The article reviews the history, main scientific fields and major results of the studies performed by the Laboratory of Petrology, Geochemistry and Ore Genesis and the Laboratory of Geology and Magmatism of Ancient Platforms.

1. Armbruster T., Lazic B., Gfeller F., Galuskin E.V., Galuskina I.O., Savelyeva V.B., Zadov A.E., Pertsev N.N., Anowski P.D. 2011. Chlorine content and crystal chemistry of dellaite from the birkhin gabbro massif, Eastern Siberia, Russia. Minera- logical Magazine 75 (2), 379-394. http://dx.doi.org/10.1180/minmag.2011.075.2.379.

2. Danilova Yu.V., Shevchenko S.G., Klyba L.V., Danilov B.S., 2012. Composition of soluble carbonaceous material from rocks of the Arshan tectonic zone (southeastern part of the Eastern Sayan). Geochemistry International 50 (2), 185-192. http://dx.doi.org/10.1134/S001670291202005X.

3. Dorogokupets P.I., 2010. P-V-T equations of state of MgO and thermodynamics. Physics and Chemistry of Minerals 37 (9), 677-684. http://dx.doi.org/10.1007/s00269-010-0367-2.

4. Dorogokupets P.I., Sokolova T.S., Danilov B.S., Litasov K.D., 2012. Near-absolute equations of state of diamond, Ag, Al, Au, Cu, Mo, Nb, Pt, Ta, and W for quasi-hydrostatic conditions. Geodynamics & Tectonophysics 3 (2), 129-166. http://dx. doi.org/10.5800/GT-2012-3-2-0067.

5. Egorov K.N., Andryushchenko L.G., Karnaushenko M.G., 2010. The first discovery of impactites from a new astroblem within the South-Western Siberian platform. Doklady Earth Sciences 432 (2), 737-741. http://dx.doi.org/10.1134/S10 28334X1006005X.

6. Egorov K.N., Kiselev A.I., Menshagin Yu.V., Minayeva Yu.A., 2010. Lamproites and kimberlites of Prisayanye: composition, sources, diamond potential. Doklady Earth Sciences 435 (2), 1670-1675. http://dx.doi.org/10.1134/S1028334X101202 51.

7. Egorov K.N., Kiselev A.I., Yarmoluk V.V., Nikiforova A.V., 2011. Composition and sources of magmatism of the Vilyui Middle Paleozoic rift area and the problem of combination of its basic rock and kimberlite derivatives. Doklady Earth Sciences 436 (1), 76-82. http://dx.doi.org/10.1134/S1028334X11010144.

8. Egorov K.N., Melnikov A.I., 2013. Structural-compositional evolution of the kimberlite bodies system from the Udachnaya pipe. Rudy i metally 1, 53-59 (in Russian) [Егоров К.Н., Мельников А.И. Структурно-вещественная эволюция сис¬темы кимберлитовых тел трубки «Удачная» // Руды и металлы. 2013. № 1. С. 53-59].

9. Egorov K.N., Solovyeva L.V., Koshkarev D.A., 2012. Rare element composition of pyropes from lamproites and ancient dis¬persion halo of the South-Western Siberian platform. Doklady Earth Sciences 443 (2), 496-501. http://dx.doi.org/10. 1134/S1028334X12040125.

10. Galuskin E.V., Gfeller F., Savelyeva V.B., Armbruster T., Lazic B., Galuskina I.O., Tobbens D.M., Zadov A.E., Dzier- zanowski P., Pertsev N.N., Gazeev V.M., 2012. Pavlovskyite Ca8(SiO4)2(Si3O10): A new mineral of altered silicate- carbonate xenoliths from the two Russian type localities, Birkhin massif, Baikal Lake area and Upper Chegem caldera, North Caucasus. American Mineralogist 97 (4), 503-512. http://dx.doi.org/10.2138/am.2012.3970.

11. Gfeller F., Armbruster T., Galushkin E.V., Galushkina I.O., Lazic B., Savelyeva V.B., Zadov A.E., Dzierzanovski P., Gazeev V.M., 2013. Crystal chemistry and hydrogen bonding of rustumite Ca10(Si2O7)2(SiO4)(OH)2Cl2 with variable OH, Cl, F. American Mineralogist 98 (2-3), 493-500. http://dx.doi.org/10.2138/am.2013.4257.

12. Grakhanov S.A., Smelov A.P., Egorov K.N., Golubev Yu.K., 2010. Sedimentary-volcanogenic nature of coarse-grained sedi¬ments of the Carnian stage of the North-Eastern Siberian platform - a new type of the primary diamond sources. Ote- chestvennaya geologia 6, 3-13 (in Russian) [Граханов С.А., Смелое А.П., Егоров К.Н., Голубев Ю.К. Осадочно- вулканогенная природа грубообломочных отложений карнийского яруса северо-восточного обрамления Сибир¬ской платформы - нового типа коренных источников алмазов // Отечественная геология. 2010. № 6. С. 3-13].

13. Hultquist G., Szakalos P., Graham M.J., Belonoshko A.B., Sproule G.I., Grasjo L., Dorogokupets P., Danilov B., Astrup T., Wikmark G., Chuah G.-K., Eriksson J.-C., Rosengren A., 2009. Water Corrodes Copper. Catalysis Letters 132 (3-4), 311-316. http://dx.doi.org/10.1007/s10562-009-0113-x.

14. Ivanova L.A., Marchuk M.V., Medvedev B.Y., 2010. Experimental investigation of the fayalite forming in the fluid H2O-H2- NH3. Zapiski RMO 139 (3), 115-121 (in Russian) [Иванова Л.А., Марчук М.В., Медведев В.Я. Экспериментальное исследование образования фаялита во флюиде H2O-H2-NH3 // Записки РМО. 2010. Т. 139. № 3. С. 115-121].

15. Kiselev A.I., Ernst R.E., Yarmolyuk V.V., Egorov K.N. 2012. Radiated rifts and dyke swarms of the middle Paleozoic Yakutsk plume of eastern Siberian craton. Journal of Asian Earth Sciences 45 (2), 1-16. http://dx.doi.org/10.1016Zj.jseaes. 2011.09.004.

16. Kiselev A.I., Yarmoluk V.V., Kolodeznikov I.I., 2010. Comparative characteristics of the Middle Paleozoic and Late Riphean plume magmatism of the Siberian platform (based on the isotopic-geochemical results of the Sette-Daban basic rocks study). Doklady Earth Sciences 430 (1), 70-77. http://dx.doi.org/10.1134/S1028334X10010010.

17. Kopylova M.G., Kostrovitsky S.I., Egorov K.N. 2013. Salts in southern Yakutian kimberlites and the problem of primary alkali kimberlite melts. Earth Science Reviews 119, 1-16. http://dx.doi.org/10.1016/j.earscirev.2013.01.007.

18. Koshkarev D.A., Egorov K.N., Karpenko M.A., Makovchuk I.V., 2010. The main parameters of the diamond potential of ge- ologo-technological types of kimberlite ores from the largest diamond deposit of Yakutia (Yubileinaya pipe). Rudy i met¬ally 4, 27-35 (in Russian) [Кошкарев Д.А., Егоров К.Н., Карпенко М.А., Маковчук И.В. Основные параметры алма- зоносности геолого-технологических типов кимберлитовых руд крупнейшего месторождения алмазов Якутии (трубка Юбилейная) // Руды и металлы. 2010. № 4. С. 27-35].

19. Koshkarev D.A., Egorov K.N., Slagoda Ye.A., Denisenko Ye.P., 2010. Lower Carboniferous pyrope-bearing sediments of the Angara-Uda interfluve and problem of the primary diamond potential within the Southern Siberian platform. Regional- naya geologia i metallogenia 41, 82-92 (in Russian) [Кошкарев Д.А., Егоров К.Н., Слагода Е.А., Денисенко Е.П. Нижнекарбоновые пиропсодержащие отложения Ангаро-Удинского междуречья и проблема коренной алмазо- носности юга Сибирской платформы // Региональная геология и металлогения. 2010. № 41. С. 82-92].

20. Lacis B., Armbruster T., Savelyeva V.B., Zadov A.E., Pertsev N.N., Dzierzanovski P., 2011. Galuskinite, Ca7(SiO4)3(CO3), a new skarn mineral from the Birkhin gabbro massif, Eastern Siberia, Russia. Mineralogical Magazine 75 (5), 2631-2648. http://dx.doi.org/10.1180/minmag.2011.075.5.2631.

21. Letnikov F.A., 2009. Autonomous fluid systems of the continental crust. Doklady Earth Sciences 427 (2), 947-949. http://dx.doi.org/10.1134/S1028334X09060130.

22. Letnikov F.A., Danilov B.S., Dorogokupets P.I., 2011. Energy parameters of deep fluid systems. Doklady Earth Sciences 437 (2), 548-551. http://dx.doi.org/ 10.1134/S1028334X11040210.

23. Letnikov F.A., Ivanova L.A., Medvedev V.Ya., Kuznetsov K.E., 2012. Experimental study of the self-organization process of a fluidized granite melt under decompression. Doklady Earth Sciences 443 (2), 506-508. http://dx.doi.org/10.1134/ S1028334X12040150.

24. Letnikov F.A., Kotov A.B., Degtyarev K.E., Sal'nikova E.B., Levchenkov O.A., Shershakova M.M., Shershakov A.V., Riz- vanova N.G., Makeev A.F., Tolkachev M.D., 2009. Silurian granites of northern Kazakhstan: U-Pb age and tectonic posi¬tion. Stratigraphy and Geological Correlation 17 (3), 275-282. http://dx.doi.org/10.1134/S0869593809030034.

25. Letnikov F.A., Letnikova A.F., Danilov B.S., 2013. Relationship between the Heat and Chemical Energies of Components in Deep Fluid Systems. Doklady Earth Sciences 453 (2), 1234-1236. http://dx.doi.org/10.1134/S1028334X13120106.

26. Letnikov F.A., Levin A.V., 2013. Geochemical correlation between dykes of topaz granites and elvans (Kokchetav block, Northern Kazakhstan). Doklady Earth Sciences 448 (1), 58-60. http://dx.doi.org/10.1134/S1028334X13010054.

27. Letnikov F.A., Zayachkovskii A.A., Letnikova A.F., 2010. On the geochemical specialization of deep-seated high-carbona¬ceous systems. Doklady Earth Sciences 433 (1), 962-965. http://dx.doi.org/10.1134/S1028334X10070251.

28. Levin A.V., Letnikova A.F., 2010. Tourmaline granite of the Kumdykol graphite-diamond deposit. Doklady Earth Sciences 435 (2), 1637-1640. http://dx.doi.org/10.1134/S1028334X10120184.

29. Litasov K.D., Dorogokupets P.I., Ohtani E., Fei Y., Shatskiy A., Sharygin I.S., Gavryushkin P.N., Rashchenko S.V., Seryotkin Y.V., Higo Y., Funakoshi K., Chanyshev A.D., Lobanov S.S., 2013. Thermal equation of state and thermodynamic proper¬ties of molybdenum at high pressures. Journal of Applied Physics 113, 093507. http://dx.doi.org/10.1063/L4794127.

30. Litasov K.D., Gavryushkin P.N., Dorogokupets P.I., Sharygin I.S., Shatskiy A., Fei Y., Rashchenko S.V., Seryotkin Y.V., Higo Y., Funakoshi K., Ohtani E., 2013. Thermal equation of state to 33.5 GPa and 1673 K and thermodynamic properties of tungsten. Journal of Applied Physics 113, 133505. http://dx.doi.org/10.1063/L4799018.

31. Litasov K.D., Sharygin I.S., Shatskii A., Gavryushkin P.N., Dorogokupets P.I., Sokolova T.S., Ohtani E., Dymshits A.M., Ali- firova T.A. 2013. P-V-T Equations of state for iron carbides Fe3C and Fe7C3 and their relationships under the conditions of the Earth's mantle and core. Doklady Earth Sciences 453 (2), 1269-1273. http://dx.doi.org/10.1134/S1028334X 13120192.

32. Litasov, K.D., Sharygin I.S., Dorogokupets P.I., Shatskiy A., P.N. Gavryushkin P.N., Sokolova T.S., Ohtani E., Li J., Funako¬shi K., 2013. Thermal equation of state and thermodynamic properties of iron carbide Fe3C to 31 GPa and 1473 K. Jour¬nal Geophysical Research: Solid Earth 118, 5274-5284. http://dx.doi.org/10.1002/2013JB010270.

33. Litasov K.D., Shatskiy A., Gavryushkin P.N., Sharygin I.S., Dorogokupets P.I., Dymshits A.M., Ohtani E., Higo Y., Funakoshi K., 2013. P-V-T equation of state of siderite to 33 GPa and 1673 K. Physics of the Earth and Planetary Interiors 224, 83¬87. http://dx.doi.org/10.1016/j.pepi.2013.07.011.

34. Sapozhnikov A.N., Kaneva E.V., Cherepanov D.I., Suvorova L.F., Levitsky V.I., Ivanova L.A., Reznitsky L.Z., 2012. Vladi- mirivanovite, Na6Ca2[Al6Si6O24](SO4,S3,S2,Cl)2-H2O, a new mineral of sodalite group. Geology of Ore Deposits 54 (7), 557-564. http://dx.doi.org/10.1134/S1075701512070070.

35. Savel'eva V.B., Bazarova E.P., 2012. The Early Proterozoic Primorskii complex of rapakivi granites (western Cisbaikalia): Geochemistry, crystallization conditions, and ore potential. Russian Geology and Geophysics 53 (2), 147-168. http://dx. doi.org/10.1016/j.rgg.2011.12.012.

36. Savel'eva V.B., Bazarova E.P., Karmanov N.S., 2011. Accessory minerals from the Primorsky rapakivi granite complex, West Baikal Region. Geology of Ore Deposits 53 (8), 708-722. http://dx.doi.org/10.1134/S1075701511080149.

37. Savel'eva V.B., Karmanov N.S., 2010. Quartz-albite-microcline metasomatic rocks in the main Sayan faault zone: evolution of metasomatism and composition of accessory minerals. Geology of Ore Deposits 52 (4), 302-321. http://dx.doi.org/ 10.1134/S1075701510040057.

38. Savel'eva V.B., Presnyakov S.L., Lepekhina E.N., Larionov A.N., Bazarova E.P., 2012. Principle stages of granite and pegma¬tite formation in the southeastern part of the Main Sayan Fault. Doklady Earth Sciences 442 (1), 49-55. http://10.1134/ S1028334X12010291.

39. Shumilova T.G., Danilova Yu.V., 2009. New genetic type of graphite in connection with travertines. Doklady Earth Sciences 428 (1), 1171-1173. http://dx.doi.org/10.1134/S1028334X09070290.

40. Shumilova T.G., Danilova Yu.V., Gorbunov M.V., Isaenko S.I., 2011. Natural monocrystalline a-carbyne. Doklady Earth Sciences 436 (1), 152-154. http://dx.doi.org/10.1134/S1028334X11010314.

41. Sokolova T.S., Dorogokupets P.I., Litasov K.D., 2013. Self-consistent pressure scales based on the equations of state for ruby, diamond, MgO, B2-NaCl, as well as Au, Pt, and other metals to 4 Mbar and 3000 K. Russian Geology and Geophysics 54 (2), 181-199. http://dx.doi.org/10.1016/j.rgg.2013.01.005.

42. Solov'eva L.V., Yasnygina T.A., Egorov K.N. 2012. Metasomatic parageneses in deep-seated xenoliths from pipes Udachnaya and Komsomol'skaya-Magnitnaya as indicators of fluid transfer through the mantle lithosphere of the Siberian craton. Russian Geology and Geophysics 53 (12), 1304-1323. http://dx.doi.org/10.1016/j.rgg.2012.10.004.

43. Solovyeva L.V., Yasnygina T.A., Koroluk V.N., Egorov K.N., 2010. Geochemical evolution of deep fluids in the mantle litho¬sphere of the Siberan craton during the Middle Paleozoic kimberlite cycle. Doklady Earth Sciences 434 (2), 1330-1336. http://dx.doi.org/10.1134/S1028334X10100090.

44. Turkina O.M., Letnikov F.A., Levin A.V., 2011. Mesoproterozoic granitoids of the Kokchetav microcontinent basement. Dok¬lady Earth Sciences 436 (2), 176-180. http://dx.doi.org/10.1134/S1028334X11020103.