, “Fluid-chemical evidence for one billion years of fluid flow through Mesoproterozoic deep-water carbonate mounds (Nanisivik zinc district, Nunavut)”, Geochimica et Cosmochimica ActaGeochimica et Cosmochimica Acta, vol. 223, pp. 493-519, 2018.
, “Foretite, a new secondary arsenate mineral from the Cap Garonne mine, France”, Mineralogical Magazine, vol. 76, pp. 769-775, 2012.
Compilation and indexing terms, Copyright 2018 Elsevier Inc.20122815232197Acidic conditionsarsenateEmpirical formulasFormal DescriptionFranceLanguedoc-roussillonNew mineralSpace Groups
, “Forêtite, a new secondary arsenate mineral from the Cap Garonne mine, France”, Mineralogical MagazineMineralogical Magazine, vol. 76, pp. 769-775, 2012.
, “Formation of a late-orogenic conglomeratic sequence in the Neoarchean western Wabigoon terrane, Superior craton”, Precambrian Research, vol. 406, p. 107394, 2024.
, “Formation of Archean greenstone belts: Insights from an assemblage-scale study in the western Superior craton”, Precambrian Research, vol. 395, p. 107150, 2023.
, “The formation of Neoarchean continental crust in the south-east Superior Craton by two distinct geodynamic processes”, Precambrian Research, vol. 356, p. 106104, 2021.
, “Formation of oxidized sulfur-rich magmas in Neoarchaean subduction zones”, Nature Geoscience, 2022.
, “The formation of the Sudbury breccia in the North Range of the Sudbury impact structure”, Precambrian ResearchPrecambrian Research, vol. 165, pp. 107-119, 2008.
, “The formation of the Sudbury breccia in the North Range of the Sudbury impact structure”, Precambrian ResearchPrecambrian Research, vol. 165, pp. 107-119, 2008.
GeoRef, Copyright 2018, American Geological Institute.2009-036037North Range
, “Forward modeling of radio imaging (RIM) data with the Comsol RF module”, Computers & GeosciencesComputers & Geosciences, vol. 85, pp. 60-67, 2015.
ACw5qiTimes Cited:1Cited References Count:22
, “Franconite, NaNb (sub 2) O (sub 5) (OH).3H (sub 2) O; structure determination and the role of H bonding, with comments on the crystal chemistry of franconite-related minerals”, Mineralogical Magazine, vol. 78, pp. 591-607, 2014.
GeoRef, Copyright 2018, American Geological Institute.2014-096926franconitehochelagaitePoudrette Quarrysodalite syeniteternovite
, “Franconite, NaNb2O5(OH)·3H2O: structure determination and the role of H bonding, with comments on the crystal chemistry of franconite-related minerals”, Mineralogical MagazineMineralogical Magazine, vol. 78, pp. 591-607, 2014.
, “Gabbroic intrusions and magmatic metasomatism in harzburgites from the Garrett transform fault; implications for the nature of the mantle-crust transition at fast-spreading ridges”, Contributions to Mineralogy and Petrology, vol. 136, pp. 111-130, 1999.
GeoRef, Copyright 2018, American Geological Institute.2000-016122Garrett MassifGarrett transform fault
, “Garnet growth during crustal thickening in the cascades crystalline core, washington, usa”, Journal of Metamorphic Geology, vol. 29, pp. 627-647, 2011.
Compilation and indexing terms, Copyright 2018 Elsevier Inc.20112814134202Crustal thickeningsMetasedimentary rocksP-T-t pathPressure-temperature-time pathsPseudosectionThermal equilibriumsThermal relaxationZircon U-Pb
, “Garnet growth during crustal thickening in the Cascades Crystalline Core, Washington, USA”, Journal of Metamorphic GeologyJournal of Metamorphic Geology, vol. 29, pp. 627-647, 2011.
786lfTimes Cited:6Cited References Count:53
, “Garutiite, (Ni,Fe,Ir), a new hexagonal polymorph of native Ni from Loma Peguera, Dominican Republic”, European Journal of Mineralogy, vol. 22, pp. 293-304, 2010.
GeoRef, Copyright 2018, American Geological Institute.2010-039540garutiiteLoma Peguera
, “Garutiite, (Ni,Fe,Ir), a new hexagonal polymorph of native Ni from Loma Peguera, Dominican Republic”, European Journal of MineralogyEuropean Journal of Mineralogy, vol. 22, pp. 293-304, 2010.
585ghTimes Cited:13Cited References Count:49
, “Generalized Cross Dip Moveout Correction of Crooked 2D Seismic Surveys”, GEOPHYSICS, pp. 1-61, 2021.
, “Genesis and mechanisms of metal enrichment in the Baimazhai Ni-Cu-(PGE) deposit, Ailaoshan Orogenic Belt, SW China”, The Canadian Mineralogist, vol. 59, pp. 1543-1570, 2021.
, “Genesis of emerald-bearing quartz veins associated with the Lened W-skarn mineralization, Northwest Territories, Canada”, Canadian MineralogistCanadian MineralogistCanadian Mineralogist, vol. 55, pp. 561-593, 2017.
Fb8drTimes Cited:0Cited References Count:80
, “Genesis of emerald-bearing quartz veins associated with the Lened W-skarn mineralization, Northwest Territories, Canada”, The Canadian MineralogistThe Canadian Mineralogist, vol. 55, pp. 561-593, 2017.
GeoRef, Copyright 2018, American Geological Institute.2017-068811Lened PlutonLogan Mountains
, “Genesis of PGE mineralization in the Wengeqi mafic–ultramafic complex, Guyang County, Inner Mongolia, China”, Mineralium DepositaMineralium Deposita, vol. 47, pp. 197-207, 2011.
, “Genesis of Sublayer, Footwall Breccia, and Associated Ni-Cu-Platinum Group Element Mineralization in the Sudbury Igneous Complex”, Economic Geology, vol. 117, pp. 1791-1807, 2022.
, “Genesis of the Jinbaoshan PGE-(Cu)-(Ni) deposit: Distribution of chalcophile elements and platinum-group minerals”, The Canadian Mineralogist, vol. 59, pp. 1511-1542, 2021.
