Professor Penelope King

Ph.D. Dept. Geosciences, Arizona State University; B.Sc. Hons. IA, Dept. Geology, Australian National University
Professor

Prof. Penny King's research group examines surface and interior processes on planetary bodies. The group aims to understand the fundamental aspects of how materials in the solar system behave and how to identify them using remote and infrared techniques. Knowing how materials change under different conditions allows us to predict planetary environments (in the past and future) and to make better tools to explore our solar system, active processes on the Earth’s surface, and the effects of climate change.  Dr. King has published more than 70 journal articles and book chapters and has edited two books. She is passionate about improving opportunities for career pathways for diverse groups in the workplace.

Professional Experience

  • Professor – Research School of Earth Sciences – Australian National University 2019-
  • Senior Fellow – Research School of Earth Sciences – Australian National University 2015-18
  • Fellow – Research School of Earth Sciences – Australian National University 2012-15
  • Research Professor - Dept. Earth & Planetary Sciences - Univ. New Mexico (UNM) 2008-2012
  • Senior Research Scientist III – Inst. Meteoritics – UNM 2007-2011
  • Asst. & Assoc. Prof. (Tenured) – Dept. Earth Sciences – Univ. Western Ontario (UWO) 1999-2007
     

Visiting and adjunct positions

  • Adjunct Prof., Physics Dept.and Special Graduate Faculty, School of Env. Sci. – Uni. Guelph, Canada 2011-15
  • Adjunct Research Professor – Dept. Earth Sciences – UWO, Canada 2007-12
  • Visiting Scholar – Dept. Earth & Planetary Sci., Univ. Tennessee, Knoxville – USA 2005
  • Visiting Assistant Professor – Dept. Geology – ASU – USA 1999
  • Adjunct Professor – Dept. Geology – Mesa Community College 1999
     

Awards

  • Fellow - American Geophysical Union (AGU) 2019
  • AGU Joanne Simpson Medal for Mid-Career Scientists 2019
  • Fellow - Mineralogical Society of America 2019
  • ANU VC's Staff Excellence Award - Clare Burton Award for Equity and Diversity 2017
  • Senior Fellow - Higher Education Academy 2017
  • Australian Research Council Future Fellowship 2014-18
  • NASA Group Award: MSL (Mars Science Laboratory) APXS (alpha particle X-ray spectrometer) Instrument Development and Science Team 2013, 2015
  • Mineralogical Society of America Distinguished Lecturer 2005
  • Premier's Research Excellence Award (Ontario, Canada) 2002
  • Canada Foundation for Innovation (New Opp.) 2000
  • Ontario Innovation Trust award (Canada) 2000
  • Sigma Xi Honorary Member 1999

 

Books

Research interests

My current research focuses on the origin and evolution of planetary surfaces; and the roles of volatiles, pH, and gases on minerals and melts/glasses at high and low temperatures.  I am particularly interested in the interface between volcanic and sedimentary rocks and the atmosphere.  Our group uses techniques in micro-analysis (especially infrared spectroscopy), performs high and low temperature experiments, and examines geology in the field.

Laboratory facilities

http://rses.anu.edu.au/research/facilities/anu-spec-e-lab-spectroscopy-c...

Past graduate students

  • C. J. Renggli – Ph.D. (2018 ANU) – Volcanic Gases and the Reaction of Sulfur Dioxide with Aluminosilicate Glasses
  • A.B. Palm – Masters (2018 ANU) – High Temperature Reactions Between SO2 and Basaltic Glasses: Element Fractionation, Mineral Formation and Thermodynamic Models
  • P. Merriman – Masters (2018 ANU) – Draining the Swamp: Variability in Soil Productivity and Infiltration in Dry Lagoon, NSW
  • J. M. de Moor – Ph.D. (2013 UNM) – Magmatic Volatiles at Rifts and Arcs: Sources and Fractionation Effects – with T. Fischer and Z. Sharp
  • J. A. Berger – M.Sc. (2012 UNM) – Effect of Salt Coatings on Infrared Spectra – Implications for the Geochemistry & Mineralogy of Mars
  • I. Foster – M.Sc. (2009 UWO) – Characterization of Halophilic Microorganisms & Sulfate Salts from the Hypersaline Lakes of British Columbia, Canada: An Astrobiological Perspective – with G. Southam
  • B. Hyde – M.Sc. (2009 UWO) – Bulk analysis, Micro-analysis, IR Spectroscopy & Alpha Particle X-ray Spectroscopy of Fe-H-sulfates
  • M. Izawa – M.Sc. (2008 UWO) – Mineralogy & IR Spectroscopy of the Tagish Lake C2 Chondrite & Enstatite Chondrites– with R. Flemming
  • C. Dufresne - M.Sc. (2008 UWO) – Effect of SiO2, total FeO, Fe3+/Fe2+ and Alkalis in Basaltic Glasses on Mid-Infrared Spectra
  • K. Dalby – Ph.D. (2007 UWO) – The Structure of Silicate Glasses: An FTIR & XPS Study – with H.W. Nesbitt
  • S. Russell – M.Sc. (2006 UWO) – The O and H Isotope Composition of the Tagish Lake Carbonaceous Chondrite – with F. Longstaffe
  • D. Lui – M.Sc. (2005 UWO) – The Effects of Water on Basalt-Rhyolite Interactions in Volcanic Systems

 

Past Honors/Senior thesis students

  • R. Baile (2018 ANU) – Evaluating Carbonate Formation from Gas-Solid Reactions in the Early Solar System: Evidence from Geochemical Models and the Tagish Lake Carbonaceous Chondrite Meteorite
  • K. Robb (2018 ANU) – Hornblende in I-type granites of the Bega Batholith, Lachlan Fold Belt, Australia: Petrography, Chemistry and Barometry
  • A. Weirman (2018 ANU) – Tufa and Microbialites from Lake Gnotuk, western Victoria
  • S. McConachie (2015 ANU) – Thermal (Mid-) Infrared Laboratory Studies of Materials Found in Meteorites
  • R. Kirby (2014 ANU) – Investigating Silicate Inclusions in the Miles IIE Iron Meteorite
  • L. Pure (2014 ANU) – The Application and Calibration of Infrared Geothermometry in Basaltic Glasses
  • T. Aran (2011 UNM) – Effect of Weathering on Infrared Spectra of Basalts
  • A. Baker (2005 UWO) – Zircon Crystallization and Incorporation of Ce: Oxygen Fugacity of Melts Inferred from Ce4+/Ce3+ – with TK Sham, Chemistry
  • J. Lockard (2005 UWO) – The Effects of Iron-Oxidation State on the Weathering and Bacterial Colonization of Basaltic Glass – with Southam
  • D. Widmer (2004 UWO) – Geochemistry of the Acasta Gneiss from the Slave Province, Northwest Territories, Canada
  • E. Kirk (2004 UWO) – Comparison of Alteration Materials on Rhyolites from Kaiser Springs, Arizona and Obsidian Dome, California
  • R. Singer (2003 UWO) – Fourier Transform Spectroscopy of Zea mays Treated with Nickel Under Light and Dark Conditions – with Macfie, Biology
  • A. Cox (2003 UWO) – Insights into the Pre-Eruptive Volatile History of the Caetano Tuff: Evidence from Fluid Inclusions in Quartz and Biotite Petrography
  • S. Russell (2003 UWO) – Geology and Geochemistry of Adirondack Fayalite-Augite Syenites
  • T. Griffin (2002 UWO) – Micro-Reflectance FTIR Analysis of Andesite Glasses
  • J. Riddell (2001 UWO) – Trace Element Partitioning Between Natural Andesite Glass and Plagioclase
  • M. Bagby (2000 UWO) – Petrology and Mineral Chemistry of Reaction Textures in Basalts from Potrillo Maar, Rio Grande Rift

 

    Groups

    Select publications

    • Renggli, C.J., Palm, A.B., King, P.L. and Guagliardo, P., 2019. Implications of reactions between SO2 and basaltic glasses for the mineralogy of planetary crusts, Journal of Geophysical Research – Planets, doi.org/10.1029/2019JE006045.
    • Moores, J.E., King, P.L., Smith, C.L., Martinez, G.M., Newman, C.E., Guzewich, S., Meslin, P.-Y., Webster, C.R., Mahaffy, P.R., Atreya, S.A. and Schuerger, A.C., 2019. The methane diurnal variation and micro-seepage flux at Gale crater, Mars as constrained by ExoMars Trace Gas Orbiter and Curiosity observations. Geophysical Research Letters, doi: 10.1029/2019GL083800.
    • Chan, M.A., Hinman, N.W., Potter-McIntyre, S.L., Schubert, K.E., Gillams, R.J., Awramik, S.M., Boston, P.J., Bower, D.M., Des Marais, D.J., Farmer, J.D., Jia, T.Z., King, P.L., Hazen, R.M., Léveillé, R.J., Papineau, D., Rempfert, K.R., Sánchez-Román, M., Spear, J.R., Southam, G., Stern, J.C. and Cleaves II, H.J., 2019. Deciphering biosignatures in planetary contexts. Astrobiology, 10.1089/ast.2018.1903.
    • Nekvasil, H., DiFrancesco, N.J., Rogers, A.D., Coraor, A.D. and King, P.L., 2019. Vapor-deposited minerals contributed to the martian surface during degassing of Cl- and S-bearing, OH-poor lava, Journal of Geophysical Research – Planets, 124, 1592-1617, doi: 10.1029/2018JE005911.
    • Renggli, C.J., King, P.L., Henley, R.W., Guagliardo, P., McMorrow, L., Middleton, J.P., and Turner, M., 2019.  An experimental study of SO2 reactions with silicate glasses and supercooled melts in the system anorthite–diopside–albite at high temperature. Contributions to Mineralogy and Petrology, 174: 3. https://doi.org/10.1007/s00410-018-1538-2.
    • Lanzirotti, A., Dyar, M.D., Sutton, S., Newville, M., Head, E., Carey, C.J., McCanta, M., Lee, L., King, P.L. and Jones, J., 2018. Accurate predictions of microscale oxygen barometry in basaltic glasses using vanadium K-edge X-ray Absorption Spectroscopy: A multivariate approach, American Mineralogist, doi.org/10.2138/am-2018-6319.
    • Franz, H., King, P.L. and Gaillard, F., 2018. Sulfur on Mars from the atmosphere to the core. In: Filiberto, J. and Schwenzer, S.P. (eds.), 2018. Volatiles in the Martian Crust, Elsevier, 119-183.
    • King P.L., Wheeler V.W., Renggli C.J., Palm, A.B., Wilson, S., Harrison, A., Morgan, B., Nekvasil, H., Troitzsch, U., Mernagh, T., Yue, L., Bayon, A., DiFrancesco, N.J., Baile, R., Kreider, P., Lipiński, W., 2018. Gas-solid reactions: theory, experiments and case studies relevant to Earth and planetary processes. Rev Mineral Geochem 84, 1-56.
    • Palm A.B., King P.L., Renggli C.J., Hervig R.L., Dalby K.N., Herring A., Eggins S.M., Mernagh T.P.,  Troitzsch, U., Beeching L., Kinsley L., Guagliardo P., 2018. Unravelling the consequences of SO2-basalt reactions for geochemical cycles and mineral assemblages using a targeted analytical approach. Rev Mineral Geochem 84, 257-284.
    • Mernagh T.P., King P.L., McMillan P.F., Berger, J.L., Dalby K.N., 2018. Using infrared and Raman spectroscopy to analyse gas-solid reactions. Rev Mineral Geochem 84, 177-228.
    • Dalby K.N., Berger J.A., Brand H.E.A., Cairney J., Eder K., Eggins S.M., Herring A., Hervig R.L., Kreider P.B., Mernagh T.P., Palm A., Renggli C.J., Troitzsch, U., Yue L., King P.L., 2018. Analytical techniques for probing gases and small-scale layers that preserve information on gas-solid interactions. Rev Mineral Geochem 84, 103-176.
    • Renggli, C.J. and King, P.L., 2018. SO2 gas reactions with silicate glasses. Reviews in Mineralogy and Geochemistry, 84, 229-256.
    • Lanzirotti, A., Dyar, M.D., Sutton, S., Newville, M., Head, E., Carey, C.J., McCanta, M., Lee, L., King, P.L., and Jones, J., 2018. Accurate predictions of microscale oxygen barometry in basaltic glasses using vanadium K-edge X-ray Absorption Spectroscopy: A multivariate approach, American Mineralogist, doi.org/10.2138/am-2018-6319.
    • Henley, R.W., Brink, F.J., King, P.L., Leys, C., Ganguly, J., Mernagh, T., Middleton, J., Renggli, C., Sieber, M., Troitzsch, U., Turner, M., 2017. High temperature gas-solid reactions in calc-silicate Cu-Au skarn formation: Ertsberg, West Papua, Indonesia. Contributions to Mineralogy and Petrology, 172, doi:10.1007/s00410-017-1413-6.
    • Jones, T., Levchenko, V., King, P.L., Troitzsch, U., Wesley, D., 2017. Radiocarbon age constraints for a Pleistocene – Holocene transition rock art style: The Northern Running Figures of the East Alligator River region, western Arnhem Land, Australia, Journal of Archeological Science Reports, 11, 80-89.
    • Renggli, C.J., King, P.L., Henley, R.W. and Norman, M.D., 2017. Volcanic gas composition, metal dispersion and deposition during explosive volcanic eruptions on the Moon, Geochimica et Cosmochimica Acta, 206, 296-31.
    • Berger, J.A., Schmidt, M.E., Gellert, R., Campbell, J.L., King, P.L., Flemming, R.L., Ming, D.W., Clark, B.C., Pradler, I., VanBommel, S.J.V., Minitti, M.E., Farien, A.G., Boyd, N.I., Thompson, L.M., Perrett, G.M., Elliott, B.E. and Desouza, E., 2016. A global Mars dust composition refined by MSL-APXS in Gale Crater. Geophysical Research Letters. doi:10.1002/2015GL066675.
    • Perrett, G.M., Campbell, J.L., Gellert, R., King, P.L., Nield, E., O’Meara, J.M. and Pradler, I., 2016.  Refinement of the Compton-Rayleigh scatter ratio method for use on the Mars Science Laboratory alpha particle X-ray spectrometer: II - Extraction of invisible element content. Nucl. Instr. Methods Phys. Res. B, 368, 129-137.
    • Glibin, V.P. and King, P.L., 2015. Prediction of the thermodynamic functions of mixing of binary oxide melts in the PbO–SiO2, Al2O3–SiO2 and CaO–Al2O3 systems by structure-based modification of the quasi-chemical model, Calphad, 49, 19-34, doi:10.1016/j.calphad.2015.02.001.
    • Berger, J.A., King, P.L., Spilde, M.N., Wright, S.P., Kunkel, T.S., and Lee, R.J., 2015. Effect of halite coatings on thermal infrared spectra. Journal of Geophysical Research – Solid Earth, 120, doi: 10.1002/2014.JB011712.
    • Henley, R.W., King, P.L., Wykes, J.L., Renggli, C.J., Brink, F.J., Clark, D.A., Troitzsch, U., 2015. Formation of porphyry copper deposits through sustained SO2 flux and chemisorption.  Nature Geoscience, 8, 210-15. doi:10.1038/ngeo2367.
    • Bristow, T., Bish, D., Vaniman, D., Morris, R., Blake, D., Grotzinger, J., Rampe, E., Crisp, J., Achilles, C., Ming, D., Ehlmann, B., King, P.L., Bridges, J., Eigenbrode, J., Sumner, D., Chipera, S., Moorokian, J.M., Treiman, A., Morrison, S., Downs, R., Farmer, J., Des Marais, D., Sarrazin, P., Floyd, M., Mischna, M. and McAdam, A., 2015.  The origin and implications of clay minerals from Yellowknife Bay, Gale crater, Mars. American Mineralogist, 100, 824-36. doi: 10.2138/am-2015-5077CCBYNCND.
    • Lane, M.D., Bishop, J.L., Dyar, M.D., Hiroi, T., Mertzman, S.A., Bish, D.L., King, P.L., Rogers, A.D., 2015. Mid-infrared emission spectroscopy and visible/near-infrared reflectance spectroscopy of Fe-sulfate minerals. American Mineralogist,100, 66-82. doi: 10.2138/am-2015-4762
    • Newsom, H.E., Mangold, N., Kah, L.C., Williams, J., Arvidson, R.E., Stein, N., Ollila, A.M., Elston, W.E., Bridges, J., Schewenzer, S., King, P.L., Grant, J.A., Pinet, P., Bridges, N.T., Calef, F., Wiens, R.C., Vaniman, D.T., Berger, J., Garvin, J.B. & the MSL Science Team, 2015.  Gale crater and impact processes – observations during Curiosity’s first 360 Sols on Mars. Icarus, 249, 108-128. doi: 10.1016/j.icarus.2014.10.013
    • Blaney, D.L., Wiens, R.C., Maurice, S., Clegg, S.M., Anderson, R.B., Kah, L.C., Le Mouélic, S., Ollila, A., Bridges, N., Tokar, R., Berger, G., Bridges, J.C., Cousin, A., Clark, B., Dyar, M.D., King, P.L., Mangold, N., Meslin, P.-Y., Newsom, H.E.,  Schröder, S., Rowland, S., Johnson, J., Edgar, L., Gasnault, O., Forni, O., Schmidt, M., Goetz, W., Stack, K., Sumner, D., Fisk, M. and Madsen, M.B., 2014.  Chemistry and texture of the rocks at Rocknest, Gale Crater: Evidence for sedimentary origin and diagenetic alteration. Journal of Geophysical Research. DOI: 10.1002/2013JE004590.
    • Burne, R.V., Moore, L.S., Christy, A.G., Troitzsch, U., King, P.L., Carnerup, A.M. & Hamilton, J., 2014.  Stevensite in the modern thrombolites of Lake Clifton, Western Australia: A missing link in microbialite mineralization? Geology, doi: 10.1130/G35484.1
    • ​Berger, J.A., King, P.L., Gellert, R., Campbell, J.L., Boyd, N.I., Pradler, I., Perrett, G.M., Edgett, K.S., Schmidt, M.E., Lee, R.E.H., Van Bommel, S.J.V. and the MSL Science Team, 2014. MSL APXS titanium observation tray measurements: laboratory experiments and results for the Rocknest Fines at the Curiosity Field Site in Gale Crater, Mars. Journal of Geophysical Research – Planets. DOI: 10.1002/2013JE004519, Accepted 6/04/2014.
    • McLennan, S.M., 48 authors including King, P.L. and The MSL Team, 2013. Elemental Geochemistry of Sedimentary Rocks in Yellowknife Bay, Gale Crater, Mars. Science, doi:0.1126/science.1244734.
    • de Moor, J.M., Fischer, T.P., Sharp, Z.D., King, P.L., Wilke, M., Botcharnikov, R.E., Cottrell, E., Zelenski, M., Marty, B., Klimm, K., Rivard, C., Ayalew, D., Ramirez, C. and Kelley, K.A., 2013.  Sulfur degassing at Erta Ale (Ethiopia) and Masaya (Nicaragua) volcanoes: Implications for the degassing processes and oxygen fugacities of basaltic systems. Geochemistry, Geophysics, Geosystems, 14, doi: 10.1002/ggge.20255.
    • Stolper, E.M., 15 authors including King, P.L. and the MSL Science Team, 2013. The Petrochemistry of Jake_M: A Martian Mugearite. Science, 341, doi:10.1126/science.1239463
    • King, P.L. & Larsen, J.F., 2013. A new micro-reflectance IR spectroscopy method for analyzing volatile species in basaltic, andesitic, rhyolitic and phonolitic glasses. American Mineralogist, 98, 1162-1171.  Editor's pick: Notable paper
    • Lee, R.J., Ramsey, M.S. and King, P.L., 2013. Development of a novel laboratory technique for thermal emission spectroscopy of melts. Journal of Geophysical Research – Solid Earth, 118, 1–16, doi:10.1002/jgrb.50197.
    • de Moor, J.M., Fischer, T.P., King, P.L., Botcharnikov, R.E., Hervig, R.L., Hilton, D., Barry, P., Mangasini, F., Ramirez, C., 2013. Volatile-rich silicate melts from Oldoinyo Lengai volcano (Tanzania): implications for carbonatite genesis and eruptive behavior. Earth and Planetary Science Letters, 361, 379-390.
    • King, P.L, Sham, T.K., Gordon, R. & Dyar, M.D., 2013. Microbeam X-ray analysis of Ce3+/Ce4+ in Ti-rich minerals: A case study of titanite (sphene) with implications for multi-valent element substitution in minerals. American Mineralogist, 98, 110-119.
    • Vernazza, P., Delbo, M., King, P.L., Izawa, M.R.M., Olofsson, J., Lamy, P., Cipriani, F., Binzel, R.P., Marchis, F., Merín, B. and Tamanai, A., 2012. High surface porosity as the origin of emissivity features in asteroid spectra. Icarus, doi: 10.1016/j.icarus.2012.04.003.
    • Hyde, B.C., King, P.L, Dyar, M.D., Spilde, M.N. & Ali, A.-M.S., 2011. Methods to analyze metastable and microparticulate hydrated and hydrous iron sulfate minerals. American Mineralogist, 96, 1856-1869.
    • Izawa, M.R.M., Flemming, R.L., King, P.L., Peterson, R.C. & McCausland, P.J.A., 2010. Mineralogical and spectroscopic investigation of the Tagish Lake carbonaceous chondrite by X-ray diffraction and infrared reflectance spectroscopy. Meteoritics and Planetary Science, 45, 675-698, doi: 10/1111/j.1945-5100.2010.01043.x.
    • Izawa, M.R.M., King, P.L., Flemming, R.L., Peterson, R.C. & McCausland, P.J.A., 2010. Mineralogical and spectroscopic investigation of enstatite chondrites by X-ray diffraction and infrared reflectance spectroscopy. Journal of Geophysical Research – Planets, 115, doi:10.1029/2009JE003452.
    • Lee, R.J., King, P.L. & Ramsey, M. S., 2010. Analysis of synthetic quartzofeldspathic glasses using laboratory thermal infrared spectroscopy. Journal of Geophysical Research – Solid Earth, 115, B06202, doi:10.1029/2009JB006672.
    • Russell, S.D.J., Longstaffe, F.J., King, P.L. & Larson, T.E., 2010. The oxygen-isotope composition of isolated olivine and chondrules from the Tagish Lake carbonaceous chondrite, Geochimica et Cosmochimica Acta, 74, 2484–2499.
    • King, P.L. (invited) & McLennan, S.M., 2010. Sulfur on Mars. Elements, 6, 107-112, doi:10.2113/gselements.6.1.107.
    • Foster, I.S., King, P.L., Hyde, B.C. & Southam, G., 2010. Characterization of halophiles in natural MgSO4 salts and laboratory enrichment samples: Astrobiological implications for Mars. Planetary & Space Science, 58, 599–615.
    • Dufresne, C.D.M., King, P.L., Dyar, M.D. & Dalby, K.N., 2009, Effect of SiO2, total FeO, Fe3+/Fe2+, and alkali elements in basaltic glasses on mid-infrared spectra, American Mineralogist, 94, 1580-1590.
    • Lane, M.D., Bishop, J.L., Dyar, M.D., King, P.L., Parente, M. & Hyde, B.C., 2008. Mineralogy of the Paso Robles Soils on Mars. American Mineralogist, 93, 728-739.
    • Mongrain, J., Larsen, J.F. & King, P.L., 2008. Rapid H2O exsolution, gas loss, and bubble collapse observed experimentally in K-phonolite melts. Journal of Volcanology & Geothermal Research, doi: 10.1016/j.jvolgeores.2008.01.026.
    • Klimm, K., Holtz, F. & King, P.L., 2008. Fractionation vs. magma mixing in the Wangrah Suite A-type granites, Lachlan Fold Belt, Australia: experimental constraints. Lithos, 102, 415-434.
       

    Professional activities

    • Associate Editor Geochimica et Cosmochimica Acta 2012-14
    • Contributing Editor Elements magazine, A Life in Science column 2012-17
    • Science Co-Investigator Alpha-Particle X-ray Spectrometer, Mars Science Laboratory mission, 2007-
    • International Mars Exploration Program Analysis Group ESA-NASA Committee for Mars Sample Return Planning 2010-11
    • USA National Research Council Space Studies Board, Decadal Survey Panel 2009-10
    • Mineralogical Society America Councilor and awards committees 2008-11 Short Course Committee 2016-2018
    • Geochemical Society Fellows Award Committee 2016-2019; Goldschmidt Conference International Program Committee 2008
    • Association of Women in Science award adjudicator 2005-2009
    • Mineralogical Association Canada Councilor 2005-08; awards adjudicator 1999-2006
    • Geological Association Canada Conference co-organizer (initial) – Comparative Planetology 2006-07; Councilor – Volcanology & Igneous Petrology 2001-04; Award adjudicator 2002
    • Canadian Space Agency Member of the Space Exploration Advisory Committee and Meteorite & Impacts Advisory Committee
    • USA National Science Foundation – EAR Geochemistry & Petrology Panel
    • USA NASA – Planetary Geology & Geophysics Panel, Cosmochemistry Panel
    • Editor and Short Course Organizer
      • King, P.L., Seward, T. & Fegley Jr., B., 2018. High-temperature Gas-Solid Reactions. Reviews in Mineralogy and Geochemistry, v. 84
      • King, P.L., Ramsey, M. & Swayze, G. (eds.), 2004. Molecules to Planets: Infrared Spectroscopy in Geochemistry, Exploration Geochemistry and Remote Sensing.  Mineralogical Association of Canada, Short Course, 33, 284 p.

    Student research accomplishments

    http://rses.anu.edu.au/news-events/recognition-rses-student-excellence

    Current teaching

    In 2019, I am teaching Planetary Science EMSC3022/EMSC6022 for the first time!  This course aims to explore the planets, dwarf planets, moons and other solid objects in our solar system and beyond to exoplanets!  We will examine processes that are important in Planetary Sciences and unify our studies of planets and help us explore for life beyond Earth.

    I teach into the first semester, first year course The Blue Planet: An Introduction to Earth Systems Science – EMSC1006.  This course may also be taken at the postgraduate level: EMSC6107Blue Planet is a fun course!  It provides an introduction to Earth Systems Science, a new field of science that investigates how chemical, physical, and biological processes interact to shape and regulate Earth's environment. If you want to understand the science behind climate change or have been wondering to what extent current global environmental change is being forced by natural processes and human activities, this course is for you.  Students from both science and non-science backgrounds are welcome. In addition, this is a foundation course for students interested in or wanting to pursue earth, marine or water sciences.

    I also teach Special Topics and supervise Summer Research Scholars with recent projects including “Weathering of basalts”, “Reaction of marble with SO2”, “Formation of mineral crusts on aboriginal rock art” and “Alteration of ordinary chondrites”.  If you are interested in organising an undergraduate or Honours project, please contact me.

     

    Other teaching

    I have taught the following courses:

    • Environmental Geochemistry
    • Field Schools – Maritimes of Canada, Utah, Arizona, California
    • Geochemistry
    • Igneous & Metamorphic Petrology (Introductory and Advanced)
    • Introductory Geology
    • Teaching and Research Methods in Earth & Planetary Sciences
    • Mars: From its Interior to its Moons
    • Water in the Solar System

     

    Supervised students