The Biological Oxidant and Life Detection (BOLD) mission: A proposal for a mission to Mars

The next step in the exploration of Mars should include a strong and comprehensive life detection component. We propose a mission called BOLD: Biological Oxidant and Life Detection mission. The scientific objectives of the BOLD mission are to characterize habitability of the martian surface and to s...

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Veröffentlicht in:	Planetary and space science 2012-07, Vol.67 (1), p.57-69
Hauptverfasser:	Schulze-Makuch, Dirk, Head, James N., Houtkooper, Joop M., Knoblauch, Michael, Furfaro, Roberto, Fink, Wolfgang, Fairén, Alberto G., Vali, Hojatollah, Kelly Sears, S., Daly, Mike, Deamer, David, Schmidt, Holger, Hawkins, Aaron R., Sun, Henry J., Lim, Darlene S.S., Dohm, James, Irwin, Louis N., Davila, Alfonso F., Mendez, Abel, Andersen, Dale
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Sprache:	eng
Schlagworte:	Instrumentation Life detection Mars mission Microbial life Oxidant Viking
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container_title	Planetary and space science
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creator	Schulze-Makuch, Dirk Head, James N. Houtkooper, Joop M. Knoblauch, Michael Furfaro, Roberto Fink, Wolfgang Fairén, Alberto G. Vali, Hojatollah Kelly Sears, S. Daly, Mike Deamer, David Schmidt, Holger Hawkins, Aaron R. Sun, Henry J. Lim, Darlene S.S. Dohm, James Irwin, Louis N. Davila, Alfonso F. Mendez, Abel Andersen, Dale
description	The next step in the exploration of Mars should include a strong and comprehensive life detection component. We propose a mission called BOLD: Biological Oxidant and Life Detection mission. The scientific objectives of the BOLD mission are to characterize habitability of the martian surface and to search for evidence of extinct or extant life. In contrast to the Viking mission, which was designed to detect heterotrophic life on Mars, the BOLD mission incorporates a more comprehensive search for autotrophic microorganisms, as well as detecting a variety of biomarkers and understanding their environment. Six miniature landers are envisioned for BOLD that utilize either an orbital (e.g. Viking) or direct entry (e.g., MER, Phoenix) mission architecture. The number of landers will provide mission redundancy, and each will incorporate a Mars Soil Analyzer, a Multispectral Microscopic Imager, a Nanopore-ARROW that detects biopolymers with single molecule resolution, an Atmospheric Structure and Surface Environment Instrument, a Fluorescent Stain experiment, and a Chirality experiment. A terrain navigation system, coupled with robust propulsion, permits a landing accuracy on the order of meters if required to meet the science objectives. The probes will use existing orbiters for communication relay if the orbiter architecture proves too ambitious. ► Life detection components should be part of a future Mars mission. ► The BOLD mission can be done cost effectively. ► The BOLD mission uses 6 probes and existing technology and orbiters. ► The instrument suite is designed to undertake a comprehensive search for biomarkers. ► The probes of the BOLD mission can get to the astrobiologically interesting sites.
doi_str_mv	10.1016/j.pss.2012.03.008
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A terrain navigation system, coupled with robust propulsion, permits a landing accuracy on the order of meters if required to meet the science objectives. The probes will use existing orbiters for communication relay if the orbiter architecture proves too ambitious. ► Life detection components should be part of a future Mars mission. ► The BOLD mission can be done cost effectively. ► The BOLD mission uses 6 probes and existing technology and orbiters. ► The instrument suite is designed to undertake a comprehensive search for biomarkers. ► The probes of the BOLD mission can get to the astrobiologically interesting sites.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.pss.2012.03.008</doi><tpages>13</tpages></addata></record>
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subjects	Instrumentation Life detection Mars mission Microbial life Oxidant Viking
title	The Biological Oxidant and Life Detection (BOLD) mission: A proposal for a mission to Mars
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