Objective Fission track (FT) analysis has developed into one of the most useful techniques throughout the geologic community to reconstruct low-temperature thermal historyof rocks over geological time (Reiners et ...Objective Fission track (FT) analysis has developed into one of the most useful techniques throughout the geologic community to reconstruct low-temperature thermal historyof rocks over geological time (Reiners et al., 2005). The FT method is based on the accumulation of narrow damage trails (i.e., fission tracks) in uranium-rich mineral grains (e.g., apatite, zircon, titanite) and natural glasses, which form as a result of spontaneous nuclear fission decay of 238U in nature. Apatite Fission Track (AFT) has been used in many places in Tibet to study the Qinghai- Tibetan Plateanuplifl-exhumation history. However, few AFT studies have been reported in the Duolong ore district. The Duolong ore district is one of the most important ore districts in the Bangong Co-Nujiang metallogenic belt, Tibet (Lin Bin et al., 2017) and the uplift-exhumation of the Duolong ore district is closely related to the evolution of the Qiangtang Basin. Therefore, AFT of the Duolong ore district will provide important information about the uplift-exhumation history of the Duolong ore district and the Qiangtang Basin.展开更多
基金supported by Public Science and Technology Research funds projects,Ministry of Land Resources of the People’s Republic of China(grants No.201511017 and 201511022-02)the Basal Research Fund of Chinese Academy of Geological Sciences(grant No.YYWF201608)+3 种基金the National Natural Science Foundation of China(grant No.41402178)Geological Survey project of China Geological Survey(grant No.1212011405040)Golden Dragon Mining Co.,Ltd.(grant No.XZJL-2013-JS03)Public Science and Technology Research funds projects(grant No.201511022-05)
文摘Objective Fission track (FT) analysis has developed into one of the most useful techniques throughout the geologic community to reconstruct low-temperature thermal historyof rocks over geological time (Reiners et al., 2005). The FT method is based on the accumulation of narrow damage trails (i.e., fission tracks) in uranium-rich mineral grains (e.g., apatite, zircon, titanite) and natural glasses, which form as a result of spontaneous nuclear fission decay of 238U in nature. Apatite Fission Track (AFT) has been used in many places in Tibet to study the Qinghai- Tibetan Plateanuplifl-exhumation history. However, few AFT studies have been reported in the Duolong ore district. The Duolong ore district is one of the most important ore districts in the Bangong Co-Nujiang metallogenic belt, Tibet (Lin Bin et al., 2017) and the uplift-exhumation of the Duolong ore district is closely related to the evolution of the Qiangtang Basin. Therefore, AFT of the Duolong ore district will provide important information about the uplift-exhumation history of the Duolong ore district and the Qiangtang Basin.
