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标题：Fault Control on Copper Depositsin the Sar Cheshmeh Area Indicated by Remote Sensing & Geographic Information Systems (GIS)
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作者：Hojjat Ollah Safari ; Behnam Shafiei Bafti ; Hassan Mohamadrezaei 等
期刊名称：Journal of Economic Geology
印刷版ISSN：2008-7306
出版年度：2016
卷号：8
期号：1
页码：79-92
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出版社：Ferdowsi University of Mashhad
摘要：Introduction The Sar Cheshmeh copper deposit and indications of other deposits are located in the Dehaj-Sarduieh belt in the Kerman region (Khadem and Nedimovic, 1973). This belt is one of the most important provinces of Cu mineralization in Iran, with approximately 300 Cu deposits and prospects, includingtwenty of the porphyry copper type (Ghorbani, 2013). This belt, 300 km in length and 30–45 km width, is situated in the southern part of the Uramia-Dokhtar volcanic belt in central Iran (Shafiei, 2010). Zarasvandi (2004) has proposed that faulting has played a role in the location of copper deposition in this area. Methods of Investigation In order to check Zarasvandi’s hypothesis, the spatial relationship between faults and Cu deposits was investigated using remote sensing and GIS techniques together with field investigations in the Sar Cheshmeh area. The the following steps were used in this research: 1. Review of available data 2. Surface geology field studies 3. Preparation of digital overlay of Copper occurrences 4. Analysis of the relationshipof faulting to Copper occurrences Using remote sensing techniques, a geometrically corrected satellite image was filtered with high pass and Sharpen Edge filters to detect possible lineaments (Lillesand and Keifer, 2008; Sabins, 1996). Directional filters (45º, 90º, 135º and 180º) were then applied to the processed image to enhance the linear structures. Subsequently,the major lineaments were documented in the field as major and minor faults (Safari et al., 2011). Four main faults, designated as the Rafsanjan, Mani, Gaud-e-Ahmar and Sar Cheshmeh faultswere determined to be major. These faults were digitized and overlaid on other data layers in GIS environment. The strikes, dips, striae and directions of movementof the faultswere measured at 20 locations in the field. Structural analyses were done with Rose diagrams, calculation of P-axes and preparation of a structural map. Copper occurrences on the mineral distribution map of Lotfi, et al. (1993) were used in this study and the locations of somecopper occurrences were determined in the field using GPS. The locations and main characteristics of the copper occurrences were entered into a GIS map. Finally, aniso-fracture map, was prepared using the GIS environment based onfault lengths within a 1000 ×1000 mgrid and on the buffer map of ore occurrences relative to faults. The copper occurrence locations were overlaid on these prepared maps and the relationship between faults and ore occurrences locations was analyzed. v Results This research indicates that: 1.The faults in the Sar Cheshmeh area trend predominantly 090°-110°, 130°-150°, 050°-070° and 170°-190°. 2.The data show that three major NW- trendingfaults, the Mani, Gaud-e-Ahmar and Rafsanjan faults show right-lateral strike-slip movement and the two major E-W trending Sar Cheshmeh and Darreh Zar faults have left-lateral strike-slip displacements. 3. The control of the calculated P-axes shows that at least two older movements have happened along these faults. Discussion The results show that the main faults did not directly control the locations of the mineralized porphyries and veins, but that rather the locations are due tothe second-order faults. Also, the saturated occurrence locations have the closer relationship with main faults and most indexes are located near the Rafsanjan fault and its second-order faults. References Ghorbani, M., 2013. The Economic Geology of Iran: Mineral Deposits and Natural Resources. Springer Science, Business Media Dordrecht, Heidelberg, 581 pp. Khadem, N. and Nedimovic, R., 1973. Exploration for ore deposits in Kerman Region. Geological Survey of Iran, Report Yu/53, 247 pp (in Persian). Lillesand, T.M. and Kiefer, R.W., 2008. Remote sensing and image interpretation. John Wiley and Sons, New York, 756 pp. Lotfi, M., Sadeghi, M.M. and Omrani, S.J., 1993. Mineral distribution map of Iran, scale: 1/1000000. Geologic Survey of Iran. Sabins, F.F., 1996. Remote sensing principle and interpretation. Macmillan Education Australia, New York, 494 pp. Safari, H., Pirasteh, S. and Shattri, B.M., 2011. Role of Kazerun Fault for Localizing Oil Seepage in the Zagros Mountains, Iran: an Application of GiT. International Journal of Remote sensing, 32(1): 1-16. Shafiei, B., 2010. Lead isotope signatures of the igneous rocks and porphyry copper deposits from the Kerman Cenozoic magmatic arc (SE Iran), and their magmatic-metallogenetic implication. Ore Geology Reviews, 38: 27-36. Zarasvandi, A.R., 2004. Geology and genesis of the Darreh-Zerreshk and Ali-Abad copper deposits, Southwest of Yazd, based on fluid inclusion and isotope studies. Ph.D. Thesis, Shiraz University, Shiraz, Iran, 280 pp.