Colton-Vessey

Colton Vessey est diplômé de l'Université de la Saskatchewan (Canada) en 2017 avec son B.Sc. (avec distinction) en sciences géologiques et une mineure en chimie. Au cours de son B.Sc. programme, il a travaillé avec le Dr Matthew Lindsay pour étudier la mise en œuvre de couvertures de remise en état pour atténuer la contamination des résidus de sables bitumineux.

Peu de temps après, Colton a alors commencé son M.Sc. sous la supervision du Dr Lindsay de l'Université de la Saskatchewan. Son M.Sc. Le projet a examiné la mobilité des espèces toxiques de vanadium en présence de phases minéralogiques clés pertinentes pour la valorisation des déchets miniers. Pendant ce temps, Colton s'est spécialisé dans l'utilisation des méthodes d'absorption des rayons X synchrotron (XAS) appliquées aux matériaux environnementaux et géologiques. Il a complété son M.Sc. en 2019, et a commencé son doctorat. programme à l'Université de l'Alberta (Canada) sous la direction des Drs. Siobhan (Sasha) Wilson, Anna Harrison et Maija Raudsepp.

Doctorat de Colton. les recherches portent sur la séparation des métaux traces lors de la recristallisation des phases métastables induite par la séquestration et le stockage du CO2. Le stockage du CO2 dans des phases bénignes de Ca et de Mg (c'est-à-dire la carbonatation minérale) est une méthode sûre et éprouvée pour compenser les émissions ; cependant, les travaux de Colton ont montré que l'incorporation de métaux traces peut avoir un impact sur les taux et l'efficacité de la carbonatation par la formation de phases Mg-Fe à basse température.

Doctorat de Colton. recherche est motivée par les pressions sociales et politiques entourant l'extraction durable des ressources, son travail soutiendra le développement continu et sûr des technologies CCUS. En outre, ce travail fournit une compréhension détaillée de la mobilité des métaux dans les systèmes carbone-soufre-silice (CS-Si) qui peuvent contribuer à notre compréhension de la formation de gisements économiques et de l'extraction de métaux à partir de résidus potentiellement économiques.

Previous Recipients:

    • In 2023, The Hawley Medal was awarded to Andrew McDonald of Laurentian University, Chris Beckett-Brown of the OGS, and Beth McClenaghan of the GSC for their paper entitled:
      “Trace Elements Characteristics of Tourmaline in Porphyry Cu Systems Development and Application to Discrimination.”
    • In 2022, The Hawley Medal was awarded to Drs. Paula C. Piilonen and Glenn Poirier (Canadian Museum of Nature), William Lechner, Ralph Rowe (Canadian Museum of Nature), and R. Peter Richards (Oberlin College) for their paper entitled:
      “ZEOLITE MINERALS FROM WAT OCHENG, TA ANG, RATANAKIRI PROVINCE, CAMBODIA – OCCURRENCE, COMPOSITION, AND PARAGENESIS.”
    • In 2021, The Hawley Medal is awarded to Drs. Andrew J. Kaczowka (Cameco Exploration), T. Kurt Kyser (deceased, formerly from Queen’s University), Tom G. Kotzer (University of Saskatchewan), Matthew I. Leybourne, and Daniel Layton-Matthews (Queen’s University). The paper is entitled:
      “Geometallurgical ore characterization of the high-grade polymetallic unconformity-related uranium deposit” The Canadian Mineralogist, September 2021; Vol. 59, part 5, 813-845 https:// pubs.geoscienceworld.org/canmin/article-
      abstract/59/5/813/608140/ Geometallurgical-ore-characterization-of-the-high.
    • In 2020, The award for the best paper published went to Drs. Zeinab Azadbakht (Ontario Geological Survey) and David R. Lentz (Department of Earth Sciences, University of New Brunswick) for their paper:
      “High-Resolution LA-ICP-MS Trace-Element Mapping of Magmatic Biotite: A New Approach for Studying Syn- to Post-Magmatic Evolution”, which appeared in The Canadian Mineralogist v58n3, pp 293–311
      (https://doi.org/10.3749/canmin.1900101). Zeinab Azadbakht has been the R
    • In 2019, this award went to Drs. Elliot A. Wehrle and Andrew M. McDonald (Harquail School of Earth Sciences, Laurentian University) for the following paper:
      “Cathodoluminescence and Trace-Element Chemistry of Quartz from Sudbury Offset Dikes: Observations, Interpretations and Genetic Implications” The Canadian Mineralogist, 2019, v57(6), pp947–963 (https://doi.org/10.3749/canmin.1900049). This contribution combines cathodoluminescence (CL) data and trace
    • In 2018, the Hawley Medal awarded to the best paper published in The Canadian Mineralogist went to Rémy S. Poulin, Daniel J. Kontak, and Andrew M. McDonald of Laurentian University (Canada) and Beth McClenaghan of the Geological Survey of
      Canada for the following paper:
      “Assessing Scheelite as an Ore-Deposit Discriminator Using its TraceElement and REE Chemistry” in The Canadian Mineralogist Vol. 56, pp. 265-302, May 2018.
    • In 2017, the medal was awarded to Gil F. Tansman, Paul S. Kindstedt, and John M. Hughes for their paper:
      “Minerals in Food: Crystal Structures of Ikaite and Struvite from Bacterial Smears on Washed-Rind Cheese” (The Canadian Mineralogist v55, pp. 89-100, January 2017).
    • In 2016, the award went to Albert Chan, David M. Jenkins, and M. Darby Dyar for their paper:
      “Partitioning of Chlorine between NaCl Brines and Ferro-Pargasite: Implications for the Formation of Chlorine-rich Amphiboles in Mafic Rocks”, which appeared in the January 2016 issue of Canadian Mineralogist (v54, pp 337–351).
    • In 2015, the award went to Sarah C. Gordon and Andrew M. McDonald for the following paper:
      “A STUDY OF THE COMPOSITION, DISTRIBUTION, AND GENESIS OF PYRRHOTITE IN THE COPPER CLIFF OFFSET, SUDBURY, ONTARIO,” Canadian Mineralogist Vol. 53, part 5, September 2015.
    • In 2014, it is awarded to Fernando G. Sardi and Adriana Heimann for their paper,
      “Pegmatitic beryl as indicator of melt evolution: example from the Velasco District, Pampeana Pegmatite Province, Argentina, and review of worldwide occurrences” (Canadian Mineralogist 52: 809-836).
    • In 2013, the Hawley Medal Awarded went to Felix V. Kaminsky, Richard Wirth, and Anja Schreiber:
      “CARBONATITIC INCLUSIONS IN DEEP MANTLE DIAMOND FROM JUINA, BRAZIL: NEW MINERALS IN THE CARBONATE-HALIDE ASSOCIATION,” Canadian Mineralogist 51: 669-688.
    • In 2012, this year’s award was presented to B. Lalinská-Voleková, J. Majzlan, T. Klimko, M. Chovan, G. Kucˇerová, J. Michnˇová, R. Hovoricˇ, J. Göttlicher and R. Steininger for their paper:
      “Mineralogy of weathering products of Fe-As-Sb mine wastes and soils at several Sb deposits in Slovakia” (Canadian Mineralogist 50: 481-500).
    • In 2011, the Hawley Medal went to Susanne Göb, Thomas Wenzel, Michael Bau, Dorritt Jacob, Anselm Loges, and Gregor Markl. The award winning paper was:
      "The redistribution of rare-earth elements in secondary minerals of hydrothermal veins, Schwarzwald, Southwestern Germany." Canadian Mineralogist 49: 1305-1333 The paper describes the association and chemical compositions
    • In 2010, the Hawley Medal went to Joel D. Grice for the best paper published in The Canadian Mineralogist Grice JD (2010). The role of beryllium in beryllosilicate mineral structures and zeolite formation. Canadian Mineralogist 48: 1493-1518
      In 2009, the Hawley Medal went to David London for the best paper published in The Canadian Mineralogist London D (2009). The origin of primary textures in granitic pegmatites. Canadian Mineralogist 47: 697-723
    • In 2008, the Hawley Medal went to Anderson, Wirth, and Thomas for the best paper published in The Canadian Mineralogist in 2008 Anderson AJ, Wirth R, Thomas R (2008). The alteration of metamict zircon and its role in the remobilization of high-field-strength elements in the Georgeville granite, Nova Scotia. Canadian Mineralogist 46: 1-18
    • In 2007, the Hawley Medal was awarded to Dr. D. Barrie Clarke of Dalhousie University, Halifax, Nova Scotia, Entitled “Assimilation of Xenocrysts in Granitic Magmas: Principles, Processes, Proxies and Problems” (volume 45, pages 5–30)
    • In 2006, the Hawley Medal was awarded to François Farges, Ralf Siewert, Carl Ponader, Gordon Brown Jr., Michel Pichavant, and Harald Behrens for their paper
      “Structural environments around molybdenum in silicate glasses and melts. II. Effect of temperature, pressure, H2O, halogens and sulfur.” Canadian Mineralogist 44: 755-773.