| Инд. авторы: | Bortnikov N.S., Kryazhev S.G., Gorelikova N.V., Smirnov S.Z., Gonevchuk V.G., Semenyak B.I., Dubinina E.O., Sokolova E.N. |
| Заглавие: | The physicochemical conditions of tin deposit formation from the badzhal ore district (priamurye, russia) |
| Библ. ссылка: | Bortnikov N.S., Kryazhev S.G., Gorelikova N.V., Smirnov S.Z., Gonevchuk V.G., Semenyak B.I., Dubinina E.O., Sokolova E.N. The physicochemical conditions of tin deposit formation from the badzhal ore district (priamurye, russia) // Experiment in GeoSciences. - 2018. - Vol.24. - Iss. 1. - P.131-137. - ISSN 0869-2904. |
| Внешние системы: | РИНЦ: 36841938; |
| Реферат: | eng: Based on the study of melt, combined fluid-melt and fluid inclusions and oxygen isotopes in quartz of the Urmi massive granite from the Badzhal volcanoplutonic zone and minerals from ore zones, physicochemical conditions of the formationof the Pravo-Urmi and Blizhnee tin-tungsten deposits have been revealed.
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| Ключевые слова: | ore formation conditions; oxygen isotopes; thermobaric geochemistry; fluid-melt inclusions; fluid; melt; tin-tungsten deposits; Badzhal; |
| Издано: | 2018 |
| Физ. характеристика: | с.131-137 |
| Цитирование: | 1. Kryazhev S.G., Prokof'ev V.Yu., Vasyuta Yu.V. Usage ICP MS method when analyzing the composition of ore-forming fluids from hydrothermal ore deposits//Vestnik of Moscow State University. 2006. Series 4. Geology. No4. P.30-36.
2. Ognyanov N.V.Geology of tin-bearing districts and deposits of Khingan-Okhotsk tin province//Geologyof tin deposits SSSR. Nedra:1986. Т.2. Volume 1. P. 280-340.In Russian.
3. Rodder E. Fluid inclusions in minerals. Moscow:Mir.1987. 560 p
4. Rodionov S.M. Metallogeny of tin at Vostok of Russia. Moscow: Nauka. 2005.327 p.(In Russian).
5. Semenyak B.I., Rodionov S.M., Gonevchuk V.G. et al.Tin-tungsten greizens, stoc kworks and quartz veins of Pravo-Urmi deposit//Geodynamics, magmatism and metalljgeny of Russian East. Edited by A.I.Khanchuk. Vladivostok: Dal'nauka. 2006. Volume.2. P. 611-619(In Russian).
6. Atkinson A.B.A model for the PTX properties of H2O-NaCl. Mc.Thesis, Virginia Tech. Institute and State Univ. 2002.
7. Foure G., Mensing T.Isotopes: principles and applications./John Wiley & Sons, Inc., Hoboken, New Jersey. 2005. 897 p.
8. Selby D., Nesbitt B.E., Muehlenbachs K.Hydrothermal alteration and luid chemistry of the Endako porphyry molybdenum deposit, British Columbia.Econ Geol 95:2000 P. 83-202.
9. Sourirajan S., Kennedy G.C. The system H2O-NaCl at elevated temperatures and pressures.Amer. J. of Sci. V.260. 1962. P. 115-141.
10. Zhang L.G., Liu J.X.,Chen Z.S., Zhou H.B. Experimental investigations of oxygen isotope fractionation in cassiterite and wolframite. Economic Geology, 1994.89.150-157.
11. Zheng Y.F. Calculation of oxygen isotope fractionation in hydroxyl-bearing silicates. Earth and Planetary Science Letters 1993.120.247-263.
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