Planetary Protection Knowledge Gap Closure Enabling Crewed Missions to Mars

James A. Spry; Bette Siegel; Corien Bakermans; David W. Beaty; Mary-Sue Bell; James N. Benardini; Rosalba Bonaccorsi; Sarah L. Castro-Wallace; David A. Coil; Athena Coustenis; Peter T. Doran; Lori Fenton; David P. Fidler; Brian Glass; Stephen J. Hoffman; Fathi Karouia; Joel S. Levine; Mark L. Lupisella; Javier Martin-Torres; Rakesh Mogul; Karen Olsson-Francis; Sandra Ortega-Ugalde; Manish R. Patel; David A. Pearce; Margaret S. Race; Aaron B. Regberg; Petra Rettberg; John D. Rummel; Kevin Y. Sato; Andrew C. Schuerger; Elliot Sefton-Nash; Matthew Sharkey; Nitin K. Singh; Silvio Sinibaldi; Perry Stabekis; Carol R. Stoker; Kasthuri J. Venkateswaran; Robert R. Zimmerman; Maria-Paz Zorzano-Mier

doi:10.1089/ast.2023.0092

Planetary Protection Knowledge Gap Closure Enabling Crewed Missions to Mars

James A. Spry^* (Corresponding Author)
, Bette Siegel
, Corien Bakermans
, David W. Beaty
, Mary-Sue Bell
, James N. Benardini
, Rosalba Bonaccorsi
, Sarah L. Castro-Wallace
, David A. Coil
, Athena Coustenis
, Peter T. Doran
, Lori Fenton
, David P. Fidler
, Brian Glass
, Stephen J. Hoffman
, Fathi Karouia
, Joel S. Levine
, Mark L. Lupisella
, Javier Martin-Torres
, Rakesh Mogul

Karen Olsson-Francis, Sandra Ortega-Ugalde, Manish R. Patel, David A. Pearce, Margaret S. Race, Aaron B. Regberg, Petra Rettberg, John D. Rummel, Kevin Y. Sato, Andrew C. Schuerger, Elliot Sefton-Nash, Matthew Sharkey, Nitin K. Singh, Silvio Sinibaldi, Perry Stabekis, Carol R. Stoker, Kasthuri J. Venkateswaran, Robert R. Zimmerman, Maria-Paz Zorzano-Mier

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

As focus for exploration of Mars transitions from current robotic explorers to development of crewed missions, it remains important to protect the integrity of scientific investigations at Mars, as well as protect the Earth's biosphere from any potential harmful effects from returned martian material. This is the discipline of planetary protection, and the Committee on Space Research (COSPAR) maintains the consensus international policy and guidelines on how this is implemented. Based on National Aeronautics and Space Administration (NASA) and European Space Agency (ESA) studies that began in 2001, COSPAR adopted principles and guidelines for human missions to Mars in 2008. At that point, it was clear that to move from those qualitative provisions, a great deal of work and interaction with spacecraft designers would be necessary to generate meaningful quantitative recommendations that could embody the intent of the Outer Space Treaty (Article IX) in the design of such missions. Beginning in 2016, COSPAR then sponsored a multiyear interdisciplinary meeting series to address planetary protection “knowledge gaps” (KGs) with the intent of adapting and extending the current robotic mission-focused Planetary Protection Policy to support the design and implementation of crewed and hybrid exploration missions. This article describes the outcome of the interdisciplinary COSPAR meeting series, to describe and address these KGs, as well as identify potential paths to gap closure. It includes the background scientific basis for each topic area and knowledge updates since the meeting series ended. In particular, credible solutions for KG closure are described for the three topic areas of (1) microbial monitoring of spacecraft and crew health; (2) natural transport (and survival) of terrestrial microbial contamination at Mars, and (3) the technology and operation of spacecraft systems for contamination control. The article includes a KG data table on these topic areas, which is intended to be a point of departure for making future progress in developing an end-to-end planetary protection requirements implementation solution for a crewed mission to Mars. Overall, the workshop series has provided evidence of the feasibility of planetary protection implementation for a crewed Mars mission, given (1) the establishment of needed zoning, emission, transport, and survival parameters for terrestrial biological contamination and (2) the creation of an accepted risk-based compliance approach for adoption by spacefaring actors including national space agencies and commercial/nongovernment organizations.

Original language	English
Pages (from-to)	230-274
Number of pages	45
Journal	Astrobiology
Volume	24
Issue number	3
Early online date	19 Mar 2024
DOIs	https://doi.org/10.1089/ast.2023.0092
Publication status	Published - Mar 2024

Bibliographical note

Acknowledgments
The authors would like to recognize and thank all the participants and contributors to the COSPAR meeting series for their creativity, expertise, and generosity in time, addressing the challenges of planetary protection for a crewed mission to Mars. In particular, previous space agency Planetary Protection Officers Cassie Conley and Lisa Pratt (NASA), and Gerhard Kminek (ESA), are recognized for their advocacy in supporting this workshop series.

Funding

James A. Spry is supported through the SETI Institute by NASA contract 80HQTR20F0153 for support of all phases of current and future planetary protection missions to ensure compliance with planetary protection standards. Part of the study (the David W. Beaty/Nitin K. Singh/Kasthuri J. Venkateswaran contribution) described in this publication was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with NASA.

Funders	Funder number
National Aeronautics and Space Administration	80HQTR20F0153

Keywords

asthma
international space station
Mars sample return
Planetary exploration

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

Spry, J. A., Siegel, B., Bakermans, C., Beaty, D. W., Bell, M.-S., Benardini, J. N., Bonaccorsi, R., Castro-Wallace, S. L., Coil, D. A., Coustenis, A., Doran, P. T., Fenton, L., Fidler, D. P., Glass, B., Hoffman, S. J., Karouia, F., Levine, J. S., Lupisella, M. L., Martin-Torres, J., ... Zorzano-Mier, M.-P. (2024). Planetary Protection Knowledge Gap Closure Enabling Crewed Missions to Mars. Astrobiology, 24(3), 230-274. https://doi.org/10.1089/ast.2023.0092

Spry, JA, Siegel, B, Bakermans, C, Beaty, DW, Bell, M-S, Benardini, JN, Bonaccorsi, R, Castro-Wallace, SL, Coil, DA, Coustenis, A, Doran, PT, Fenton, L, Fidler, DP, Glass, B, Hoffman, SJ, Karouia, F, Levine, JS, Lupisella, ML, Martin-Torres, J, Mogul, R, Olsson-Francis, K, Ortega-Ugalde, S, Patel, MR, Pearce, DA, Race, MS, Regberg, AB, Rettberg, P, Rummel, JD, Sato, KY, Schuerger, AC, Sefton-Nash, E, Sharkey, M, Singh, NK, Sinibaldi, S, Stabekis, P, Stoker, CR, Venkateswaran, KJ, Zimmerman, RR & Zorzano-Mier, M-P 2024, 'Planetary Protection Knowledge Gap Closure Enabling Crewed Missions to Mars', Astrobiology, vol. 24, no. 3, pp. 230-274. https://doi.org/10.1089/ast.2023.0092

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abstract = "As focus for exploration of Mars transitions from current robotic explorers to development of crewed missions, it remains important to protect the integrity of scientific investigations at Mars, as well as protect the Earth's biosphere from any potential harmful effects from returned martian material. This is the discipline of planetary protection, and the Committee on Space Research (COSPAR) maintains the consensus international policy and guidelines on how this is implemented. Based on National Aeronautics and Space Administration (NASA) and European Space Agency (ESA) studies that began in 2001, COSPAR adopted principles and guidelines for human missions to Mars in 2008. At that point, it was clear that to move from those qualitative provisions, a great deal of work and interaction with spacecraft designers would be necessary to generate meaningful quantitative recommendations that could embody the intent of the Outer Space Treaty (Article IX) in the design of such missions. Beginning in 2016, COSPAR then sponsored a multiyear interdisciplinary meeting series to address planetary protection “knowledge gaps” (KGs) with the intent of adapting and extending the current robotic mission-focused Planetary Protection Policy to support the design and implementation of crewed and hybrid exploration missions. This article describes the outcome of the interdisciplinary COSPAR meeting series, to describe and address these KGs, as well as identify potential paths to gap closure. It includes the background scientific basis for each topic area and knowledge updates since the meeting series ended. In particular, credible solutions for KG closure are described for the three topic areas of (1) microbial monitoring of spacecraft and crew health; (2) natural transport (and survival) of terrestrial microbial contamination at Mars, and (3) the technology and operation of spacecraft systems for contamination control. The article includes a KG data table on these topic areas, which is intended to be a point of departure for making future progress in developing an end-to-end planetary protection requirements implementation solution for a crewed mission to Mars. Overall, the workshop series has provided evidence of the feasibility of planetary protection implementation for a crewed Mars mission, given (1) the establishment of needed zoning, emission, transport, and survival parameters for terrestrial biological contamination and (2) the creation of an accepted risk-based compliance approach for adoption by spacefaring actors including national space agencies and commercial/nongovernment organizations.",

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AB - As focus for exploration of Mars transitions from current robotic explorers to development of crewed missions, it remains important to protect the integrity of scientific investigations at Mars, as well as protect the Earth's biosphere from any potential harmful effects from returned martian material. This is the discipline of planetary protection, and the Committee on Space Research (COSPAR) maintains the consensus international policy and guidelines on how this is implemented. Based on National Aeronautics and Space Administration (NASA) and European Space Agency (ESA) studies that began in 2001, COSPAR adopted principles and guidelines for human missions to Mars in 2008. At that point, it was clear that to move from those qualitative provisions, a great deal of work and interaction with spacecraft designers would be necessary to generate meaningful quantitative recommendations that could embody the intent of the Outer Space Treaty (Article IX) in the design of such missions. Beginning in 2016, COSPAR then sponsored a multiyear interdisciplinary meeting series to address planetary protection “knowledge gaps” (KGs) with the intent of adapting and extending the current robotic mission-focused Planetary Protection Policy to support the design and implementation of crewed and hybrid exploration missions. This article describes the outcome of the interdisciplinary COSPAR meeting series, to describe and address these KGs, as well as identify potential paths to gap closure. It includes the background scientific basis for each topic area and knowledge updates since the meeting series ended. In particular, credible solutions for KG closure are described for the three topic areas of (1) microbial monitoring of spacecraft and crew health; (2) natural transport (and survival) of terrestrial microbial contamination at Mars, and (3) the technology and operation of spacecraft systems for contamination control. The article includes a KG data table on these topic areas, which is intended to be a point of departure for making future progress in developing an end-to-end planetary protection requirements implementation solution for a crewed mission to Mars. Overall, the workshop series has provided evidence of the feasibility of planetary protection implementation for a crewed Mars mission, given (1) the establishment of needed zoning, emission, transport, and survival parameters for terrestrial biological contamination and (2) the creation of an accepted risk-based compliance approach for adoption by spacefaring actors including national space agencies and commercial/nongovernment organizations.

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Planetary Protection Knowledge Gap Closure Enabling Crewed Missions to Mars

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Bibliographical note

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Keywords

UN SDGs

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