TY  - SER
AU  - Pavlova,G.G.
AU  - Borisenko,A.S.
AU  - Vladimirov,Alexander G.
AU  - Seifert,Th
AU  - Phan,Luu Anh
AU  - Palessky,S.V.
ED  - Томский государственный университет
TI  - Indium in cassiterite and ores of tin deposits
KW  - индий
KW  - Дальний Восток
KW  - касситерит
KW  - статьи в журналах
N1  - Библиогр.: с. 111-113
N2  - The results obtained with LA-ICP-MS by less abundant lighter 113In isotope and EPMA show that in cassiterite of cassiterite-quartz veins the indium contents do not exceed 160 ppm, while cassiterite from Sn-sulfide veins is characterized by higher indium contents from 40 to 485 ppm; sulfides of Sn-sulfide veins unlike sulfides of cassiterite-quartz veins also have the highest indium contents: Fe-sphalerite (100-25000 ppm), chalcopyrite (up to 1000 ppm), stannite (up to 60000 ppm). Indium contents in the Sn-sulfide ore of the Tigrinoe and Pravourmiiskoe deposits obtained using SR-XRF, ICP-MS and atomic absorption methods range from 10 to 433 ppm with average values of 56 - 65 ppm. Indium-rich Sn-sulfide mineralization in five large Sn-Ag ore districts of the Far East Russia (Khingansky, Badzhalsky, Komsomolsky, Arminsky, Kavalerovsky) provides the impetus for further exploration of deposits with Sn-sulfide mineralization as the most promising indium resources in Russia. Empirical observations from geology and geochronology of cassiterite-quartz and Sn-sulfide mineralization show that the combined contribution from granite and alkaline-subalkaline mafic sources and multistage oreforming processes doubled indium resources of deposits being the main factors in the formation of high grade indium mineralization
UR  - http://vital.lib.tsu.ru/vital/access/manager/Repository/vtls:000529051
ER  -