Geochemistry, Metasomatism, Mantle, Phlogopite and Peridotite are his primary areas of study. His Geochemistry research includes themes of Craton and Mantle wedge. His Metasomatism research integrates issues from Carbonatite, Eclogite and Amphibole.
His studies in Mantle integrate themes in fields like Petrology and Transition zone. His Phlogopite study frequently links to other fields, such as Xenolith. His work carried out in the field of Peridotite brings together such families of science as Fractional crystallization, Partial melting and Mineralogy, Olivine, Armalcolite.
His main research concerns Geochemistry, Xenolith, Mantle, Metasomatism and Petrology. His Basalt, Peridotite, Ultramafic rock, Olivine and Mafic investigations are all subjects of Geochemistry research. His Xenolith study incorporates themes from Trace element, Eclogite and Volcanic rock.
The various areas that Michel Grégoire examines in his Mantle study include Craton, Lithosphere, Mantle wedge and Transition zone. Michel Grégoire focuses mostly in the field of Metasomatism, narrowing it down to matters related to Amphibole and, in some cases, Phlogopite and Lile. His Petrology study integrates concerns from other disciplines, such as Lithospheric mantle, Volcanic arc and Continental crust.
His primary areas of study are Geochemistry, Xenolith, Mantle, Lithosphere and Olivine. His Geochemistry study frequently links to related topics such as Amphibole. His biological study spans a wide range of topics, including Diorite, Craton and Terrane.
Michel Grégoire works on Mantle which deals in particular with Partial melting. His Olivine study combines topics from a wide range of disciplines, such as Mafic, Peridotite and Incompatible element. His Metasomatism research includes elements of Mantle wedge and Asthenosphere.
Michel Grégoire focuses on Geochemistry, Mantle, Metasomatism, Olivine and Lithosphere. His studies deal with areas such as Ophiolite, Amphibole and Oceanic crust as well as Geochemistry. His works in Xenolith and Partial melting are all subjects of inquiry into Mantle.
The Xenolith study combines topics in areas such as Isochron and Crust. His Partial melting research is multidisciplinary, incorporating perspectives in Peridotite, Orogeny, Magmatism and Mafic. His study looks at the relationship between Metasomatism and fields such as Mantle wedge, as well as how they intersect with chemical problems.
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Hydrous metasomatism of oceanic sub-arc mantle, Lihir, Papua New Guinea: petrology and geochemistry of fluid-metasomatised mantle wedge xenoliths
Brent I.A McInnes;Michel Gregoire;Raymond A Binns;Peter M Herzig.
Earth and Planetary Science Letters (2001)
Garnet Lherzolites from the Kaapvaal Craton (South Africa): Trace Element Evidence for a Metasomatic History
M. Grégoire;D. R. Bell;D. R. Bell;A. P. Le Roex.
Journal of Petrology (2003)
Trace element geochemistry of phlogopite-rich mafic mantle xenoliths: Their classification and their relationship to phlogopite-bearing peridotites and kimberlites revisited
M. Grégoire;D. R. Bell;A. P. Le Roex.
Contributions to Mineralogy and Petrology (2002)
Trace Element Residence and Partitioning in Mantle Xenoliths Metasomatized by Highly Alkaline, Silicate- and Carbonate-rich Melts (Kerguelen Islands, Indian Ocean)
M. Grégoire;B. N. Moine;Suzanne Y. O’Reilly;J. Y. Cottin.
Journal of Petrology (2000)
Juvenile Paleoproterozoic crust evolution during the Eburnean orogeny (~2.2-2.0Ga), western Burkina Faso
Lenka Baratoux;Václav Metelka;Václav Metelka;Séta Naba;Mark W. Jessell.
Precambrian Research (2011)
Amphiboles from suprasubduction and intraplate lithospheric mantle
Massimo Coltorti;Costanza Bonadiman;Barbara Faccini;Michel Grégoire.
Hydrous metasomatism of oceanic sub-arc mantle, Lihir, Papua New Guinea: Part 2. Trace element characteristics of slab-derived fluids
Michel Grégoire;Brent I.A. McInnes;Suzanne Y. O'Reilly.
Silica and volatile-element metasomatism of Archean mantle: a xenolith-scale example from the Kaapvaal Craton
David R. Bell;David R. Bell;M. Grégoire;T. L. Grove;N. Chatterjee.
Contributions to Mineralogy and Petrology (2005)
Origin of Archean subcontinental lithospheric mantle: Some petrological constraints
Nicholas Arndt;Nicolas Coltice;H. Helmstaedt;M. Gregoire.
The volcanic history of central Elysium Planitia: Implications for martian magmatism
J. Vaucher;David Baratoux;N. Mangold;P. Pinet.
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