Filters: Author is Kamber, Balz S. [Clear All Filters]
, “A template for an improved rock-based subdivision of the pre-Cryogenian timescale”, Journal of the Geological Society, 2021.
, “New insights into Paleoproterozoic surficial conditions revealed by 1.85 Ga corestone-rich saprolith”, Chemical GeologyChemical Geology, vol. 545, p. 119621, 2020.
, “New feldspar lead isotope and trace element evidence from the Sudbury igneous complex indicate a complex origin of associated Ni-Cu-PGE mineralization involving underlying country rocks”, Economic Geology and the Bulletin of the Society of Economic GeologistsEconomic Geology and the Bulletin of the Society of Economic Geologists, vol. 112, pp. 569-590, 2017.
GeoRef, Copyright 2018, American Geological Institute.2017-041407
, “New Feldspar Lead Isotope and Trace Element Evidence from the Sudbury Igneous Complex Indicate a Complex Origin of Associated Ni-Cu-PGE Mineralization Involving Underlying Country Rocks”, Economic GeologyEconomic Geology, vol. 112, pp. 569-590, 2017.
, “Ambient Redox and Hydrothermal Environment of the Wolverine Volcanogenic Massive Sulfide Deposit, Yukon: Insights from Lithofacies and Lithogeochemistry of Mississippian Host Shales”, Economic GeologyEconomic Geology, vol. 111, pp. 1439-1463, 2016.
, “Ambient redox and hydrothermal environment of the Wolverine volcanogenic massive sulfide deposit, Yukon: Insights from lithofacies and lithogeochemistry of Mississippian host shales”, Economic GeologyEconomic Geology, vol. 111, pp. 1439-1463, 2016.
Compilation and indexing terms, Copyright 2018 Elsevier Inc.20162602541569Hydrothermal alterationsHydrothermal environmentInverse correlationNegative Ce anomalyOrganic-carbon preservationSulfide mineralizationVolcanogenic massive sulfide depositsVolcanogenic massive sulfides
, “Tectonic controls on distribution and stratigraphy of the Cryogenian Rapitan iron formation, northwestern Canada”, Precambrian ResearchPrecambrian Research, vol. 278, pp. 303-322, 2016.
GeoRef, Copyright 2018, American Geological Institute.2016-058828Mount Berg FormationRapitan GroupRapitan iron formationRedstone BasinSayunei FormationShezal FormationSnake River Basin
, “Tectonic controls on distribution and stratigraphy of the Cryogenian Rapitan iron formation, northwestern Canada”, Precambrian ResearchPrecambrian Research, vol. 278, pp. 303-322, 2016.
Dl7hoTimes Cited:1Cited References Count:91
, “Deep-water seep-related carbonate mounds in a Mesoproterozoic alkaline lake, Borden Basin (Nunavut, Canada)”, Precambrian ResearchPrecambrian Research, vol. 271, pp. 173-197, 2015.
GeoRef, Copyright 2018, American Geological Institute.2016-016314Arctic Bay FormationBorden BasinNauyat FormationSinasiuvik FormationStrathcona Sound FormationVictor Bay Formation
, “On the track of the elusive Sudbury impact; geochemical evidence for a chondrite or comet bolide”, Terra Nova, vol. 27, pp. 9-20, 2015.
GeoRef, Copyright 2018, American Geological Institute.2015-092385
, “An empirical test of the crystal lattice strain model for rare earth element partitioning into clinopyroxene”, Chemical GeologyChemical Geology, vol. 340, pp. 139-150, 2013.
GeoRef, Copyright 2018, American Geological Institute.2013-051941
, “The Flin Flon paleosol revisited”, Canadian Journal of Earth SciencesCanadian Journal of Earth Sciences, vol. 50, pp. 1223-1243, 2013.
GeoRef, Copyright 2018, American Geological Institute.2014-001497
, “Mo isotopic composition of the mid-Neoproterozoic ocean; an iron formation perspective”, Precambrian ResearchPrecambrian Research, vol. 230, pp. 168-178, 2013.
GeoRef, Copyright 2018, American Geological Institute.2013-053788Mo-98northwestern Northwest TerritoriesRapitan Group
, “Mo isotopic composition of the mid-Neoproterozoic ocean: An iron formation perspective”, Precambrian ResearchPrecambrian Research, vol. 230, pp. 168-178, 2013.
136qsTimes Cited:10Cited References Count:52
, “A novel 2D LA-ICP-MS data analysis and visualization solution”, in Goldschmidt abstracts 2013, vol. 77, Mineralogical Society, London, United Kingdom, 2013, p. 1959.
GeoRef, Copyright 2018, American Geological Institute.2014-034251
, “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
, “Arctic Bay Formation, Borden Basin, Nunavut (Canada); basin evolution, black shale, and dissolved metal systematics in the Mesoproterozoic ocean”, Precambrian ResearchPrecambrian Research, vol. 208-211, pp. 1-18, 2012.
GeoRef, Copyright 2018, American Geological Institute.2012-069425Alpha RiverArctic Bay FormationBorden BasinBorden PeninsulaBylot SupergroupShale Valley
, “A new depositional model for glaciogenic Neoproterozoic iron formation; insights from the chemostratigraphy and basin configuration of the Rapitan Iron Formation”, Canadian Journal of Earth Sciences = Revue Canadienne des Sciences de la Terre, vol. 49, pp. 455-476, 2012.
GeoRef, Copyright 2018, American Geological Institute.2012-050187Cranswick RiverRapitan BasinRapitan Iron Formation
, “A new depositional model for glaciogenic Neoproterozoic iron formation: insights from the chemostratigraphy and basin configuration of the Rapitan iron formation1Northwest Territories Geoscience Office Contribution 0052”, Canadian Journal of Earth SciencesCanadian Journal of Earth Sciences, vol. 49, pp. 455-476, 2012.
, “Rare earth element geochemistry of scleractinian coral skeleton during meteoric diagenesis: a sequence through neomorphism of aragonite to calcite;; repley”, Sedimentology, vol. 59, pp. 733-736, 2012.
GeoRef, Copyright 2018, American Geological Institute.2012-035738
, “Reply to the discussion by Karen Johannesson on "Rare earth element geochemistry of scleractinian coral skeleton during meteoric diagenesis: A sequence through neomorphism of aragonite to calcite" by Webb et al., Sedimentology, 56, 1433-1463”, Sedimentology, vol. 59, pp. 733-736, 2012.
Compilation and indexing terms, Copyright 2018 Elsevier Inc.20120414708223
, “VizualAge; a novel approach to laser ablation ICP-MS U-Pb geochronology data reduction”, Geostandards and Geoanalytical Research, vol. 36, pp. 247-270, 2012.
GeoRef, Copyright 2018, American Geological Institute.654166-3Long Lake Batholith
, “Geochemistry and secular geochemical evolution of the Earth's mantle and lower crust”, in Frontiers in geochemistry; contribution of geochemistry to the study of the Earth, Wiley-Blackwell, Chichester, United Kingdom, 2011, pp. 3-19.
GeoRef, Copyright 2018, American Geological Institute.2012-044780
, “High-precision rare earth element, nickel, and chromium chemistry of chert microbands pre-screened with in situ analysis”, Chemical GeologyChemical Geology, vol. 285, pp. 133-143, 2011.
GeoRef, Copyright 2018, American Geological Institute.2011-064578
, “Holocene dust deposition rates in Australia's Murray-Darling Basin record the interplay between aridity and the position of the mid-latitude westerlies”, Quaternary Science Reviews, vol. 30, pp. 3290-3305, 2011.
Compilation and indexing terms, Copyright 2018 Elsevier Inc.20114914577491AridityMid to late HoloceneMurray-Darling BasinPalaeoclimateSouth-eastern AustraliaSouth-westerly windsWesterliesWind erosions
