| Citation: | Yusheng Zhai, Runmin Peng, Jun Deng, Jianping Wang. Analysis of Mineralization System and Prediction of New-Type Ore Deposits. Journal of Earth Science, 2000, 11(2): 107-112.
|
The discovery of new-type ore deposits, an important approach to guarantee the mineral resources supply in the 21st century, often brings about a gigantic increase in the mineral resources reserves. The analysis of mineralization system is of great importance to the discovery of new type ore deposits. ① The understanding of the relationship among various ore deposit types within a mineralization system in a region can help us to locate the unknown ore deposit types from the known ore deposit types, evidence that has been proved in the mineral prospecting history of ore belts in the middle and lower reaches of the Yangtze River, China. ② The understanding of the spatial structure of a mineralization system, especially of the vertical zonation, is helpful for the discovery of the concealed ore deposit types. ③ Clarifying the temporal structure of a mineralization system, including the iteration relationship between the mineral deposit types in the mineralization, leads to the location of the missing mineralization chains from the known mineralization chains (mineral deposit type), a method often proved to be effective in the magmatic hydrothermal mineralization system.④ Clarifying the factors restraining the diversity of mineral deposit types in mineralization system leads to the discovery of the potential of new type mineral deposits in relevant region. ⑤ Studying new mineralization setting and new ore forming processes leads to discovery of new type mineral deposit. More probabilities of discovery of new type mineral deposits are present in biogenic mineralization system, deep sea mineralization system, low temperature mineralization system, tectonic mineralization system and superimposed mineralization system.
| Chang Y, Liu X, Wu Y, 1991. The Copper and Iron Ore Belt in the Middle and Lower Reaches of the Yangtze River. Beijing: Geological Publishing House. 287-293 |
| Chen Y, Mao J, Luo Y, et al, 1996. Geology and Geochemics of the Dashuigou Te (Au) Ore Deposit in Sichuan Province. Beijing: Atomic Energy Publishing House |
| Editing Committee of the Anhui Volume of the Discovering History of Ore Deposits in China, 1996. Anhui Volume of the Discovering History of Ore Deposits in China. Beijing: Geological Publishing House. 83-86 |
| Huang S, 1992. Genetic Model of Vocano-Porphyry Copper Multi-Metallic Ore Deposits in the Northeastern Jiangxi. In: China Association of Geology, ed. Synopsis of Academic Interchange Meeting on Important Science and Technology Achievements of the 7th Five-Year-Program. Beijing: Science and Technonogy Publishing House. 484-489 |
| Lin X, 1999. Ore Deposit of Magmatic-Hydrothermal Transitional Type. Wuhan: China University of Geosciences Press. 1-8 |
| Maclntyre D G, 1995. Sedex Sedimentary Exhalative Deposit, Ore Deposits, Tectonics and Metallogeny in the Canadian Cordillera. Ministry of Energy, Mines and Petroleum Resources, British Columbia, Queen' s Printer for British Columbia, Victoria, 5-20 |
| Oliver N HS, Dickens G R, 1999. Hematite Ores of Australia Formed by Syntectonic Heated Meteoric Fluid. In: Stanley C J, ed. Mineral Deposits: Processes to Proceeding. A. A. Balkema /Potterdam/Broonfield. 889-892 |
| Rona A P, Scott S D, 1993. Sea-Floor Hydrothermal Mineralization: New Perspective. Economic Geology, 88: 1934-1957 |
| Tang Y, Wu Y, Chu G, 1998. Geology of Copper-Gold Polymetallic Deposits along the Yangtze River in Anhui Province. Beijing: Geological Publishing House. 281-296 |
| Tu G, 1999. Discussion on Problems Relating to Precious Metal Prospecting. In: Cheng Y, ed. Theory and Method of Modern Exploration and Appraisement on Mineral Resources. Beijing: Seismological Publishing House. 186-191 |
| Yang K, 1986. Study Contents and Direction of Dynamic-Petrologenic-Mineralization Theory. In: Chinese Academy of Sciences, ed. Synopsis of Institute of Geomechanics. Beijing: Geological Publishing House |
| Ye L, 1996. Biogenic Mineralization. Beijing: Ocean Press |
| Yin J, 1996. Mineralization Mechanism and Mineralization Model of Dashuigou independent Te Ore Deposit. Chongqing: Chongqing Publishing House |
| Yin H, Zhang W, Zhang Z, et al, 1999. Biomineralization System. Wuhan: China University of Geosciences Press. 24 |
| Zhai Y, 1999. Problems Pertaining to Regional metallogeny of China. Mineral Deposits, 18(4): 323-332 |
| Zhai Y, Deng J, Li X, et al, 1999. Regional Metallogeny. Beijing: Geological Publishing House. 154-171 |
| Zhai Y, Lin X, 1993. Structures of Ore Field. Beijing: Geological Publishing House |
| Zhai Y, Lin X, Yao S, 1992. Mineralization Regularities of Fe, Cu and Au in the Middle and Lower Reaches of the Yangtze River. Beijing: Geological Publishing House. 227-230 |
| Zhai Y, Yao S, Cui B, 1996. Research on Mineralization Series. Wuhan: China University of Geosciences Press. 84-88 |
Figures(2)
Copyright © 2013-2020 Journal of Earth Science 鄂ICP备15021562号-2
Tel: +86-27-67885075 Fax: +86-27-67885075 E-mail: xbb@cug.edu.cn
Address: Editorial Office of Journal, China University of Geosciences, Yujiashan, Wuhan, Hubei 430074, P. R. China
Supported by:
Beijing Renhe Information Technology Co. Ltd
E-mail:
info@rhhz.net
DownLoad:
