Journal Articles

Presenting at AGU 2017

  1. Brugman, K.K. and Till, C.B. (2019) A Low-Aluminum Clinopyroxene-Liquid Geothermometer for High-Silica Magmatic Systems. American Mineralogist, 104(7), 996–1004. doi: 10.2138/am-2019-6842
  2. Till, C.B., M.E. Pritchard, C.A. Miller, K.K. Brugman, J. Ryan-Davis, 2018. Super-volcanic Investigations. Nature Geoscience, 11(4). doi: 10.1038/s41561-018-0100-1
  3. Hynek, B.M., T.M. McCollum, E.C. Marcucci, K.K. Brugman, K.L. Rogers, 2013. Assessment of environmental controls on acid-sulfate alteration at active volcanoes in Nicaragua: Applications to relic hydrothermal systems on Mars, Journal of Geophysical Research—Planets, Special Issue: Early Mars, 118, 2083–2104. doi: 10.1002/jgre.20140

 

Conference Abstracts

* invited talk

  1. upcoming: Brugman, K.K. and Till, C.B., 2019. New clinopyroxene-liquid geothermometer indicates a broad crystallization interval for low-Al clinopyroxene in high-silica magmatic systems. GSA Annual Meeting abstract 337075, Phoenix, AZ.
  2. *† upcoming: Brugman, K.K., Phillips, M.G., and Till, C.B., 2019. Stars to Planets: Experimental Determination of Exoplanet Mantle Solidi and Crust Compositions. Goldschmidt, Barcelona, Spain.
  3. Brugman, K.K., C.B. Till, 2018.Clinopyroxene-Liquid Thermometry Hints at Cold Storage for High-Silica Systems. IAVCEI Commission on Collapse Calderas: VII International Workshop on Collapse Calderas, Toba Caldera, Sumatra, Indonesia.
  4. Brugman, K.K., C.B. Till, 2018. ARevised Low-Al Clinopyroxene-Liquid Geothermometer for High-Silica Igneous Systems. EOS AGU Chapman: Merging Geophysical, Petrochronologic, and Modeling Perspectives of Large Silicic Magma SystemsAbstract P-28, Quinamávida, Maule Region, Chile.
  5. *†Brugman, K.K., C.B. Till, 2017. Taking Yellowstone’s Temperature: A New Clinopyroxene Geothermometer to Improve Timescales of Pre-Eruptive Events. EOS AGU Fall Meeting Abstract U13B-03, New Orleans, LA.
  6. Brugman, K.K., C.B. Till, 2017. ARevised Clinopyroxene-Liquid Geothermometer for Silicic Igneous Systems with Applications to Diffusion Chronometry of the Scaup Lake Rhyolite, Yellowstone Caldera, WY. EOS AGU Fall Meeting Abstract V11C-0365, New Orleans, LA.
  7. Brugman, K.K., C.B. Till, 2017. Investigation of the Applicability of Clinopyroxene Geothermometers to Silicic Igneous Systems. IAVCEI Scientific Assembly Abstract ME43C-044, Portland, OR.
  8. Brugman, K.K., C.B. Till, M. Bose, 2016. Clinopyroxene Diffusion Chronometry of the Scaup Lake Rhyolite, Yellowstone Caldera, WY. EOS AGU Fall Meeting Abstract V13F-02, San Francisco, CA. Recipient of an AGU Outstanding Student Paper Award
  9. Brugman, K.K., C.B. Till, M. Bose and R. Hervig, 2015. Development of Clinopyroxene as an Igneous Geospeedometer Using NanoSIMS. EOS AGU Fall Meeting Abstract V31B-3030, San Francisco, CA.
  10. Brugman, K.K., B.M. Hynek, S.J. Robbins, 2015. Crater-based tests unlock the mystery of the origin and evolution of Arabia Terra, Mars. Lunar and Planetary Science Conference, The Woodlands, TX.