Space as a Tool for Astrobiology: Review and Recommendations for Experimentations in Earth Orbit and Beyond

H. Cottin; J.M. Kotler; D. Billi; C. Cockell; R. Demets; P. Ehrenfreund; A. Elsaesser; L. d’Hendecourt; J.J.W.A. van Loon; Z. Martins; S. Onofri; R.C. Quinn; E. Rabbow; P. Rettberg; A.J. Ricco; K. Slenzka; R. de la Torre; J.-P. de Vera; F. Westall; N. Carrasco; A. Fresneau; Y. Kawaguchi; Y. Kebukawa; D. Nguyen; O. Poch; K. Saiagh; F. Stalport; A. Yamagishi; H. Yano; B.A. Klamm

doi:https://doi.org/10.1007/s11214-017-0365-5

Space as a Tool for Astrobiology: Review and Recommendations for Experimentations in Earth Orbit and Beyond

H. Cottin, J.M. Kotler, D. Billi, C. Cockell, R. Demets, P. Ehrenfreund, A. Elsaesser, L. d’Hendecourt, J.J.W.A. van Loon, Z. Martins, S. Onofri, R.C. Quinn, E. Rabbow, P. Rettberg, A.J. Ricco, K. Slenzka, R. de la Torre, J.-P. de Vera, F. Westall, N. CarrascoA. Fresneau, Y. Kawaguchi, Y. Kebukawa, D. Nguyen, O. Poch, K. Saiagh, F. Stalport, A. Yamagishi, H. Yano, B.A. Klamm

Oral and Maxillofacial Surgery / Oral Pathology (VUmc)

Research output: Contribution to journal › Review article › Academic › peer-review

52 Citations (Scopus)

Abstract

The space environment is regularly used for experiments addressing astrobiology research goals. The specific conditions prevailing in Earth orbit and beyond, notably the radiative environment (photons and energetic particles) and the possibility to conduct long-duration measurements, have been the main motivations for developing experimental concepts to expose chemical or biological samples to outer space, or to use the reentry of a spacecraft on Earth to simulate the fall of a meteorite. This paper represents an overview of past and current research in astrobiology conducted in Earth orbit and beyond, with a special focus on ESA missions such as Biopan, STONE (on Russian FOTON capsules) and EXPOSE facilities (outside the International Space Station). The future of exposure platforms is discussed, notably how they can be improved for better science return, and how to incorporate the use of small satellites such as those built in cubesat format.

Original language	English
Pages (from-to)	83-181
Number of pages	99
Journal	Space Science Reviews
Volume	209
Issue number	1-4
DOIs	https://doi.org/10.1007/s11214-017-0365-5
Publication status	Published - 1 Jul 2017

Keywords

Astrobiology
Astrochemistry
BIOPAN
Cubesat
EXPOSE
Exobiology
Hardware for space experiments
International Space Station
Nanosatellites
STONE
Space environment
Tanpopo

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Cottin, H., Kotler, J. M., Billi, D., Cockell, C., Demets, R., Ehrenfreund, P., Elsaesser, A., d’Hendecourt, L., van Loon, J. J. W. A., Martins, Z., Onofri, S., Quinn, R. C., Rabbow, E., Rettberg, P., Ricco, A. J., Slenzka, K., de la Torre, R., de Vera, J.-P., Westall, F., ... Klamm, B. A. (2017). Space as a Tool for Astrobiology: Review and Recommendations for Experimentations in Earth Orbit and Beyond. Space Science Reviews, 209(1-4), 83-181. https://doi.org/10.1007/s11214-017-0365-5

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abstract = "The space environment is regularly used for experiments addressing astrobiology research goals. The specific conditions prevailing in Earth orbit and beyond, notably the radiative environment (photons and energetic particles) and the possibility to conduct long-duration measurements, have been the main motivations for developing experimental concepts to expose chemical or biological samples to outer space, or to use the reentry of a spacecraft on Earth to simulate the fall of a meteorite. This paper represents an overview of past and current research in astrobiology conducted in Earth orbit and beyond, with a special focus on ESA missions such as Biopan, STONE (on Russian FOTON capsules) and EXPOSE facilities (outside the International Space Station). The future of exposure platforms is discussed, notably how they can be improved for better science return, and how to incorporate the use of small satellites such as those built in cubesat format.",

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Cottin, H, Kotler, JM, Billi, D, Cockell, C, Demets, R, Ehrenfreund, P, Elsaesser, A, d’Hendecourt, L, van Loon, JJWA, Martins, Z, Onofri, S, Quinn, RC, Rabbow, E, Rettberg, P, Ricco, AJ, Slenzka, K, de la Torre, R, de Vera, J-P, Westall, F, Carrasco, N, Fresneau, A, Kawaguchi, Y, Kebukawa, Y, Nguyen, D, Poch, O, Saiagh, K, Stalport, F, Yamagishi, A, Yano, H & Klamm, BA 2017, 'Space as a Tool for Astrobiology: Review and Recommendations for Experimentations in Earth Orbit and Beyond', Space Science Reviews, vol. 209, no. 1-4, pp. 83-181. https://doi.org/10.1007/s11214-017-0365-5

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T1 - Space as a Tool for Astrobiology

T2 - Review and Recommendations for Experimentations in Earth Orbit and Beyond

AU - Cottin, H.

AU - Kotler, J.M.

AU - Billi, D.

AU - Cockell, C.

AU - Demets, R.

AU - Ehrenfreund, P.

AU - Elsaesser, A.

AU - d’Hendecourt, L.

AU - van Loon, J.J.W.A.

AU - Martins, Z.

AU - Onofri, S.

AU - Quinn, R.C.

AU - Rabbow, E.

AU - Rettberg, P.

AU - Ricco, A.J.

AU - Slenzka, K.

AU - de la Torre, R.

AU - de Vera, J.-P.

AU - Westall, F.

AU - Carrasco, N.

AU - Fresneau, A.

AU - Kawaguchi, Y.

AU - Kebukawa, Y.

AU - Nguyen, D.

AU - Poch, O.

AU - Saiagh, K.

AU - Stalport, F.

AU - Yamagishi, A.

AU - Yano, H.

AU - Klamm, B.A.

PY - 2017/7/1

Y1 - 2017/7/1

N2 - The space environment is regularly used for experiments addressing astrobiology research goals. The specific conditions prevailing in Earth orbit and beyond, notably the radiative environment (photons and energetic particles) and the possibility to conduct long-duration measurements, have been the main motivations for developing experimental concepts to expose chemical or biological samples to outer space, or to use the reentry of a spacecraft on Earth to simulate the fall of a meteorite. This paper represents an overview of past and current research in astrobiology conducted in Earth orbit and beyond, with a special focus on ESA missions such as Biopan, STONE (on Russian FOTON capsules) and EXPOSE facilities (outside the International Space Station). The future of exposure platforms is discussed, notably how they can be improved for better science return, and how to incorporate the use of small satellites such as those built in cubesat format.

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KW - Astrobiology

KW - Astrochemistry

KW - BIOPAN

KW - Cubesat

KW - EXPOSE

KW - Exobiology

KW - Hardware for space experiments

KW - International Space Station

KW - Nanosatellites

KW - STONE

KW - Space environment

KW - Tanpopo

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U2 - https://doi.org/10.1007/s11214-017-0365-5

DO - https://doi.org/10.1007/s11214-017-0365-5

M3 - Review article

SN - 0038-6308

VL - 209

SP - 83

EP - 181

JO - Space Science Reviews

JF - Space Science Reviews

IS - 1-4

ER -

Space as a Tool for Astrobiology: Review and Recommendations for Experimentations in Earth Orbit and Beyond

Abstract

Keywords

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