BioMoon: a concept for a mission to advance space life sciences and astrobiology on the Moon

Charles S. Cockell; David A. Green; Nicol Caplin; Jessica Grenouilleau; Francesca E. McDonald; Marco Calvaruso; Daniela Billi; David C. Cullen; Matthew P. Davey; Veronica De Micco; Andreas Elsaesser; Timothy Etheridge; Christine Gläßer; Christine E. Hellweg; Crina S. Ilea; Antoine Lecocq; Natalie Leys; Javier Martin-Torres; Miracle Nazarious; Claudia Pacelli; Cyrille Przybyla; Elke Rabbow; Kate Robson Brown; Alvaro Soria-Salinas; Nathaniel Szewczyk; Walter Tinganelli; Erin M. Tranfield; Jean Pierre de Vera; Cyprien Verseux

doi:10.1007/s11038-024-09558-4

BioMoon: a concept for a mission to advance space life sciences and astrobiology on the Moon

Charles S. Cockell, David A. Green, Nicol Caplin, Jessica Grenouilleau, Francesca E. McDonald, Marco Calvaruso, Daniela Billi, David C. Cullen, Matthew P. Davey, Veronica De Micco, Andreas Elsaesser, Timothy Etheridge, Christine Gläßer, Christine E. Hellweg, Crina S. Ilea, Antoine Lecocq, Natalie Leys, Javier Martin-Torres, Miracle Nazarious, Claudia PacelliCyrille Przybyla, Elke Rabbow, Kate Robson Brown, Alvaro Soria-Salinas, Nathaniel Szewczyk, Walter Tinganelli, Erin M. Tranfield, Jean Pierre de Vera, Cyprien Verseux

Microbiology

Research output › peer-review

Abstract

As humans advance their presence in space and seek to improve the quality of life on Earth, a variety of science questions in support of these two objectives can be answered using the Moon. In this paper, we present a concept for an integrated mission focused on answering fundamental and applied biological questions on the Moon: BioMoon. The mission was designed to investigate the effects of the lunar radiation, gravity, and regolith on biological systems ranging from biomolecules to systems with complex trophic interactions, spanning a range of model organisms. Using common analytical systems and data processing, BioMoon represents a systems-level integrated life sciences mission. It would provide fundamental insights into biological responses to the lunar environment, as well as applied knowledge for In-Situ Resource Utilisation (ISRU), closed-loop life support system development, planetary protection and human health care. The mission was conceived to test biotechnology and sensor technology for lunar and terrestrial application and provide education and outreach opportunities. Although BioMoon was considered in the context of the European Space Agency’s Argonaut (European Large Logistics Lander) concept, the mission design provides a template for any integrated life sciences experimental suite on the Moon and other celestial bodies, implemented either robotically or by human explorers.

Original language	English
Article number	5
Number of pages	23
Journal	Discover Space
Volume	128
Issue number	1
DOIs	https://doi.org/10.1007/s11038-024-09558-4
State	Published - Dec 2024

ASJC Scopus subject areas

Earth and Planetary Sciences (miscellaneous)
Space and Planetary Science
Astronomy and Astrophysics

Access to Document

10.1007/s11038-024-09558-4

Cite this

Cockell, C. S., Green, D. A., Caplin, N., Grenouilleau, J., McDonald, F. E., Calvaruso, M., Billi, D., Cullen, D. C., Davey, M. P., De Micco, V., Elsaesser, A., Etheridge, T., Gläßer, C., Hellweg, C. E., Ilea, C. S., Lecocq, A., Leys, N., Martin-Torres, J., Nazarious, M., ... Verseux, C. (2024). BioMoon: a concept for a mission to advance space life sciences and astrobiology on the Moon. Discover Space, 128(1), Article 5. https://doi.org/10.1007/s11038-024-09558-4

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title = "BioMoon: a concept for a mission to advance space life sciences and astrobiology on the Moon",

abstract = "As humans advance their presence in space and seek to improve the quality of life on Earth, a variety of science questions in support of these two objectives can be answered using the Moon. In this paper, we present a concept for an integrated mission focused on answering fundamental and applied biological questions on the Moon: BioMoon. The mission was designed to investigate the effects of the lunar radiation, gravity, and regolith on biological systems ranging from biomolecules to systems with complex trophic interactions, spanning a range of model organisms. Using common analytical systems and data processing, BioMoon represents a systems-level integrated life sciences mission. It would provide fundamental insights into biological responses to the lunar environment, as well as applied knowledge for In-Situ Resource Utilisation (ISRU), closed-loop life support system development, planetary protection and human health care. The mission was conceived to test biotechnology and sensor technology for lunar and terrestrial application and provide education and outreach opportunities. Although BioMoon was considered in the context of the European Space Agency{\textquoteright}s Argonaut (European Large Logistics Lander) concept, the mission design provides a template for any integrated life sciences experimental suite on the Moon and other celestial bodies, implemented either robotically or by human explorers.",

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author = "Cockell, {Charles S.} and Green, {David A.} and Nicol Caplin and Jessica Grenouilleau and McDonald, {Francesca E.} and Marco Calvaruso and Daniela Billi and Cullen, {David C.} and Davey, {Matthew P.} and {De Micco}, Veronica and Andreas Elsaesser and Timothy Etheridge and Christine Gl{\"a}{\ss}er and Hellweg, {Christine E.} and Ilea, {Crina S.} and Antoine Lecocq and Natalie Leys and Javier Martin-Torres and Miracle Nazarious and Claudia Pacelli and Cyrille Przybyla and Elke Rabbow and Brown, {Kate Robson} and Alvaro Soria-Salinas and Nathaniel Szewczyk and Walter Tinganelli and Tranfield, {Erin M.} and {de Vera}, {Jean Pierre} and Cyprien Verseux",

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Cockell, CS, Green, DA, Caplin, N, Grenouilleau, J, McDonald, FE, Calvaruso, M, Billi, D, Cullen, DC, Davey, MP, De Micco, V, Elsaesser, A, Etheridge, T, Gläßer, C, Hellweg, CE, Ilea, CS, Lecocq, A, Leys, N, Martin-Torres, J, Nazarious, M, Pacelli, C, Przybyla, C, Rabbow, E, Brown, KR, Soria-Salinas, A, Szewczyk, N, Tinganelli, W, Tranfield, EM, de Vera, JP & Verseux, C 2024, 'BioMoon: a concept for a mission to advance space life sciences and astrobiology on the Moon', Discover Space, vol. 128, no. 1, 5. https://doi.org/10.1007/s11038-024-09558-4

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AU - Grenouilleau, Jessica

AU - McDonald, Francesca E.

AU - Calvaruso, Marco

AU - Billi, Daniela

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AU - Soria-Salinas, Alvaro

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AU - de Vera, Jean Pierre

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