E
Elisabeth M. Hausrath
Researcher at University of Nevada, Las Vegas
Publications - 106
Citations - 1870
Elisabeth M. Hausrath is an academic researcher from University of Nevada, Las Vegas. The author has contributed to research in topics: Mars Exploration Program & Weathering. The author has an hindex of 19, co-authored 82 publications receiving 1469 citations. Previous affiliations of Elisabeth M. Hausrath include University of Nevada, Reno & Pennsylvania State University.
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Acid sulfate alteration of fluorapatite, basaltic glass and olivine by hydrothermal vapors and fluids: Implications for fumarolic activity and secondary phosphate phases in sulfate-rich Paso Robles soil at Gusev Crater, Mars
TL;DR: In this paper, the authors performed acid-vapor and acid-fluid experiments on olivine, fluorapatite, and basaltic glass as single phases and a mixture of phases.
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Biosignature Preservation and Detection in Mars Analog Environments
Lindsay Hays,Heather Graham,David J. Des Marais,Elisabeth M. Hausrath,Briony Horgan,Thomas M. McCollom,M Niki Parenteau,Sally L. Potter-McIntyre,Amy J. Williams,Kennda Lynch +9 more
TL;DR: A review of material relevant to the Conference on Biosignature Preservation and Detection in Mars Analog Environments summarizes the meeting materials and discussions and is further expanded upon by detailed references to the published literature as mentioned in this paper.
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Basalt weathering rates on Earth and the duration of liquid water on the plains of Gusev Crater, Mars
Elisabeth M. Hausrath,Alexis Navarre-Sitchler,Peter B. Sak,Carl I. Steefel,Susan L. Brantley +4 more
TL;DR: In this paper, the authors measured the minimum duration of exposure to liquid water consistent with a chemical profile on Mars and calculated the exposure time, which is consistent with short-term, episodic alteration accompanied by ongoing surface erosion.
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The potential science and engineering value of samples delivered to Earth by Mars sample return : International MSR Objectives and Samples Team (iMOST)
David Beaty,Monica M. Grady,Harry Y. McSween,Elliot Sefton-Nash,Francesca Altieri,Yuri Amelin,E. Ammannito,Mahesh Anand,Liane G. Benning,Janice L. Bishop,Lars E. Borg,D. Boucher,John Robert Brucato,Henner Busemann,Kathleen A. Campbell,Andrew D. Czaja,Vinciane Debaille,David J. Des Marais,Mike Dixon,Bethany L. Ehlmann,Jack D. Farmer,David Fernández-Remolar,Justin Filiberto,J. Fogarty,Daniel P. Glavin,Y. S. Goreva,Lydia J. Hallis,A. D. Harrington,Elisabeth M. Hausrath,Christopher D. K. Herd,Briony Horgan,Munir Humayun,Thorsten Kleine,J. Kleinhenz,Rachel Mackelprang,N. Mangold,L. E. Mayhew,J. T. McCoy,Francis M. McCubbin,Scott M. McLennan,Desmond E. Moser,Frédéric Moynier,J. F. Mustard,Paul B. Niles,Gian Gabriele Ori,François Raulin,Petra Rettberg,Michelle A. Rucker,Nicole Schmitz,Susanne P. Schwenzer,Mark A. Sephton,R. Shaheen,Zachary D. Sharp,David L. Shuster,Sandra Siljeström,Caroline Smith,J. A. Spry,Andrew Steele,Timothy D. Swindle,I. L. ten Kate,Nicholas J. Tosca,Tomohiro Usui,M. J. Van Kranendonk,Meenakshi Wadhwa,Benjamin P. Weiss,Stephanie C. Werner,Frances Westall,R. M. Wheeler,J. Zipfel,María Paz Zorzano +69 more
TL;DR: The iMOST team as mentioned in this paper defined a set of science and engineering objectives for the Mars Sample Return (MSR) campaign and provided a framework for demonstrating how the first set of returned Martian samples would impact future Martian science and exploration.
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Elemental release rates from dissolving basalt and granite with and without organic ligands
TL;DR: In this article, long term column experiments were performed with powdered granite and basalt with and without 0.01 M citrate at pH=6 for 45 weeks and the results showed that the release of individual elements in the presence of citrate was strongly correlated with the stability constant of the citrate-element complex.