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D. Lambert, J. Ruíz (1999)
Application of Radiogenic Isotopes to Ore Deposit Research and Exploration, 12
I. Ashchepkov, N. Vladykin, T. Ntaflos, H. Downes, R. Mitchell, A. Smelov, N. Alymova, S. Kostrovitsky, A. Rotman, G. Smarov, I. Makovchuk, Yuri Stegnitsky, E. Nigmatulina, O. Khmelnikova (2013)
Regularities and mechanism of formation of the mantle lithosphere structure beneath the Siberian Craton in comparison with other cratonsGondwana Research, 23
T. Stachel, R. Luth (2015)
Diamond formation — Where, when and how?Lithos, 220
N. Sobolev, A. Logvinova, D. Zedgenizov, Y. Seryotkin, E. Yefimova, C. Floss, L. Taylor (2004)
Mineral inclusions in microdiamonds and macrodiamonds from kimberlites of Yakutia: a comparative studyLithos, 77
M. Field, J. Stiefenhofer, J. Robey, S. Kurszlaukis (2008)
Kimberlite-hosted diamond deposits of southern Africa: A reviewOre Geology Reviews, 34
V. Stagno, D. Ojwang, C. McCammon, D. Frost (2013)
The oxidation state of the mantle and the extraction of carbon from Earth’s interiorNature, 493
(2018)
The diamondiferous mantle root beneath the central Slave cratonz
I. Ashchepkov, A. Logvinova, Z. Spetsius, H. Downes (2021)
Thermobarometry of Diamond Inclusions: Evidence Mantle Evolution beneath Siberian Craton and Archean Cratons Worldwide.
I. Ashchepkov, T. Ntaflos, A. Logvinova, Z. Spetsius, H. Downes, N. Vladykin (2017)
Monomineral universal clinopyroxene and garnet barometers for peridotitic, eclogitic and basaltic systemsGeoscience frontiers, 8
A. Moore (2009)
Type II diamonds: Flamboyant Megacrysts?South African Journal of Geology, 112
N. Korolev, M. Kopylova, J. Gurney, A. Moore, J. Davidson (2018)
The origin of Type II diamonds as inferred from Cullinan mineral inclusionsMineralogy and Petrology, 112
A. Stefano, N. Lefebvre, M. Kopylova (2006)
Enigmatic diamonds in Archean calc-alkaline lamprophyres of Wawa, southern Ontario, CanadaContributions to Mineralogy and Petrology, 151
P. Nimis, W. Taylor (2000)
Single clinopyroxene thermobarometry for garnet peridotites. Part I. Calibration and testing of a Cr-in-Cpx barometer and an enstatite-in-Cpx thermometerContributions to Mineralogy and Petrology, 139
I.V. Ashchepkov, N.V. Vladykin, T. Ntaflos, H. Downes, R. Mitchel, A.P. Smelov, A.Ya. Rotman, Yu. Stegnitsky, G.P. Smarov, I.V. Makovchuk, E.N. Nigmatulina, O.S. Khmelnikova (2013)
Regularities of the mantle lithosphere structure and formation beneath Siberian craton in comparison with other cratons, 23
I. Ashchepkov, N. Pokhilenko, N. Vladykin, A. Logvinova, V. Afanasiev, L. Pokhilenko, S. Kuligin, E. Malygina, N. Alymova, S. Kostrovitsky, A. Rotman, S. Mityukhin, M. Karpenko, Yuri Stegnitsky, Olga Khemelnikova (2010)
Structure and evolution of the lithospheric mantle beneath Siberian craton, thermobarometric studyTectonophysics, 485
A. Logvinova, L. Taylor, C. Floss, N. Sobolev (2005)
Geochemistry of Multiple Diamond Inclusions of Harzburgitic Garnets as Examined In SituInternational Geology Review, 47
Acta Geologica Sinica (English Edition) – Wiley
Published: Nov 1, 2021
Keywords: diamond inclusions; craton; garnet; clinopyrogene; orthopyroxene; geothermal regime; manle lithosphere
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