Edinburgh Research Explorer

Life in the Atacama: A scoring system for habitability and the robotic exploration for life

Research output: Contribution to journalArticle

  • Andrew N. Hock
  • Nathalie A. Cabrol
  • James M. Dohm
  • Jennifer Piatek
  • Kim Warren-Rhodes
  • Shmuel Weinstein
  • David S. Wettergreen
  • Edmond A. Grin
  • Jeffrey Moersch
  • Peter Coppin
  • Lauren Ernst
  • Gregory Fisher
  • Craig Hardgrove
  • Lucia Marinangeli
  • Edwin Minkley
  • Gian Gabriele Ori
  • Alan Waggoner
  • Mike Wyatt
  • Trey Smith
  • David Thompson
  • Michael Wagner
  • Dominic Jonak
  • Kristen Stubbs
  • Geb Thomas
  • Erin Pudenz
  • Justin Glasgow

Related Edinburgh Organisations

Original languageEnglish
Article numberARTN G04S08
Number of pages14
JournalJournal of Geophysical Research
Volume112
Issue numberG4
DOIs
StatePublished - 29 Dec 2007

Abstract

[1] The science goals of the Life in the Atacama (LITA) robotic field experiment are to understand habitat and seek out life in the Atacama Desert, Chile, as an analog to future missions to Mars. To those ends, we present a new data analysis tool, the LITA Data Scoring System (DSS), which (1) integrates rover and orbital data relevant to environmental habitability and life detection, and (2) provides a standard metric, or "score'' to evaluate (a) the potential habitability, and (b) the strength of evidence for life at all locales along the rover's traverse. Designed and tested during the 2005 field campaign, first results from the DSS indicate that the three selected sites in the Atacama Desert are generally inhospitable. The strength of evidence for life is positively correlated with potential habitability at two of the three sites. Using factor analysis, we find three factors explain 79.9% of the variance in biological observations and five factors explain 96.2% of the variance in potential habitability across all sites. These factors are used to focus a discussion of scoring variable definitions for future robotic missions in the Atacama and of instrument selection and strategy development for future robotic missions on Earth and Mars.

    Research areas

  • THARSIS REGION, MARS, CALIFORNIA, NEOGENE, VALLEYS, OCEANS, CHILE, BASIN, WATER, FIELD

ID: 25223471