Filters: Author is Turner, E. C. [Clear All Filters]
, “Rifting of Columbia to form a deep-water siliciclastic to carbonate succession; the Mesoproterozoic Pinguicula Group of northern Yukon, Canada”, Precambrian ResearchPrecambrian Research, vol. 278, pp. 179-206, 2016.
GeoRef, Copyright 2018, American Geological Institute.2016-058822Hart River InlierMount Landreville Formationnorthern Yukon TerritoryPass Mountain FormationPinguicula BasinPinguicula GroupRubble Creek Formation
, “Rifting of Columbia to form a deep-water siliciclastic to carbonate succession: The Mesoproterozoic Pinguicula Group of northern Yukon, Canada”, Precambrian ResearchPrecambrian Research, vol. 278, pp. 179-206, 2016.
Dl7hoTimes Cited:1Cited References Count:107
, “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
, “Composition and history of giant carbonate seep mounds, Mesoproterozoic Borden Basin, Arctic Canada”, Precambrian ResearchPrecambrian Research, vol. 293, pp. 150-173, 2017.
Et3xqTimes Cited:0Cited References Count:76
, “Fluid histories in sedimentary settings revealed using multiple in situ micro-analytical techniques”, V.M. Goldschmidt ConferenceV.M. Goldschmidt Conference. Paris, France, 2017.
GeoRef, Copyright 2018, American Geological Institute.814387-68
, “Fluid history of the carbonate-hosted Storm Copper showing, Somerset Island, Arctic Canada”, PDAC-SEG Student Minerals Colloquium. Toronto, ON, 2017.
, “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, 2017.
, “Origin and hydrology of a large, intact Early Cambrian paleocave system and its role in overlying fluidisation structures, Arctic Canada”, Sedimentary GeologySedimentary Geology, vol. 351, pp. 66-79, 2017.
Es4lfTimes Cited:0Cited References Count:100
, “Fluid-chemical evidence for one billion years of fluid flow through Mesoproterozoic deep-water carbonate mounds (Nanisivik zinc district, Nunavut)”, Geochimica et Cosmochimica Acta, vol. 223, pp. 493-519, 2018.
GeoRef, Copyright 2018, American Geological Institute.2018-041903Borden BasinIkpiarjuk FormationNanisivik mining district
, “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.
, “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
