The eastern Tianshan metallogenic belt(E92°-96°, N41°-43°),one of the most important Cu-Ni-Au mineral districts in China,is located at the conjunction of the Siberian plate and Tarim plate.The fuzz...The eastern Tianshan metallogenic belt(E92°-96°, N41°-43°),one of the most important Cu-Ni-Au mineral districts in China,is located at the conjunction of the Siberian plate and Tarim plate.The fuzzy weight of evidence method(FWofE) is applied to predict and delineate the most prospective areas for copper resource based on the available展开更多
Tuotuo River region(E91°-E93°,N33°-N 35°) is located in southwest Qinghai Province,P.R.China.It lies in one of the most important metallogenic belts in China—Northwest Sanjiang Metallogenic Belt,d...Tuotuo River region(E91°-E93°,N33°-N 35°) is located in southwest Qinghai Province,P.R.China.It lies in one of the most important metallogenic belts in China—Northwest Sanjiang Metallogenic Belt,due to which Tuotuo River region can be of very high metal mineral potential not only in Qinghai Province but also nationwide.In this research,multisource data sets including geological,geochemical,geophysical, and remotely sensed images were integrated for mineral potential analysis with GIS technology.Under the guidance of regional metallogenic features and deposit-forming geologic anomaly theories,evidential layers were obtained from these sets,which展开更多
文摘The eastern Tianshan metallogenic belt(E92°-96°, N41°-43°),one of the most important Cu-Ni-Au mineral districts in China,is located at the conjunction of the Siberian plate and Tarim plate.The fuzzy weight of evidence method(FWofE) is applied to predict and delineate the most prospective areas for copper resource based on the available
文摘Tuotuo River region(E91°-E93°,N33°-N 35°) is located in southwest Qinghai Province,P.R.China.It lies in one of the most important metallogenic belts in China—Northwest Sanjiang Metallogenic Belt,due to which Tuotuo River region can be of very high metal mineral potential not only in Qinghai Province but also nationwide.In this research,multisource data sets including geological,geochemical,geophysical, and remotely sensed images were integrated for mineral potential analysis with GIS technology.Under the guidance of regional metallogenic features and deposit-forming geologic anomaly theories,evidential layers were obtained from these sets,which