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GEOPHYSICAL FOOTPRINTS OF ENDOGENIC ORE DEPOSITS: SORSKOE COPPER-MOLYBDENUM COMPLEX CASE STUDY

V.V., Spichak, A.G., Goidina

First published: 2015https://doi.org/10.5593/sgem2015/b13/s3.044View metrics

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Title
GEOPHYSICAL FOOTPRINTS OF ENDOGENIC ORE DEPOSITS: SORSKOE COPPER-MOLYBDENUM COMPLEX CASE STUDY
Authors
V.V., Spichak, A.G., Goidina
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 15th International Multidisciplinary Scientific GeoConference SGEM2015, SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2015
Pages
337-344
ISSN
1314-2704
ISBN
978-619-7105-33-9
Language
en
Publication type
Conference Paper
References28
  1. Aleinikov A.L., Nemzorov N.I., Khalevin N.I, 1986. Multiwave seismic exploration for studying of the ore deposits. Moscow, Nedra (in Russian).

  2. Bauer K, Schulze A., Ryberg T., Sobolev S., and Weber M., 2003. Classification of lithology from seismic tomography: a case study from Messum igneous complex, Namibia. J. Geophys. Res., 108, (B3), 2152-2167.

  3. Berger B.R., Ayuso R. A., Wynn J.C. and Seal R.R., 2008. Preliminary Model of Porphyry Copper Deposits. USGS Open-file Report 2008– 1321. -55pp.

  4. Berzina A. P., Berzina А.N., Serov P.A., Gimon V.O., 2010. Sorskoe Cu-Mo porphyric magmatic centre (Kuznetskii Alatau). Dokl. RAS, 430 (1), 78-84.

  5. Chen Xiang-Bin, Lü Qing-Tian, and Yan Jia-Yong, 2012. 3D electrialal structure of porphyry copper deposit: A case study of Shaxi copper deposit. Applied Geophysics, 9 (3), 270-278.

  6. Heinrich C.A., Gunther D., Audetat A., Ulric h T. and Frischknecht R., 1999. Metal fractionation between magmatic brine and vapor, determined by microanalysis of fluid inclusions. Geology, 27, 755– 758.

  7. Henley R.W., McNabb A., 1978. Magmatic vapor plumes and groundwater interaction in porphyry copper emplacement. Economic Geology, 73, 1– 20.

  8. Holliday J. R., Cooke D. R., 2007. Advances in Geological Models and Exploration Methods for Copper and Gold Porphyry Deposits. In: Proc. Fifth Decennial International Conference on Mineral Exploration (ed. B. Milkereit), -809.

  9. Letnikov F.А., 2000. Fluid regime of the endogenic processes in the continental lithosphere and the problems of metallogeny. In: Problemi globalnoi geodinamiki. Мoscow, GEOS, 204-224 (in Russian).

  10. Middlemost E.A.K., 1994. Naming materials in the magma/igneous system. Earth Science Reviews, 37, 215–224.

  11. Sinclair W.D., 2007. Porphyry deposits. Mineral deposits of Canada: Geological Association of Canada Special Publication (Ed. Goodfellow W.D.), 5, 223– 243.

  12. Spichak V. and Goidina A. 2014. Geophysical indicators of the endogenic ore deposits (by the example of the Sorskoe copper-molybdenum complex). Razvedka i ok hrana zemnikh nedr, 10, 47-51 (in Russian).

  13. Ulrich T., Gunther D. and Heinrich C.A., 1999. Gold concentrations of magmatic brines and the metal budget of porphyry copper deposits. Nature, 399, 676–679.

  14. Williams-Jones A.E., Heinrich C.A., 2005. Vapor transport of metals and the formation of magmatic-hydrothermal ore deposits. Economic Geology, 1 00, 1287–1312. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

  15. Aleinikov A.L., Nemzorov N.I., Khalevin N.I, 1986. Multiwave seismic exploration for studying of the ore deposits. Moscow, Nedra (in Russian).

  16. Bauer K, Schulze A., Ryberg T., Sobolev S., and Weber M., 2003. Classification of lithology from seismic tomography: a case study from Messum igneous complex, Namibia. J. Geophys. Res., 108, (B3), 2152-2167.

  17. Berger B.R., Ayuso R. A., Wynn J.C. and Seal R.R., 2008. Preliminary Model of Porphyry Copper Deposits. USGS Open-file Report 2008– 1321. -55pp.

  18. Berzina A. P., Berzina А.N., Serov P.A., Gimon V.O., 2010. Sorskoe Cu-Mo porphyric magmatic centre (Kuznetskii Alatau). Dokl. RAS, 430 (1), 78-84.

  19. Chen Xiang-Bin, Lü Qing-Tian, and Yan Jia-Yong, 2012. 3D electrialal structure of porphyry copper deposit: A case study of Shaxi copper deposit. Applied Geophysics, 9 (3), 270-278.

  20. Heinrich C.A., Gunther D., Audetat A., Ulric h T. and Frischknecht R., 1999. Metal fractionation between magmatic brine and vapor, determined by microanalysis of fluid inclusions. Geology, 27, 755– 758.

  21. Henley R.W., McNabb A., 1978. Magmatic vapor plumes and groundwater interaction in porphyry copper emplacement. Economic Geology, 73, 1– 20.

  22. Holliday J. R., Cooke D. R., 2007. Advances in Geological Models and Exploration Methods for Copper and Gold Porphyry Deposits. In: Proc. Fifth Decennial International Conference on Mineral Exploration (ed. B. Milkereit), -809.

  23. Letnikov F.А., 2000. Fluid regime of the endogenic processes in the continental lithosphere and the problems of metallogeny. In: Problemi globalnoi geodinamiki. Мoscow, GEOS, 204-224 (in Russian).

  24. Middlemost E.A.K., 1994. Naming materials in the magma/igneous system. Earth Science Reviews, 37, 215–224.

  25. Sinclair W.D., 2007. Porphyry deposits. Mineral deposits of Canada: Geological Association of Canada Special Publication (Ed. Goodfellow W.D.), 5, 223– 243.

  26. Spichak V. and Goidina A. 2014. Geophysical indicators of the endogenic ore deposits (by the example of the Sorskoe copper-molybdenum complex). Razvedka i ok hrana zemnikh nedr, 10, 47-51 (in Russian).

  27. Ulrich T., Gunther D. and Heinrich C.A., 1999. Gold concentrations of magmatic brines and the metal budget of porphyry copper deposits. Nature, 399, 676–679.

  28. Williams-Jones A.E., Heinrich C.A., 2005. Vapor transport of metals and the formation of magmatic-hydrothermal ore deposits. Economic Geology, 1 00, 1287–1312. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

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