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“Methodology for solute characterization of fluid inclusions by petrographic and SEM/EDS complementary analysis”, in TGI 4 - Intrusion Related Mineralisation Project: new vectors to buried porphyry-style mineralisation, vol. Open File 7843, Geological Survey of Canada, 2015, pp. 569-570.
, “Petrographic observations and evaporate mound analysis of quartz-hosted fluid inclusions: applications to assess metal fertility in granites”, in TGI 4 - Intrusion Related Mineralisation Project: new vectors to buried porphyry-style mineralisation, vol. Open File 7843, Geological Survey of Canada, 2015, pp. 369-381.
, “Evaporate mound analysis of quartz-hosted fluid inclusions by SEM/EDS; evaluation and application of method to assess granitoid metal fertility”, in Abstract Volume (Geological Association of Canada), vol. 36, Geological Association of Canada, Waterloo, ON, Canada, 2013, pp. 190-191.
, GeoRef, Copyright 2018, American Geological Institute.690875-50
“Petrographic observations and evaporate mound analysis of quartz-hosted fluid inclusions hosted by granitoid samples from the South Mountain Batholith, Nova Scotia: an exploration tool for vectoring towards mineralised areas in intrusive rocks”, in TGI 4 - Intrusion Related Mineralisation Project: new vectors to buried porphyry-style mineralisation, vol. Open File 7843, Geological Survey of Canada, 2015, pp. 79-99.
, “Base-metal Enrichment in Stage-5 (mid-Cambrian) Black Shale of the Hess River Formation, Misty Creek Embayment, Selwyn Basin”, in Targeted Geoscience Initiative 4: sediment-hosted Zn-Pb deposits: processes and implications for exploration, vol. Open File 7838, Geological Survey of Canada, 2015, pp. 75-95.
, “Black shale, metal content and ocean ventilation; results and caveats from the ca. 1.1 Ga Arctic Bay Formation, Borden Basin, NU”, in Navigating past & future change;, vol. 34, Geological Association of Canada, Waterloo, ON, Canada, 2011, p. 220.
, GeoRef, Copyright 2018, American Geological Institute.2017-053093Arctic Bay FormationBorden BasinBylot Supergroup
“Mesoproterozoic carbonate systems in the Borden Basin, Nunavut”, Canadian Journal of Earth Sciences = Revue Canadienne des Sciences de la Terre, vol. 46, pp. 915-938, 2009.
, GeoRef, Copyright 2018, American Geological Institute.2010-043718Angmaat FormationBorden BasinIkpiarjuk FormationIqqittuq FormationMilne Inlet GrabenNanisivik FormationSociety Cliffs Formation
“Lithostratigraphy, chemostratigraphy, and detrital zircon geochronology of the Mesoproterozoic Hunting Formation, Somerset Island (NU)”, Geological Association of Canada – Mineralogical Association of Canada Joint Annual Meeting. Kingston, ON, p. 388, 2017.
, “Late Mesoproterozoic rifting in Arctic Canada during Rodinia assembly; impactogens, trans-continental far-field stress and zinc mineralisation”, Terra Nova, vol. 28, pp. 188-194, 2016.
, GeoRef, Copyright 2018, American Geological Institute.2017-000807Borden BasinBylot BasinBylot basinsMilne Inlet Graben
“Revised understanding of carbonate-hosted Zn-Pb mineralisation in the Borden Basin (Nanisivik District), Nunavut, Canada”, in Geological Society of America, 2013 annual meeting & exposition, vol. 45, Geological Society of America (GSA), Boulder, CO, United States, 2013, p. 425.
, GeoRef, Copyright 2018, American Geological Institute.2014-041576
“Thick sulfate evaporite accumulations marking a mid-Neoproterozoic oxygenation event (Ten Stone Formation, Northwest Territories, Canada)”, Geological Society of America BulletinGeological Society of America Bulletin, 2015.
, “Syndepositionally brecciated deep-water laminite, Nanisivik Formation, Borden Basin (NU); deep-water equivalent of molar-tooth structure?”, in Abstract Volume (Geological Association of Canada), vol. 35, Geological Association of Canada, Waterloo, ON, Canada, 2012, p. 143.
, , GeoRef, Copyright 2018, American Geological Institute.690870-56
“Gossans of the Cornwallis District, central high Arctic islands, Canada”, in Environmental and Economic Significance of Gossans, vol. Open File 7718, Geological Survey of Canada, 2015, pp. 54-57.
, “Neoproterozoic lithofacies control ore distribution at the Kipushi Cu-Zn deposit (Democratic Republic of Congo) and Gayna River Zn camp (NWT)”, Geological Association of Canada – Mineralogical Association of Canada Joint Annual Meeting, vol. 40. Kingston, ON, p. 390, 2017.
, “Spatial constraints on carbonate-hosted base metals in the Mesoproterozoic Borden Basin, Nunavut”, in 2009 joint assembly; the meeting of the Americas, vol. 90, American Geophysical Union, Washington, DC, United States, 2009.
, GeoRef, Copyright 2018, American Geological Institute.2013-037581Border BasinBylot BasinMilne Inlet GrabenNanisivik DepositSociety Cliffs Formation
“Base-metal enrichment in Stage-5 (Mid-Cambrian) black shale of the Hess River Formation, Misty Creek Embayment (NT), Selwyn Basin”, in Targeted Geoscience Initiative 4; sediment-hosted Zn-Pb deposits; processes and implications for exploration, Geological Survey of Canada, Calgary, AB, Canada, 2015, pp. 75-95.
, GeoRef, Copyright 2018, American Geological Institute.2016-082146Cambrian Stage 5Hess River FormationMisty Creek Embayment
“Neoproterozoic carbonate lithofacies and ore distribution at the Kipushi Cu-Zn deposit, Democratic Republic of Congo, and Gayna River Zn camp, Northwest Territories, Canada”, Economic GeologyEconomic Geology, vol. 113, pp. 779-788, 2018.
, 10.5382/econgeo.2018.4570
“Basin architecture and syndepositional fault activity during deposition of the Neoproterozoic Mackenzie Mountains Supergroup, Northwest Territories, Canada”, Canadian Journal of Earth Sciences = Revue Canadienne des Sciences de la Terre, vol. 45, pp. 1159-1184, 2008.
, GeoRef, Copyright 2018, American Geological Institute.2009-031224Katherine GroupLittle Dal GroupMackenzie Mountains Supergroupsubbasins
“Structural and Stratigraphic Controls on Carbonate-Hosted Base Metal Mineralization in the Mesoproterozoic Borden Basin (Nanisivik District), Nunavut”, Economic GeologyEconomic Geology, vol. 106, pp. 1197-1223, 2011.
, “Basin evolution at the beginning of "sequence B", northwestern Canada”, in Abstract Volume (Geological Association of Canada), vol. 35, Geological Association of Canada, Waterloo, ON, Canada, 2012, p. 40.
, , GeoRef, Copyright 2018, American Geological Institute.690867-30
“Stratigraphy of the Mackenzie Mountains supergroup in the Wernecke Mountains, Yukon.”, in Yukon Exploration and Geology 2010, Yukon Geological Survey, 2011, pp. 207-231.
, “Thick sulfate evaporite accumulations marking a mid-Neoproterozoic oxygenation event (Ten Stone Formation, Northwest Territories, Canada)”, Geological Society of America Bulletin, vol. 128, pp. 203-222, 2016.
, GeoRef, Copyright 2018, American Geological Institute.2016-007681Little Dal GroupMackenzie Mountains SupergroupTen Stone Formation
“Proterozoic carbonate lithofacies control the distribution of sulphides at the Gayna River Zn-Pb camp, Mackenzie Mountains, NWT”, in 2009 joint assembly; the meeting of the Americas, vol. 90, American Geophysical Union, Washington, DC, United States, 2009.
, GeoRef, Copyright 2018, American Geological Institute.2013-037588Gayna River mining districtLittle Dal GroupMackenzie Mountains Supergroup