Her primary scientific interests are in Geochemistry, Mineralogy, Coal, Methane and Carbonate. The various areas that Suzanne D. Golding examines in her Geochemistry study include Porphyry copper deposit, Phyllic alteration and Coal measures. Her study in Mineralogy is interdisciplinary in nature, drawing from both Porosity and Isotope geochemistry.
Her work deals with themes such as Sorption and Natural gas, which intersect with Coal. Her research integrates issues of Coalbed methane, Isotopes of carbon, δ18O, Isotope analysis and Environmental chemistry in her study of Methane. Her Carbonate research is multidisciplinary, incorporating perspectives in Surface water, Seismic hazard, Calcite, Dissolution and Petrography.
Suzanne D. Golding mainly focuses on Geochemistry, Coal, Mineralogy, Structural basin and Coal mining. Suzanne D. Golding has researched Geochemistry in several fields, including Carbonate and Hydrothermal circulation. As a member of one scientific family, Suzanne D. Golding mostly works in the field of Coal, focusing on Methane and, on occasion, Natural gas.
Her Mineralogy research includes elements of Mineralization, Chlorite, Isotopes of carbon and Dissolution. Her Dissolution study integrates concerns from other disciplines, such as Supercritical fluid, Porosity and Calcite. Her Coal mining research integrates issues from Mining engineering and Petroleum engineering.
Coal, Geochemistry, Dissolution, Mineralogy and Environmental chemistry are her primary areas of study. Her study in Coal is interdisciplinary in nature, drawing from both Methanogen, Methanogenesis and Methane. Suzanne D. Golding combines subjects such as Structural basin, Coal measures, δ13C and Isotopes of carbon with her study of Geochemistry.
Suzanne D. Golding interconnects Porosity, Mineral and Supercritical fluid in the investigation of issues within Dissolution. Her studies deal with areas such as Carbonate, Siliciclastic and Silicate as well as Mineralogy. Her Carbonate study combines topics from a wide range of disciplines, such as Silicate minerals and Petrography.
Her scientific interests lie mostly in Dissolution, Coal, Mineralogy, Carbonate and Calcite. The concepts of her Dissolution study are interwoven with issues in Porosity and Mineral. The Coal study combines topics in areas such as Mining engineering, Soil science, Environmental chemistry and Methane.
Her work in Mineralogy covers topics such as Silicate which are related to areas like Inorganic chemistry, Manganese, Magnesium and Siliciclastic. Calcite is a subfield of Geochemistry that Suzanne D. Golding tackles. Her research in Geochemistry is mostly focused on Petrography.
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Methane metabolism in the archaeal phylum Bathyarchaeota revealed by genome-centric metagenomics
Paul N. Evans;Donovan H. Parks;Grayson L. Chadwick;Steven J. Robbins.
Continental-scale magmatic carbon-dioxide seepage recorded by Dawsonite in the Bowen-Gunnedah-Sydney Basin System, eastern Australia
Julian C. Baker;Guo P. Bai;P. Joe Hamilton;Suzanne D. Golding.
Journal of Sedimentary Research (1995)
Stable isotope geochemistry of coal bed and shale gas and related production waters: A review
Suzanne D. Golding;Chris J. Boreham;Joan S. Esterle.
International Journal of Coal Geology (2013)
Stable isotope and water quality analysis of coal bed methane production waters and gases from the Bowen Basin, Australia
E.C.P. Kinnon;S.D. Golding;C.J. Boreham;K.A. Baublys.
International Journal of Coal Geology (2010)
New evidence of magmatic-fluid–related phyllic alteration: Implications for the genesis of porphyry Cu deposits
Anthony C. Harris;Suzanne D. Golding.
Biogenic methane potential for Surat Basin, Queensland coal seams
Samuel L. Papendick;Kajda R. Downs;Khang D. Vo;Stephanie K. Hamilton.
International Journal of Coal Geology (2011)
U-series dating and geochemical tracing of late Quaternary travertine in co-seismic fissures
I. Tonguç Uysal;Yuexing Feng;Jian-xin Zhao;Erhan Altunel.
Earth and Planetary Science Letters (2007)
Hydrothermal CO2 degassing in seismically active zones during the late Quaternary
I. Tonguç Uysal;Yue-xing Feng;Jian-xin Zhao;Veysel Isik.
Chemical Geology (2009)
Changes in reservoir properties from injection of supercritical CO2 into coal seams — A laboratory study
P. Massarotto;S.D. Golding;J.-S. Bae;R. Iyer.
International Journal of Coal Geology (2010)
Body Composition in Nonalcoholic Cirrhosis: The Effect of Disease Etiology and Severity on Nutritional Compartments
Darrell H.G. Crawford;Ross W. Shepherd;June W. Halliday;Graham W.G.E. Cooksley.
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