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Higgins, S. J., Snyder, G. A., Mitchell, J. N., Taylor, L. A., Sharkov, E. V., Bogatikov, O. A., Grokhovskaya, T. L., Chistyakov, A. V., Ganin, V. A., Grinevich, N. G. (1997) Petrology of the Early Proterozoic Burakovsky layered intrusion, southern Karelia, Russia: mineral and whole-rock major-element chemistry. Canadian Journal of Earth Sciences, 34 (4) 390-406 doi:10.1139/e17-034

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Reference TypeJournal (article/letter/editorial)
TitlePetrology of the Early Proterozoic Burakovsky layered intrusion, southern Karelia, Russia: mineral and whole-rock major-element chemistry
JournalCanadian Journal of Earth Sciences
AuthorsHiggins, S. J.Author
Snyder, G. A.Author
Mitchell, J. N.Author
Taylor, L. A.Author
Sharkov, E. V.Author
Bogatikov, O. A.Author
Grokhovskaya, T. L.Author
Chistyakov, A. V.Author
Ganin, V. A.Author
Grinevich, N. G.Author
Year1997 (April 1)Volume34
Issue4
PublisherCanadian Science Publishing
DOIdoi:10.1139/e17-034Search in ResearchGate
Generate Citation Formats
Mindat Ref. ID482940Long-form Identifiermindat:1:5:482940:3
GUID0
Full ReferenceHiggins, S. J., Snyder, G. A., Mitchell, J. N., Taylor, L. A., Sharkov, E. V., Bogatikov, O. A., Grokhovskaya, T. L., Chistyakov, A. V., Ganin, V. A., Grinevich, N. G. (1997) Petrology of the Early Proterozoic Burakovsky layered intrusion, southern Karelia, Russia: mineral and whole-rock major-element chemistry. Canadian Journal of Earth Sciences, 34 (4) 390-406 doi:10.1139/e17-034
Plain TextHiggins, S. J., Snyder, G. A., Mitchell, J. N., Taylor, L. A., Sharkov, E. V., Bogatikov, O. A., Grokhovskaya, T. L., Chistyakov, A. V., Ganin, V. A., Grinevich, N. G. (1997) Petrology of the Early Proterozoic Burakovsky layered intrusion, southern Karelia, Russia: mineral and whole-rock major-element chemistry. Canadian Journal of Earth Sciences, 34 (4) 390-406 doi:10.1139/e17-034
In(1997, April) Canadian Journal of Earth Sciences Vol. 34 (4) Canadian Science Publishing
Abstract/Notes The Early Proterozoic (2449 ± 1.1 Ma) Burakovsky layered intrusion of southern Karelia, Russia, is the largest (700 km2) mafic pluton in the Fennoscandian Shield. The layered series contains two main parts: (i) an ultramafic series (85% dunite), and (ii) a mafic series (mostly gabbros). Mineral and whole-rock chemical variations in the ultramafic zone indicate little variation in chemistry over the entire sequence (e.g., in olivine, variations are from Fo89 to Fo87 over the upper 1600 m). In contrast, the Mg# in pyroxenes from the gabbronorite zone varies from 85 to 58 over an interval of 500 m. On the basis of the current data, there are no apparent reversals in chemistry in the ultramafic zone, whereas there is evidence for several in the gabbronorite zone. Furthermore, there is a distinctive reversal to more primitive compositions in mineral and whole-rock chemistry at the top of the ultramafic zone. These differences indicate that either (i) the gabbronorite zone crystallized from the residue left from formation of the ultramafic zone and the subsequent "flushing" of the more evolved portions to form the Early Proterozoic Karelian volcanic fields, or (ii) there were two separate magmas. Plagioclase crystals from the gabbronorite zone are chemically zoned, providing evidence of the local processes affecting crystallization of this sequence. Plagioclase crystals from near the base commonly display relatively Na-rich cores that are believed to result from either supersaturation at the onset of nucleation or the prior crystallization of some other, Ca-rich phase (e.g., clinopyroxene). Many plagioclase grains also contain reversely zoned rims, indicative of either (i) exchange between trapped liquid and the main magma during times of replenishment; or (ii) an increase in the CIPW-normative plagioclase–liquid partition coefficient for Ca, due to an increase in the augite component of the melt. The lack of evidence for abundant magma influxes in the ultramafic zone contrasts with the chemical reversals observed in the gabbronorite zone, suggesting that replenishment was a prevailing process only in the upper half of the intrusion.

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Sharkov, Evgenii V., Bogatikov, O. A., Grokhovskaya, Tanya L., Chistyakov, A. V., Ganin, Vyacheslav A., Grinevich, Natalia G., Snyder, Gregory A., Taylor, Lawrence A. (1995) Petrology and Ni-Cu-Cr-PGE Mineralization of the Largest Mafic Pluton in Europe: The Early Proterozoic Burakovsky Layered Intrusion, Karelia, Russia. International Geology Review, 37 (6) 509-525 doi:10.1080/00206819509465415
Chistyakov, A. V., Sharkov, E. V., Grokhovskaya, T. L., Bogatikov, O. A., Muravitskaya, G. N., Grinevich, N. G. (2002) Petrology of the Europe-Largest Burakovka early Paleoproterozoic layered pluton (Southern Karelia, Russia) Russian Journal of Earth Sciences, 4 (1) 35-75 doi:10.2205/2002es000080
Grokhovskaya, T. L., Lapina, M. I., Ganin, V. A., & Grinevich, N. G. (2005). PGE mineralization in the Burakovsk Layered Complex, Southern Karelia, Russia. Geology of Ore Deposits C/C of Geologiia Rudnykh Mestorozhdenii, 47(4), 283.
Chistyakov, A. V., Sharkov, E. V. (2008) Petrology of the Early Paleoproterozoic Burakovsky complex, southern Karelia. Petrology, 16 (1) 63-86 doi:10.1134/s0869591108010049
Snyder, Gregory A., Higgins, Stefan J., Taylor, Lawrence A., Jain, Jinesh, Neal, Clive R., Sharkov, Evgenii (1996) Archean Enriched Mantle Beneath the Baltic Shield: Rare-Earth-Element Evidence from the Burakovsky Layered Intrusion, Southern Karelia, Russia. International Geology Review, 38 (5) 389-404 doi:10.1080/00206819709465342
Snyder, Gregory A., Taylor, Lawrence A., Jerde, Eric A., Sharkov, E. V., Liachovitch, V. V., Ledneva, G. V. (1995) Petrology and Chemistry of an Early Proterozoic Lherzolite-Gabbronorite-Anorthosite Pluton of the White Sea Complex, Northern Karelia, Russia. International Geology Review, 37 (6) 547-560 doi:10.1080/00206819509465417
Sharkov, E. V., Chistyakov, A. V., Bogina, M. M., Bogatikov, O. A., Shchiptsov, V. V., Belyatsky, B. V., Frolov, P. V. (2019) Ultramafic–Alkaline–Carbonatite Complexes as a Result of Two-Stage Melting of a Mantle Plume: Evidence from the Mid-Paleoproterozoic Tiksheozero Intrusion, Northern Karelia, Russia. Doklady Earth Sciences, 486 (2) 638-643 doi:10.1134/s1028334x19060084
Bailly, L., Auge, T., Cocherie, A., Trofimov, N. N., Golubev, A. I., Tkachev, A. V., Cherkasov, S. V. (2009) New data on the age of the Burakovsky layered intrusion, Karelia. Doklady Earth Sciences, 426 (1) 534-538 doi:10.1134/s1028334x09040059
Sharkov, E. V., Bogatikov, O. A., Chistyakov, A. V. (2016) Coronitic textures in ferrogabbroids of the Elet’ozero complex (North Karelia, Russia): Evidence for the existence of an immiscible high-Fe melt. Doklady Earth Sciences, 468 (1) 518-522 doi:10.1134/s1028334x1605024x
Bailly, L., Auge, T., Trofimov, N., Golubev, A., Tkachev, A., Cherkasov, S., Cassard, D. (2011) THE MINERALIZATION POTENTIAL OF THE BURAKOVSKY LAYERED INTRUSION, KARELIA, RUSSIA. The Canadian Mineralogist, 49 (6) 1455-1478 doi:10.3749/canmin.49.6.1455
Snyder, G. A., Taylor, L. A., Crozaz, G., Halliday, A. N., Beard, B. L., Sobolev, V. N., Sobolev, N. V. (1997) The Origins of Yakutian Eclogite Xenoliths. Journal of Petrology, 38 (1) 85-113 doi:10.1093/petroj/38.1.85
 
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