The scientist’s investigation covers issues in Mineralogy, Environmental chemistry, Inductively coupled plasma mass spectrometry, Laser ablation and Analytical chemistry. Simon Chenery interconnects Mineral, Hydrothermal circulation, Geochemistry, Geochronology and Monazite in the investigation of issues within Mineralogy. His Mineral study combines topics from a wide range of disciplines, such as Thorium and Aqueous geochemistry.
His Environmental chemistry study incorporates themes from Sediment, Pollution and Trace metal. His work in the fields of Analytical chemistry, such as Microprobe, intersects with other areas such as Inductively coupled plasma, Ablation, Amorphous solid and Ejecta. He has researched Microprobe in several fields, including Matrix and Mass spectrometry.
His scientific interests lie mostly in Environmental chemistry, Geochemistry, Analytical chemistry, Mineralogy and Trace element. His research integrates issues of Isotope dilution, Soil water, Sediment, Pollution and Trace metal in his study of Environmental chemistry. His work in the fields of Geochronology, Diagenesis, Provenance and Gneiss overlaps with other areas such as Rare-earth element.
His research investigates the connection with Analytical chemistry and areas like Laser ablation which intersect with concerns in Mineral. His work carried out in the field of Mineralogy brings together such families of science as Seawater, Carbonate and Hydrothermal circulation. His work deals with themes such as Matrix and Microprobe, which intersect with Inductively coupled plasma mass spectrometry.
Environmental chemistry, Geochemistry, Archaeology, Trace element and Pollution are his primary areas of study. His research investigates the connection between Environmental chemistry and topics such as Soil water that intersect with problems in Lead and Uranium. His studies in Geochemistry integrate themes in fields like Natural, Inductively coupled plasma mass spectrometry, Soil test and Cave.
His Archaeology study combines topics in areas such as Thesprotia and Period. His research in Trace element intersects with topics in Kiln and Deposition. Simon Chenery has included themes like Pollutant, Sediment, δ15N, Bioaccumulation and Trace metal in his Pollution study.
His primary scientific interests are in Metallurgy, Pollution, Environmental chemistry, Mineralogy and Glaze. His work on Electron microprobe as part of general Metallurgy study is frequently linked to Chemical composition, therefore connecting diverse disciplines of science. The Pollution study combines topics in areas such as Estuary, Sediment, δ15N, δ13C and Trace metal.
His specific area of interest is Environmental chemistry, where Simon Chenery studies Polychlorinated dibenzofurans. His Mineralogy research integrates issues from Deposition, Shetland and Scale. In his works, Simon Chenery undertakes multidisciplinary study on Glaze and Isotopes of strontium.
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Sources and uptake of trace metals in otoliths of juvenile barramundi (Lates calcarifer)
David A Milton;Simon R Chenery.
Journal of Experimental Marine Biology and Ecology (2001)
Electron microprobe and LA-ICP-MS study of monazite hydrothermal alteration: Implications for U-Th-Pb geochronology and nuclear ceramics
Franck Poitrasson;Franck Poitrasson;Simon Chenery;Thomas J Shepherd.
Geochimica et Cosmochimica Acta (2000)
Contrasted monazite hydrothermal alteration mechanisms and their geochemical implications
Franck Poitrasson;Franck Poitrasson;Simon Chenery;David J. Bland.
Earth and Planetary Science Letters (1996)
A study on the relationship between mass concentrations, chemistry and number size distribution of urban fine aerosols in Milan, Barcelona and London
S. Rodríguez;R. Van Dingenen;J.-P. Putaud;A. Dell'Acqua.
Atmospheric Chemistry and Physics (2007)
The generation of prograde P T t points and paths; a textural, compositional, and chronological study of metamorphic monazite
Gavin L. Foster;Randall R. Parrish;Randall R. Parrish;Matthew S.A. Horstwood;Simon R.N. Chenery.
Earth and Planetary Science Letters (2004)
Determination of rare earth elements in single mineral grains by laser ablation microprobe–inductively coupled plasma mass spectrometry—preliminary study
Simon Chenery;Jennifer M. Cook.
Journal of Analytical Atomic Spectrometry (1993)
Chemical signatures of the Anthropocene in the Clyde estuary, UK: sediment-hosted Pb, 207/206Pb, total petroleum hydrocarbon, polyaromatic hydrocarbon and polychlorinated biphenyl pollution records
C. H. Vane;S. R. Chenery;I. Harrison;A. W. Kim.
Philosophical Transactions of the Royal Society A (2011)
Environmental influences on the trace element content of teeth—implications for disease and nutritional status
Catriona J Brown;Simon R.N Chenery;Barry Smith;Carol Mason.
Archives of Oral Biology (2004)
Laser ablation ICP-MS elemental analysis of individual fluid inclusions: An evaluation study
T.J. Shepherd;S.R. Chenery.
Geochimica et Cosmochimica Acta (1995)
The effect of otolith storage methods on the concentrations of elements detected by laser‐ablation ICPMS
D. A. Milton;S. R. Chenery.
Journal of Fish Biology (1998)
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