Вестник МГТУ. 2017, том 20, № 1/1.

Вестник МГТУ. 2017. Т. 20, № 1/1. С. 72–82. DOI: 10.21443/1560-9278-2017-20-1/1-72-82 79 15. Wager L. R., Brown G. M. Layered igneous rocks. Edinburgh & London: Oliver & Boyd, 1968. 588 p. 16. Day J., Pearson D. G., Hulbert L. Re-Os isotope and PGE constraints on the origin and evolution of the 1.27 Ga Muskox layered intrusion // J. Petrol. 2008. V. 49, N 7. Р. 1255–1295. 17. Dawson P., Hargreave M. M., Wilkinson G. R. The vibrational spectrum of zircon (ZrSiO 4 ) // J. Phys. C: Solid St. Phys. 1971. V. 4. P. 240–256. 18. Hoskin P. W. O., Rodgers K. A. Raman spectral shift in the isomorphous series (Zr 1- x Hf x )SiO 4 // Eur. J. Solid State Inorg. Chem. 1996. V. 33. P. 1111–1121. 19. Kolesov B. A., Geiger C. A., Armbruster T. The dynamic properties of zircon studied by single- crystal X-ray diffraction and Raman spectroscopy. Eur J Mineral. 2001. N 13. P. 939–948. 20. Nasdala L., Zhang M., Kempe U., Panczer G., Gaft M., Andrut M., Plotze M. Spectroscopic methods applied to zircon // Zircon. Reviews in Mineralogy & Geochemistry. 2003. V. 53. P. 427–467. 21. Presser V., Glotzbach C. Metamictization in zircon: Raman investigation following a Rietveld approach. Part II: Sampling depth implication and experimental data // Journal of Raman spectroscopy. 2009. V. 40. P. 499–508. 22. Freeman J. J., Wang A., Kuebler K. E., Joliff B. L., Haskin L. A. Characterization of natural feldspars by Raman spectroscopy for future planetary exploration // Can. Mineral. 2008. V. 46. P. 1477–1500. 23. Mernagh T. P., Liu L. Raman spectra from the Al 2 SiO 5 polymorphs at high pressure and room temperature // Physics and Chemistry of Minerals. 1991. N 18. P. 126–130. 24. Titorenkova R., Mihailova B., Konstantinov L. Raman spectroscopic study of variably recrystallized metamict zircon from amphibolite-facies metagranites, Serbo-Macedonian massif, Bulgaria // Canadian Mineralogist. 2006. V. 44. P. 1357–1366. 25. Nasdala L., Irmer G., Wolf D. The degree of metamictization in zircon: a Raman spectroscopic study // Eur. J. Mineral. 1995. N 7. P. 471–478. 26. Zhang M., Salje E. K. H., Farnan I., Graeme-Barber A., Daniel P., Ewing R. C., Clark A. M., Leroux H. Metamictization of zircon: Raman spectroscopic study // J. Phys. 2000. N 12. P. 1915–1925. 27. Stöffler D., Ostertag R., Jammes C., Pfannschmidt G. Shock metamorphism and petrology of the Shergotty achondrite // Geochimica et Cosmochimica Acta. 1986. V. 50. P. 889–903. 28. Wittmann A., Kenkmann T., Schmitt R. T., Stöffler D. Shock-metamorphosed zircon in terrestrial impact craters // Meteoritics & Planetary Science. 2006. V. 41, N 3. P. 433–454. References 1. Amelin Y. V., Semenov V. S. Nd and Sr isotopic geochemistry of mafic layered intrusions in the eastern Baltic Shield: implications for the evolution of Paleoproterozoic continental mafic magmas // Contrib Mineral Petrol. 1996. V. 124. P. 255–272. 2. Puchtel I. S., Haase K. M., Hofmann A. W., Chauvel C., Kulikov V. S., Garbe-Schonberg C. D., Nemchin A. A. Petrology and geochemistry of crustally contaminated komatiitic basalts from the Vetreny Belt, southeastern Baltic Shield: evidence for an early Proterozoic mantle plume beneath rifted Archaean continental lithosphere // Geochim Cosmochim Acta. 1997. V. 61. P. 1205–1222. 3. Hanski E., Walker R. J., Huhma H., Suominen I. The Os and Nd isotopic systematics of the c. 2.44 Ga Akanvaara and Koitelainen mafic layered intrusions in northern Finland // Precam Research. 2001. V. 109. P. 73–102. 4. Yang S.-H., Hanski E., Li C., Maier W. D., Huhma H., Mokrushin A. V., Latypov R., Lahaye Y., O'Brien H., Qu W.-J. Mantle source of the 2.44–2.50-Ga mantle plume-related magmatism in the Fennoscandian Shield: evidence from Os, Nd, and Sr isotope compositions of the Monchepluton and Kemi intrusions // Miner Deposita. 2016. DOI 10.1007/s00126-016-0673-9. 5. Jones A. P., Price G. D., Price N. J., DeCarli P. S., Clegg R. A. Impact-induced melting and the development of large igneous provinces // Earth and Planetary Science Letters. 2002. V. 202. P. 551–561. 6. Glikson A. Y., Vickers J. Asteroid impact connections of crustal evolution // Australian Journal of Earth Sciences. 2010. V. 57. P. 79–95. 7. Gluhovskiy M. Z., Kuzmin M. I. Kotuykanskaya koltsevaya struktura: vozmozhnoe svidetelstvo masshtabnogo impaktnogo sobytiya na severe Sibirskogo kratona [The Kotuikan ring structure as possible evidence for a large impact event in the northern Siberian craton] // Geologiya i geofizika. 2013. V. 54, N 1. P. 3–26. 8. Nerovich L. I., Bayanova T. B., Kunakkuzin E. L., Bazay A. V., Nekipelov D. A. Novye rezultaty geologo-petrograficheskogo i geohimicheskogo izucheniya rassloennogo massiva Yarva-varaka, Monchegorskiy rudnyi rayon [New results of geological-petrographic and geochemical study of layered Jarva-varaka massif, Monchegorsk ore region] // Trudy Fersmanovskoy nauchnoy sessii GI KNTs RAN. 2015. V. 12. P. 141–146. 9. Grieve R. A. F. An impact model for the Sudbury structure // Proceedings of the Sudbury-Noril'sk Symposium: Ontario Geological Survey Special Volume. 1994. V. 5. P. 119–132. 10. Naldrett A. Dzh. Magmaticheskie sulfidnye mestorozhdeniya medno-nikelevyh i platinometalnyh rud [Magmatic sulfide deposits of copper-nickel and PGM ores]. SPb. : Izd-vo SPbGU, 2003. 487 p.