Pedro Jugo

Pedro Jugo

Associate Professor

Harquail School of Earth Sciences
Science, Engineering and Architecture
B-8021 Sudbury Campus

Education

  PhD 2003 - Earth and Atmospheric Sciences (University of Alberta, Edmonton, Canada)

MSc 1997 - Geology (University of Maryland, College Park, U.S.A)

BSc 1993 - Geological Engineering (Universidad Central de Venezuela, Caracas, Venezuela)

Academic Appointments

  ↵​       2012-present Associate Professor, Laurentian University

2006-2012 Assistant Professor, Laurentian University

2004-2006 Post-doctoral Fellow, Johann Wolfgang Goethe University, Frankfurt am Main

2003-2004 Post-doctoral Fellow, University of Alberta

On The Web

Google Scholar
Scopus
ResearchGate
Open Researcher and Contributor ID (ORC-ID)
Department of Earth Science (DES) 
Mineral Exploration Research Centre (MERC)
Goodman School of Mines (G​SM)

Research

Origin of Pt, Pd, Au mineralization (orthomagmatic deposists)

Geochemistry of highly siderophile elements (Ru, Rh, Pd, Re, Os, Ir, Pt, Au) in magmatic systems

Geochemistry of metalloids (Se, As, Sb, Te, Bi) and implications for the occurrence of precious metal minerals (PMM) 

Genesis of orthomagmatic and hydrothermal ore deposits

Behavior of sulfur in magmatic systems

Awards

  • Teaching

    GEOL 1006 Introductory Geology I

    GEOL 1021 Introduction to Earth Sciences I

    GEOL 2127 Optical Mineralogy

    GEOL 3206 Igneous Petrology

    GEOL 4206 Advanced Igneous Petrology

    GEOL 5007 and GEOL 6007 Graduate Seminar in Earth Sciences

    GEOL 5206 Topics in Igneous Petrology

    Publications

    In press:


    Submitted / In preparation:

    • An Experimental Study on the Role of Te, Bi, and As in the Mobilization of Highly Siderophile Elements (HSE): Implications for the formation of the footwall deposits of the Sudbury Igneous Complex (Ontario, Canada) [Cafagna, F. and Jugo, P.J.] 

    • Experimental Study on the Solubility of Metalloids in Sulfides, the Exsolution of Immiscible Metalloid Liquids and the Formation of Discrete HSE-bearing Metalloid Phases between 1050 °C and 600 °C [Cafagna, F. and Jugo, P.J.]

    • Discrimination of different ore types using trace element distribution in major sulfides: a pilot study from the Levack-Morrison ore system, Sudbury, Ontario [Adibpour, M., Jugo, P.J., and Ames, D. E.]

    • Cobalt-rich, PGE-bearing pyrite from the Levack contact-style deposit, Sudbury, Ontario: PGE-bearing pyrite as indicator of magmatic processes [Adibpour, M., Jugo, P.J., and Ames, D. E.]

    Most significant contributions: