Инд. авторы: Alifirova T.A., Rezvukhin D.I., Nikolenko E.I., Pokhilenko L.N., Zelenovskiy P., Sharygin I.S., Korsakov A.V., Shur V.
Заглавие: Micro-Raman study of crichtonite group minerals enclosed into mantle garnet
Библ. ссылка: Alifirova T.A., Rezvukhin D.I., Nikolenko E.I., Pokhilenko L.N., Zelenovskiy P., Sharygin I.S., Korsakov A.V., Shur V. Micro-Raman study of crichtonite group minerals enclosed into mantle garnet // Journal of Raman Spectroscopy. - 2020. - Vol.51. - Iss. 9. - P.1493-1512. - ISSN 0377-0486. - EISSN 1097-4555.
Идентиф-ры: DOI: 10.1002/jrs.5979; РИНЦ: 45314995; WoS: 000569081500001;
Реферат: eng: We report the first comprehensive micro-Raman study of crichtonite group minerals (CGM) as inclusions in pyropic garnet grains from peridotite and pyroxenite mantle xenoliths of the Yakutian kimberlites as well as in garnet xenocrysts from the Aldan shield lamprophyres (Russia). The CGM form (i) morphologically oriented needles, lamellae, and short prisms and (ii) optically unoriented subhedral to euhedral grains, either single or intergrown with other minerals. We considered common mantle-derived CGM species (like loveringite, lindsleyite, and their analogues), with Ca, Ba, or Sr dominating in the dodecahedral A site and Zr or Fe in the octahedral B site. The Raman bands at the region of 600-830 cm(-1)are indicative of CGM and their crystal-chemical distinction, although the intensity and shape of the bands appear to be dependent on laser beam power and wavelength. The factor-group analysis based on the loveringite crystal structure showed the octahedral and tetrahedral cation groups with 18fand 6cWyckoff positions, namely, dominantlyTiO(6)and to a lower extentCrO(6),MgO4, andFeO(4)groups, to be the major contributors to the Raman spectral features. The ionic groups with dodecahedral (M0) and octahedral (M1) coordination are inactive for Raman scattering while active in infrared absorption. A number of observed Raman modes in the CGM spectra are several times lower than that predicted by the factor group analysis. The noticed broadening of modes in the CGM Raman spectra may result from a combining of bands at the narrow frequency shift regions. Solid solution behavior, luminescence, and partial metamictization of the CGM may exert additional influence on the Raman band shape. The Raman spectral features showed CGM to be accurately identified and distinguished from other Ti-, Fe-, Cr-, and Zr-containing oxides (e.g., ilmenite or those of spinel and magnetoplumbite groups) occurring as accessory mantle minerals.
Ключевые слова: PERIDOTITES; MEMBER; METASOMATISM; INCLUSIONS; HIGH-PRESSURE; NORTHWESTERN ONTARIO; CRYSTAL-STRUCTURE; INTERNATSIONALNAYA KIMBERLITE PIPE; Raman spectroscopy; pyrope; oriented inclusions; mantle xenoliths; crichtonite group minerals; SYNTHETIC LOVERINGITE; YIMENGITE;
Издано: 2020
Физ. хар-ка: с.1493-1512
Цитирование: 1. T. Armbruster, M. Kunz, Eur. J. Mineral. 1990, 2, 163.
2. P. Orlandi, M. Pasero, G. Duchi, F. Olmi, Am. Mineral. 1997, 82, 807.
3. I. E. Grey, D. J. Lloyd, J. S. White, 1976, 61, 1203.
4. P. A. Wülser, N. Meisser, J. Brugger, K. Schenk, S. Ansermet, M. Bonin, F. Bussy, Eur. J. Mineral. 2005, 17, 933.
5. P. A. Wülser, J. Brugger, N. Meisser, Bull. Liaison Soc. Fr. Minéral. Cristallogr 2004, 16, 76.
6. I. E. Grey, B. M. Gatehouse, Can. Mineral. 1978, 16, 63.
7. B. M. Gatehouse, I. E. Grey, Am. Mineral. 1979, 64, 1010.
8. R. L. Frost, B. J. Reddy, Rad. Effects Defects Solids 2011, 166, 131.
9. E. Bittarello, M. E. Ciriotti, E. Costa, L. M. Gallo, Int. J. Mineral. 2014, 14, 6.
10. A. P. Jones, V. Ekambaram, Am. Mineral. 1985, 70, 414.
11. S. J. Mills, L. Bindi, M. Cadoni, A. R. Kampf, M. E. Ciriotti, G. Ferraris, Eur. J. Mineral. 2012, 24, 1061.
12. C. Biagioni, P. Orlandi, M. Pasero, F. Nestola, L. Bindi, Eur. J. Mineral. 2014, 26, 427.
13. L. A. Filho, N. V. Chukanov, R. K. Rastsvetaeva, S. M. Aksenov, I. V. Pekov, M. L. Chaves, R. P. Richards, D. Atencio, P. R. Brandão, R. Scholz, Mineral. Mag. 2015, 79, 269.
14. X. Ge, G. Fan, G. Li, G. Shen, Z. Chen, Y. Ai, Eur. J. Mineral. 2017, 29, 331.
15. B. M. Gatehouse, I. E. Grey, I. H. Campbell, P. Kelly, Am. Mineral. 1978, 63, 28.
16. S. E. Haggerty, Geochim. Cosmochim. Acta 1983, 47, 1833.
17. J. Zhang, J. Ma, L. Li, Geol. Rev. 1988, 34, 132.
18. J. Konzett, H. Yang, D. J. Frost, J. Petrol. 2005, 46, 749.
19. B. M. Gatehouse, I. E. Grey, J. R. Smyth, Acta Crystallog. Sec. C 1983, C39, 421.
20. R. G. Platt, R. H. Mitchell, Mineral. Mag. 1996, 60, 403.
21. E. G. Potter, R. H. Mitchell, Contrib. Mineral. Petrol. 2005, 150, 212.
22. E. I. Nikolenko, I. S. Sharygin, T. A. Alifirova, A. V. Korsakov, P. S. Zelenovskiy, V. Y. Shur, J. Raman Spectros. 2017, 48, 1597.
23. A. Y. Barkov, M. E. Fleet, R. F. Martin, Y. P. Shikov'Men, Eur. J. Mineral. 2006, 18, 493.
24. D. I. Rezvukhin, V. G. Malkovets, I. S. Sharygin, I. G. Tretiakova, W. L. Griffin, S. Y. O'Reilly, Lithos 2018, 308, 181.
25. B. Lafuente, R. T. Downs, H. Yang, N. Stone, Highlights in mineralogical crystallography, Walter de Gruyter GmbH, Berlin, 2016, 1.
26. M. Grégoire, D. Bell, A. L. Roex, Contrib. Mineral. Petrol. 2002, 142, 603.
27. C. Ma, J. R. Beckett, H. C. Connolly, G. R. Rossman, in Lunar and Planetary Science Conference, Vol. 44, The Woodlands, Texas, U.S.A. 2013, 1443.
28. R. C. Rouse, D. R. Peacor, Am. Mineral. J. Earth Planet. Mater. 1968, 53, 869.
29. M. E. Fleet, C. M. D. Almeida, N. Angeli, Can. Mineral. 2002, 40, 341.
30. D. J. Mossman, Can. Mineral. 1985, 23, 495.
31. R. Cabella, M. Gazzotti, G. Lucchetti, Can. Mineral. 1997, 35, 899.
32. A. Giuliani, D. Phillips, R. Maas, J. D. Woodhead, M. A. Kendrick, A. Greig, R. A. Armstrong, D. Chew, V. S. Kamenetsky, M. L. Fiorentini, Earth Planet. Sci. Lett. 2014, 401, 132.
33. G. Săbău, A. Alberico, Studia Univ. Babes-Bolyai Geologia 2007, 52, 55.
34. V. Almeida, V. Janasi, D. Svisero, F. Nannini, Open Geosci. 2014, 6, 614.
35. W. L. Gong, R. C. Ewing, L. M. Wang, H. S. Xie, MRS Online Proc. Library Arch. 1994, 353, 807.
36. W. J. Buykx, K. Hawkins, D. M. Levins, H. Mitamura, R. S. C. Smart, G. T. Stevens, K. G. Watson, D. Weedon, T. J. White, J. Am. Ceram. Soc. 1988, 71, 678.
37. L. Wang, E. J. Essene, Y. Zhang, Contrib. Mineral. Petrol. 1999, 135, 164.
38. S. E. Haggerty, Rev. Mineral. Geochem. 1991, 25, 355.
39. D. I. Rezvukhin, V. G. Malkovets, I. S. Sharygin, D. V. Kuzmin, A. A. Gibsher, K. D. Litasov, N. P. Pokhilenko, N. V. Sobolev, Dokl. Earth Sci. 2016, 466, 206.
40. T. A. Alifirova, L. N. Pokhilenko, Y. I. Ovchinnikov, C. L. Donnelly, A. J. V. Riches, L. A. Taylor, Int. Geol. Rev. 2012, 54, 1071.
41. D. I. Rezvukhin, T. A. Alifirova, A. V. Korsakov, A. V. Golovin, Am. Mineral. 2019, 104, 761.
42. K. Sakamaki, Y. Sato, Y. Ogasawara, Prog. Earth Planet. Sci. 2016, 3, 20.
43. P. Orlandi, M. Pasero, N. Rotiroti, F. Olmi, F. Demartin, Y. Moëlo, Eur. J. Mineral. 2004, 16, 171.
44. N. V. Sobolev, E. S. Yefimova, Int. Geol. Rev. 2000, 42, 758.
45. D. Spengler, T. A. Alifirova, Lithos 2019, 326.
46. G. P. Brey, T. Köhler, J. Petrol. 1990, 31, 1353.
47. P. Nimis, H. Grütter, Contrib. Mineral. Petrol. 2010, 159, 411.
48. H. Grútter, D. Latti, A. Menzies, J. Petrol. 2006, 47, 801.
49. D. L. Whitney, B. W. Evans, Am. Mineral. 2010, 95, 185.
50. H. S. Grütter, J. J. Gurney, A. H. Menzies, F. Winter, Lithos 2004, 77, 841.
51. A. J. Locock, Comput. Geosci. 2008, 34, 1769.
52. E. Kroumova, M. I. Aroyo, J. M. Perez-Mato, A. Kirov, C. Capillas, S. Ivantchev, H. Wondratschek, Phase Transit. 2003, 76, 155.
53. R. C. Peterson, I. E. Grey, L. M. D. Cranswick, C. Li, Can. Mineral. 1998, 36, 763.
54. A. Wang, B. L. Jolliff, K. E. Kuebler, L. A. Haskin, Am. Mineral. 2004, 89, 665.
55. M. Wojdyr, J. Appl. Crystallography 2010, 1126.
56. T. Laetsch, R. T. Downs, in 19th General Meeting of the International Mineralogical Association, Vol. 23, Kobe, Japan, 2006, 28.
57. B. A. Kolesov, C. A. Geiger, Phys. Chem. Miner. 1998, 25, 142.
58. C. Lenz, L. Nasdala, D. Talla, C. Hauzenberger, R. Seitz, U. Kolitsch, Chem. Geol. 2015, 415, 1.
59. S. Foley, H. Höfer, G. Brey, Contrib. Mineral. Petrol. 1994, 117, 164.
60. T. H. Green, N. J. Pearson, Mineral. Mag. 1987, 51, 145.
61. N. V. Sobolev, E. S. Yefimova, F. V. Kaminsky, L. V. Usova, in Composition and Processes of Deep-Seated Zones of Continental lithosphere: International Symposium, Novosibirsk 1988, 185.
62. N. V. Sobolev, F. V. Kaminsky, W. L. Griffin, E. S. Yefimova, T. T. Win, C. G. Ryan, A. I. Botkunov, Lithos 1997, 39, 135.
63. I. Leost, T. Stachel, G. P. Brey, J. W. Harris, I. D. Ryabchikov, Contrib. Mineral. Petrol. 2003, 145, 15.
64. G. P. Bulanova, E. Muchemwa, D. G. Pearson, B. J. Griffin, S. P. Kelley, S. Klemme, C. B. Smith, Lithos 2004, 77, 181.
65. S. E. Haggerty, A. J. Erlank, I. E. Grey, Nature 1986, 319, 761.
66. A. P. Jones, J. V. Smith, J. B. Dawson, J. Geology 1982, 90, 435.
67. F. Kalfoun, D. Ionov, C. Merlet, Earth Planet. Sci. Lett. 2002, 199, 49.
68. A. J. Erlank, F. G. Waters, C. J. Hawkesworth, S. E. Haggerty, H. L. Allsopp, R. S. Rickard, M. A. Menzies, in Mantle Metasomatism, Academic Press, London 1987, 221.
69. P. H. Nixon, E. Condliffe, Mineral. Mag. 1989, 53, 305.
70. D. Velde, Am. Mineral. 2000, 85, 420.
71. S. Vrana, J. Geosci. 2008, 53, 17.
72. S. I. Kostrovitsky, V. K. Garanin, in International Kimberlite Conference: Extended Abstracts, Vol. 5, Rio de Janeiro, Brazil 1991, 525.
73. L. Ziberna, P. Nimis, A. Zanetti, A. Marzoli, N. V. Sobolev, J. Petrol. 2379, 2013, 54.
74. A. Varlamov, V. K. Garanin, S. I. Kostrovitskiy, Dokl. Akad. Nauk 1995, 345, 364.
75. D. I. Rezvukhin, T. A. Alifirova, A. V. Golovin, A. V. Korsakov, Minerals 2020, 10, 264.
76. J. Konzett, R. A. Armstrong, D. Günther, Contrib. Mineral. Petrol. 2000, 139, 704.