environment of uranium at Lian Shan Guan region has been studied by using digital image integration technique of multi-geoscience information with aerial radiometric measurements. It includes the classification of uranium-bearing rock, recognizing patterns of ore-forming and geologic mapping in ore field. Some new tectonic structure was found in this region that gives significant information for further exploring of uranium ore. After multi-parameters screening of aerial radiometric data, patterns recognizing and multi-geoscience information integration analysis, four prospective metallogenetic zones were predicted, and the predication was proved by further geologic survey. Three of the four zones are very encouraging, where ore-forming structures, hydrothermal deposits, wall-rock alteration, primary and secondary uranium ore and rich uranium mineralization are discovered. The department of geologic exploring has decided that these zones will enjoy priority in the examination for further prospecting of uranium ores.
Dechang, Liu;
Maorong, Sun;
Deling, Zhu;
Jingbo, Zhang;
Jianguo, He;
Xiuzhen, Dong
[1]
- Beijing Research Inst. of Uranium Geology (China)
Citation Formats
Dechang, Liu, Maorong, Sun, Deling, Zhu, Jingbo, Zhang, Jianguo, He, and Xiuzhen, Dong.
Digital image integration technique of multi-geoscience information dominated by aerial radiometric measurements.
China: N. p.,
1992.
Web.
Dechang, Liu, Maorong, Sun, Deling, Zhu, Jingbo, Zhang, Jianguo, He, & Xiuzhen, Dong.
Digital image integration technique of multi-geoscience information dominated by aerial radiometric measurements.
China.
Dechang, Liu, Maorong, Sun, Deling, Zhu, Jingbo, Zhang, Jianguo, He, and Xiuzhen, Dong.
1992.
"Digital image integration technique of multi-geoscience information dominated by aerial radiometric measurements."
China.
@misc{etde_10145671,
title = {Digital image integration technique of multi-geoscience information dominated by aerial radiometric measurements}
author = {Dechang, Liu, Maorong, Sun, Deling, Zhu, Jingbo, Zhang, Jianguo, He, and Xiuzhen, Dong}
abstractNote = {The geologic metallogenetic environment of uranium at Lian Shan Guan region has been studied by using digital image integration technique of multi-geoscience information with aerial radiometric measurements. It includes the classification of uranium-bearing rock, recognizing patterns of ore-forming and geologic mapping in ore field. Some new tectonic structure was found in this region that gives significant information for further exploring of uranium ore. After multi-parameters screening of aerial radiometric data, patterns recognizing and multi-geoscience information integration analysis, four prospective metallogenetic zones were predicted, and the predication was proved by further geologic survey. Three of the four zones are very encouraging, where ore-forming structures, hydrothermal deposits, wall-rock alteration, primary and secondary uranium ore and rich uranium mineralization are discovered. The department of geologic exploring has decided that these zones will enjoy priority in the examination for further prospecting of uranium ores.}
place = {China}
year = {1992}
month = {Feb}
}
title = {Digital image integration technique of multi-geoscience information dominated by aerial radiometric measurements}
author = {Dechang, Liu, Maorong, Sun, Deling, Zhu, Jingbo, Zhang, Jianguo, He, and Xiuzhen, Dong}
abstractNote = {The geologic metallogenetic environment of uranium at Lian Shan Guan region has been studied by using digital image integration technique of multi-geoscience information with aerial radiometric measurements. It includes the classification of uranium-bearing rock, recognizing patterns of ore-forming and geologic mapping in ore field. Some new tectonic structure was found in this region that gives significant information for further exploring of uranium ore. After multi-parameters screening of aerial radiometric data, patterns recognizing and multi-geoscience information integration analysis, four prospective metallogenetic zones were predicted, and the predication was proved by further geologic survey. Three of the four zones are very encouraging, where ore-forming structures, hydrothermal deposits, wall-rock alteration, primary and secondary uranium ore and rich uranium mineralization are discovered. The department of geologic exploring has decided that these zones will enjoy priority in the examination for further prospecting of uranium ores.}
place = {China}
year = {1992}
month = {Feb}
}