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Amber Gullikson

Amber is a Geologist with the Astrogeology Science Center in Flagstaff, AZ.

Amber's work primarily focuses on Terrestrial Analogs and Mars research, which includes creating multi-purpose field guides for planetary analogs within northern Arizona, collecting meteorological data and studying ripple migration at Grand Falls dune field, and characterizing impact melts and the internal structure of Meteor Crater’s ejecta blanket. She co-leads the USGS Astrogeology Terrestrial Analog Sample Collection, which currently houses samples from Meteor Crater, AZ, Flynn Creek Crater, TN, and the Shoemaker Sample Collection. Her research also includes studying Mars’ ancient hydrologic past, in the form of inverted stream channels and intracrater alluvial fans.

 

Professional Experience

  • 2015 – Present: Geologist with the USGS Astrogeology Science Center.

  • 2012 – 2014: Graduate Student and Teaching Assistant at Northern Arizona University. Thesis: Testing lunar crustal melting through experimental petrology: Implications for the genesis of silicic volcanism on the Moon.

  • 2013: Lunar Exploration Summer Intern, Lunar and Planetary Institute.

  • 2012: Multi-Anvil Laboratory, Research Technician, Arizona State University.

  • 2009 – 2012: Omni Pressure Laboratory, Research Technician, Arizona State University.

     

Education and Certifications

  • M.S. Geology, Northern Arizona University (2014)

  • B.S. Geological Sciences, Arizona State University (2011)

     

Honors and Awards

  • Patent for Method for measuring pressures in a high pressure cell by monitoring continuous changes in physical properties of GeO2-SiO2 solid solution. Patent number: US 9,243,968 B2 awarded 1/26/2016.

Science and Products

Filter Total Items: 13

Mars Dune Digital Database - Merged

The Mars Global Digital Dune Database provides a comprehensive and quantitative view of the geographic distribution of dune fields from 65° N to 65° S latitude. The database encompasses ~ 550 dune fields, covering ~ 70,000 km2, with an estimated total volume between 3,600 km3 and 13,400 km3. Over 2300 selected Thermal Emission Imaging System (THEMIS) infrared (IR), THEMIS visible (VIS)...
By
Astrogeology Science Center
Filter Total Items: 13

Silicic lunar volcanism: Testing the crustal melting model

Lunar silicic rocks were first identified by granitic fragments found in samples brought to Earth by the Apollo missions, followed by the discovery of silicic domes on the lunar surface through remote sensing. Although these silicic lithologies are thought to make up a small portion of the lunar crust, their presence indicates that lunar crustal evolution is more complex than originally...
Authors
Amber L. Gullikson, Justin J. Hagerty, Mary R. Reid, Jennifer Rapp, David S. Draper
By
Natural Hazards Mission Area, Astrogeology Science Center

Non-USGS Publications**

Gullikson, A.L. J.J Hagerty, M.R. Reid, J.F. Rapp, D.S. Draper (2016) Silicic lunar volcanism: Testing the crustal melting model. American Mineralogist, 101 (10), 2312-2321.
Leinenweber, K. L., A. L. Gullikson, E. Stoyanov, and A. Malik (2015) Saturation curve of SiO2 component in rutile-type GeO2: A recoverable high-temperature pressure standard from 3 GPa to 10 GPa. Journal of Solid State Chemistry, 229, 10-18.
Gullikson, A. L., K. Leinenweber, E. Stoyanov, H. Zhang, and A. Malik (2014) High-pressure investigation in the system SiO2-GeO2: Mutual solubility of Si and Ge in quartz, coesite, and rutile phases. Journal of the American Ceramic Society, 1-8.
Potts, N. J., A. L. Gullikson, N. M. Curran, J. K. Dhaliwal, M. K. Leader, R. N. Rege, K. K. Klaus, and D. A. Kring (2014) Robotic traverse and sample return strategies for a lunar farside mission to the Schrödinger basin. Advances in Space Research, doi: http://dx.doi.org/10.1016/j.asr.2014.11.028.

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

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