Gazel works on solving the puzzles of the Earth by studying processes in the interior of our planet that produce magma and volcanoes. His goal is to understand how these processes contribute to planetary evolution and how they impacted life and the environment in the past in order to prepare for the future. Gazel's work integrates different Earth geochemical cycles, from ocean crust production to subduction and deep recycling, He studies these processes from a geochemical perspective complemented by interdisciplinary collaboration with other fields.
Dr. Gazel's teaching philosophy focuses on active learning. The use of actual data and case studies teach students tangible skills that they can use in their career fields. Gazel's strives to contribute to the education of the next generation of Earth science leaders who seek to find solutions for the challenges of the 21st century with population growth, natural hazards, climate change, and water and other natural resource challenges.
- 2017. "The hottest Phanerozoic magmas and the Survival of Archean Reservoirs." Nature Geoscience 10: 451-456. .
- 2017. "Post-rift magmatic evolution of the eastern North American "passive-aggressive'' margin." Geochemistry Geophysics Geosystems 18. .
- 2016. "New insights into the Aeolian Islands and other arc source compositionsfrom high-precision olivine chemistry." Lithos 272: 185-191. .
- 2016. "Reconstructing CO2 concentrations in basaltic melt inclusions using Raman analysis of vapor bubbles. -." Journal of Volcanology and Geothermal Research 323: 148-162. .
- 2016. "Origin of plagiogranites in oceanic complexes: A case study of the Nicoya and Santa Elena terranes, Costa Rica." Lithos 262: 75-87. .
Selected Awards and Honors
- Hisashi Kuno Award (American Geophysical Union) 2016
- GeoPrisms Distinguished Lecturer (GeoPrisms) 2016
- BS (Geology), University of Costa Rica, 2004
- Ph D (Geology), Rutgers University, 2009