Publications

Found 486 results
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Journal Article
Jones T.J, Russell JK, Porritt L, Brown R.J. 2014. Morphology and surface features of olivine in kimberlite: implications for ascent processes. SOLID EARTH. 5:313-326.
Skierszkan EK, Mayer K.U., Weis D., Robertson J., Beckie R.D. 2019. Molybdenum stable isotope fractionation during the precipitation of powellite (CaMoO4) and wulfenite (PbMoO4). Geochimica et Cosmochimica Acta. 244:383–402.
Skierszkan EK, Stockwell J.S., Dockrey J.W., Weis D., Beckie R.D., Mayer K.U.. 2017. Molybdenum (Mo) stable isotopic variations as indicators of Mo attenuation in mine waste-rock drainage. Applied Geochemistry. In Press
Skierszkan E.K, Stockwell J.S, Dockrey J.W, Weis D., Beckie R.D, Mayer K.U. 2017. Molybdenum (Mo) stable isotopic variations as indicators of Mo attenuation in mine waste-rock drainage. Applied Geochemistry. 87:71–83.
Skierszkan E.K, Mayer K.U, Weis D., Beckie R.D. 2016. Molybdenum and zinc stable isotope variation in mining waste rock drainage and waste rock at the Antamina mine, {Peru. Science of The Total Environment. 550:103–113.
Skierszkan E.K, Mayer K.U, Wise S, Beckie R. 2016. Molybdenum and zinc stable isotope variation in mining waste rock drainage and waste rock at the Antamina mine, Peru. Science of the Total Environment. 550:103-113.
Skierszkan E.K, Mayer K.U, Weis D., Beckie R.D. 2016. Molybdenum and zinc stable isotope variation in mining waste rock drainage and waste rock at the Antamina mine, Peru. Science of the Total Environment. 550:103–113.
Fotherby A, Bradbury HJ, Antler G, Sun X, Druhan JL, Turchyn AV. 2021. Modelling the effects of non-steady state transport dynamics on the sulfur and oxygen isotope composition of sulfate in sedimentary pore fluids. Frontiers in Earth Science. 8:587085.
Bain JG, Mayer K.U, Blowes DW, Frind EO, Molson JWH, Kahnt R, Jenk U. 2001. Modelling the closure-related geochemical evolution of groundwater at a former uranium mine. JOURNAL OF CONTAMINANT HYDROLOGY. 52:109-135.
Bain JG, Mayer K.U, Blowes DW, Frind EO, Molson JWH, Kahnt R, Jenk U. 2001. Modelling the closure-related geochemical evolution of groundwater at a former uranium mine. JOURNAL OF CONTAMINANT HYDROLOGY. 52:109-135.
Bréant C, Martinerie P, Orsi AJ, Arnaud L, Landais A. 2017. Modelling firn thickness evolution during the last deglaciation: constraints on sensitivity to temperature and impurities. Climate of the Past. 13:833–833.
Bréant C, Martinerie P, Orsi A\"ıs, Arnaud L, Landais A. 2017. Modelling firn thickness evolution during the last deglaciation: constraints on sensitivity to temperature and impurities. Climate of the Past. 13:833–833.
Miller GR, Rubin Y, Mayer K.U, Benito PH. 2008. Modeling vadose zone processes during land application of food-processing waste water in California's Central Valley. JOURNAL OF ENVIRONMENTAL QUALITY. 37:S43-S57.
Chen Y, Smith L, Beckie R. 2012. Modeling of strategies for performance monitoring of groundwater contamination at sites underlain by fractured bedrock. Journal of Contaminant Hydrology. 134–135:37–53.
Watson IA, Oswald SE, Mayer K.U, Wu YX, Banwart SA. 2003. Modeling kinetic processes controlling hydrogen and acetate concentrations in an aquifer-derived microcosm. ENVIRONMENTAL SCIENCE & TECHNOLOGY. 37:3910-3919.
Petrenko VV, Smith AM, Schaefer H, Riedel K, Brook E, Baggenstos D, Harth C, Hua Q, Buizert C, Orsi AJ et al.. 2017. Minimal geological methane emissions during the Younger Dryas–Preboreal abrupt warming event. Nature. 548:443–446.
Petrenko VV, Smith AM, Schaefer H, Riedel K, Brook E, Baggenstos D, Harth C, Hua Q, Buizert C, Schilt A et al.. 2017. Minimal geological methane emissions during the Younger Dryas–Preboreal abrupt warming event. Nature. 548:443–446.
Petrenko VV, Smith AM, Schaefer H, Riedel K, Brook E, Baggenstos D, Harth C, Hua Q, Buizert C, Schilt A et al.. 2017. Minimal geological methane emissions during the Younger Dryas–Preboreal abrupt warming event. Nature. 548:443–446.
Petrenko VV, Smith AM, Schaefer H, Riedel K, Brook E, Baggenstos D, Harth C, Hua Q, Buizert C, Orsi AJ et al.. 2017. Minimal geological methane emissions during the Younger Dryas–Preboreal abrupt warming event. Nature. 548:443–446.
Petrenko VV, Smith AM, Schaefer H, Riedel K, Brook E, Baggenstos D, Harth C, Hua Q, Buizert C, Schilt A et al.. 2017. Minimal geological methane emissions during the Younger Dryas–Preboreal abrupt warming event. Nature. 548:443–446.
Petrenko VV, Smith AM, Schaefer H, Riedel K, Brook E, Baggenstos D, Harth C, Hua Q, Buizert C, Orsi AJ et al.. 2017. Minimal geological methane emissions during the Younger Dryas–Preboreal abrupt warming event. Nature. 548:443–446.
Higgins JA, Blättler CL, Lundstrom EA, Santiago-Ramos DP, Akhtar AA, Ahm ASCrüger, Bialik O, Holmden C, Bradbury H, Murray ST et al.. 2018. Mineralogy, early marine diagenesis, and the chemistry of shallow-water carbonate sediments. Geochimica et Cosmochimica Acta. 220:512–534.
Higgins JA, Blättler CL, Lundstrom EA, Santiago-Ramos DP, Akhtar AA, Ahm ASCrüger, Bialik O, Holmden C, Bradbury H, Murray ST et al.. 2018. Mineralogy, early marine diagenesis, and the chemistry of shallow-water carbonate sediments. Geochimica et Cosmochimica Acta. 220:512–534.
Higgins JA, Blättler CL, Lundstrom EA, Santiago-Ramos DP, Akhtar AA, Ahm ASCrüger, Bialik O, Holmden C, Bradbury H, Murray ST et al.. 2018. Mineralogy, early marine diagenesis, and the chemistry of shallow-water carbonate sediments. Geochimica et Cosmochimica Acta. 220:512–534.
Frey FA, Wallace PJ, Antretter MJ, Arndt NT, Barling J,. Submitted. Millard F. Coffin Co-Chief Scientist. Ann Arbor MI.

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