Publications

Found 608 results
Author Title [ Type(Desc)] Year
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Journal Article
BORISOVA ANASTASSIAYU, Nikogosian IK, Scoates JS, Wise S, Damasceno D, Shimizu N, Touret JLR. 2002. Melt, fluid and crystal inclusions in olivine phenocrysts from Kerguelen plume-derived picritic basalts: evidence for interaction with the Kerguelen Plateau lithosphere. Chemical Geology. 183:195–220.
Borisova AY, Nikogosian IK, Scoates JS, Weis D,. 2002. Melt, fluid and crystal inclusions in olivine phenocrysts from Kerguelen plume-derived picritic basalts: evidence for interaction with the Kerguelen Plateau lithosphere. Chemical ….
BORISOVA ANASTASSIAYU, Nikogosian IK, Scoates JS, Wise S, Damasceno D, Shimizu N, Touret JLR. 2002. Melt, fluid and crystal inclusions in olivine phenocrysts from Kerguelen plume-derived picritic basalts: evidence for interaction with the Kerguelen Plateau lithosphere. Chemical Geology. 183:195–220.
Greene AR, Scoates JS, Weis D, Nixon GT,. 2009. Melting history and magmatic evolution of basalts and picrites from the accreted Wrangellia oceanic plateau, Vancouver Island, Canada. Journal of ….
Greene AR, Scoates JS, Wise S, Nixon GT, Kieffer B. 2009. Melting history and magmatic evolution of basalts and picrites from the accreted Wrangellia oceanic plateau, Vancouver Island, Canada. Journal of Petrology. :egp008.
Sihota NJ, Mayer K.U, Toso MA, Atwater JF. 2013. Methane emissions and contaminant degradation rates at sites affected by accidental releases of denatured fuel-grade ethanol. JOURNAL OF CONTAMINANT HYDROLOGY. 151:1-15.
Dutta S, Saar R, Lavie Z, Vered G, Bradbury HJ, Antler G. 2022. A method for a fast and economical in situ collection of pore water in sandy sediments.
Morisset CE, Scoates JS, Weis D,. 2014. Methodology and Application of Hafnium Isotopes in Ilmenite and Rutile by MC‐ICP‐MS. Geostandards and ….
Morisset C-E, Scoates JS, Wise S, Rahier A. 2014. Methodology and Application of Hafnium Isotopes in Ilmenite and Rutile by MC-ICP-MS. Geostandards and Geoanalytical Research. 38:159–176.
Dickson A.G, Camoes M.F, Spitzer P., Fisicaro P., Stoica D., Pawlowicz R, Feistel R.. 2016. Metrological challenges for measurements of key climatological observables. Part 3: Seawater pH. METROLOGIA. 53:R26-R39.
Feistel R., Wielgosz R., Bell S.A, Camoes M.F, Cooper J.R, Dexter P., Dickson A.G, Fisicaro P., Harvey A.H, Heinonen M. et al.. 2016. Metrological challenges for measurements of key climatological observables: oceanic salinity and pH, and atmospheric humidity. Part 1: overview. METROLOGIA. 53:R1-R11.
Pawlowicz R, Feistel R., McDougall T.J, Ridout P., Seitz S., Wolf H.. 2016. Metrological challenges for measurements of key climatological observables Part 2: Oceanic salinity. METROLOGIA. 53:R12-R25.
Dickson A.G, Camoes M.F, Spitzer P., Fisicaro P., Stoica D., Pawlowicz R, Feistel R.. 2016. Metrological challenges for measurements of key climatological observables. Part 3: Seawater pH. METROLOGIA. 53:R26-R39.
Feistel R., Wielgosz R., Bell S.A, Camoes M.F, Cooper J.R, Dexter P., Dickson A.G, Fisicaro P., Harvey A.H, Heinonen M. et al.. 2016. Metrological challenges for measurements of key climatological observables: oceanic salinity and pH, and atmospheric humidity. Part 1: overview. METROLOGIA. 53:R1-R11.
Feistel R., Wielgosz R., Bell S.A, Camoes M.F, Cooper J.R, Dexter P., Dickson A.G, Fisicaro P., Harvey A.H, Heinonen M. et al.. 2016. Metrological challenges for measurements of key climatological observables: oceanic salinity and pH, and atmospheric humidity. Part 1: overview. METROLOGIA. 53:R1-R11.
Damasceno D, Scoates JS, Wise S, Frey FA, Giret A. 2002. Mineral chemistry of mildly alkalic basalts from the 25 Ma Mont Crozier section, Kerguelen Archipelago: constraints on phenocryst crystallization environments. Journal of Petrology. 43:1389–1413.
Damasceno D, Scoates JS, Weis D, Frey FA,. 2002. Mineral chemistry of mildly alkalic basalts from the 25 Ma Mont Crozier section, Kerguelen Archipelago: constraints on phenocryst crystallization environments. Journal of ….
Wilson S.A, Dipple G.M, Raudsepp M., Oliver S.L, Gabites J, Power I.M, Southam G.. 2008. Mineral transformations in tailings from active mines: Implications for acid neutralization potential and carbon dioxide sequestration. GEOCHIMICA ET COSMOCHIMICA ACTA. 72:A1025.
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.
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.
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.
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.

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