Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration

Due to its proximity to Earth, the Moon is a promising candidate for the location of an extra-terrestrial human colony. In addition to being a high-fidelity platform for research on reduced gravity, radiation risk, and circadian disruption, the Moon qualifies as an isolated, confined, and extreme (I...

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Published in:Planetary and Space Science
Main Authors: Goswami, Nandu, Roma, Peter G., De Boever, Patrick, Clément, Gilles, Hargens, Alan R., Loeppky, Jack A., Evans, Joyce M., Stein, T. Peter, Blaber, Andrew P., Van Loon, Jack J.W.A., Mano, Tadaaki, Iwase, Satoshi, Reitz, Guenther, Hinghofer-Szalkay, Helmut G.
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: Elsevier 2012
Subjects:
Strahlenbiologie
Antarctic
Antarc*
Online Access:http://elib.dlr.de/77077/
id ftdlr:oai:elib.dlr.de:77077
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:77077 2023-05-15T13:51:21+02:00 Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration Goswami, Nandu Roma, Peter G. De Boever, Patrick Clément, Gilles Hargens, Alan R. Loeppky, Jack A. Evans, Joyce M. Stein, T. Peter Blaber, Andrew P. Van Loon, Jack J.W.A. Mano, Tadaaki Iwase, Satoshi Reitz, Guenther Hinghofer-Szalkay, Helmut G. 2012 http://elib.dlr.de/77077/ unknown Elsevier Goswami, Nandu und Roma, Peter G. und De Boever, Patrick und Clément, Gilles und Hargens, Alan R. und Loeppky, Jack A. und Evans, Joyce M. und Stein, T. Peter und Blaber, Andrew P. und Van Loon, Jack J.W.A. und Mano, Tadaaki und Iwase, Satoshi und Reitz, Guenther und Hinghofer-Szalkay, Helmut G. (2012) Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration. Planetary and Space Science, Epub ahead of print (in press). Elsevier. DOI:10.1016/j.pss.2012.07.030. Strahlenbiologie Zeitschriftenbeitrag PeerReviewed 2012 ftdlr https://doi.org/10.1016/j.pss.2012.07.030 2016-03-29T05:51:14Z Due to its proximity to Earth, the Moon is a promising candidate for the location of an extra-terrestrial human colony. In addition to being a high-fidelity platform for research on reduced gravity, radiation risk, and circadian disruption, the Moon qualifies as an isolated, confined, and extreme (ICE) environment suitable as an analogue for studying the psychosocial effects of long-duration human space exploration missions and understanding these processes. In contrast, the various Antarctic research outposts such as Concordia and McMurdo serve as valuable platforms for studying biobehavioral adaptations to ICE environments, but are still Earth-bound, and thus lack the low-gravity and radiation risks of space. The International Space Station (ISS), itself now considered an analogue environment for long-duration missions, better approximates the habitable infrastructure limitations of a lunar colony than most Antarctic settlements in an altered gravity setting. However, the ISS is still protected against cosmic radiation by the earth magnetic field, which prevents high exposures due to solar particle events and reduces exposures to galactic cosmic radiation. On Moon the ICE environments are strengthened, radiations of all energies are present capable of inducing performance degradation, as well as reduced gravity and lunar dust. The interaction of reduced gravity, radiation exposure, and ICE conditions may affect biology and behavior--and ultimately mission success--in ways the scientific and operational communities have yet to appreciate, therefore a long-term or permanent human presence on the Moon would ultimately provide invaluable high-fidelity opportunities for integrated multidisciplinary research and for preparations of a manned mission to Mars. Other Non-Article Part of Journal/Newspaper Antarc* Antarctic German Aerospace Center: elib - DLR electronic library Antarctic Planetary and Space Science 74 1 111 120
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic Strahlenbiologie
spellingShingle Strahlenbiologie
Goswami, Nandu
Roma, Peter G.
De Boever, Patrick
Clément, Gilles
Hargens, Alan R.
Loeppky, Jack A.
Evans, Joyce M.
Stein, T. Peter
Blaber, Andrew P.
Van Loon, Jack J.W.A.
Mano, Tadaaki
Iwase, Satoshi
Reitz, Guenther
Hinghofer-Szalkay, Helmut G.
Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration
topic_facet Strahlenbiologie
description Due to its proximity to Earth, the Moon is a promising candidate for the location of an extra-terrestrial human colony. In addition to being a high-fidelity platform for research on reduced gravity, radiation risk, and circadian disruption, the Moon qualifies as an isolated, confined, and extreme (ICE) environment suitable as an analogue for studying the psychosocial effects of long-duration human space exploration missions and understanding these processes. In contrast, the various Antarctic research outposts such as Concordia and McMurdo serve as valuable platforms for studying biobehavioral adaptations to ICE environments, but are still Earth-bound, and thus lack the low-gravity and radiation risks of space. The International Space Station (ISS), itself now considered an analogue environment for long-duration missions, better approximates the habitable infrastructure limitations of a lunar colony than most Antarctic settlements in an altered gravity setting. However, the ISS is still protected against cosmic radiation by the earth magnetic field, which prevents high exposures due to solar particle events and reduces exposures to galactic cosmic radiation. On Moon the ICE environments are strengthened, radiations of all energies are present capable of inducing performance degradation, as well as reduced gravity and lunar dust. The interaction of reduced gravity, radiation exposure, and ICE conditions may affect biology and behavior--and ultimately mission success--in ways the scientific and operational communities have yet to appreciate, therefore a long-term or permanent human presence on the Moon would ultimately provide invaluable high-fidelity opportunities for integrated multidisciplinary research and for preparations of a manned mission to Mars.
format Other Non-Article Part of Journal/Newspaper
author Goswami, Nandu
Roma, Peter G.
De Boever, Patrick
Clément, Gilles
Hargens, Alan R.
Loeppky, Jack A.
Evans, Joyce M.
Stein, T. Peter
Blaber, Andrew P.
Van Loon, Jack J.W.A.
Mano, Tadaaki
Iwase, Satoshi
Reitz, Guenther
Hinghofer-Szalkay, Helmut G.
author_facet Goswami, Nandu
Roma, Peter G.
De Boever, Patrick
Clément, Gilles
Hargens, Alan R.
Loeppky, Jack A.
Evans, Joyce M.
Stein, T. Peter
Blaber, Andrew P.
Van Loon, Jack J.W.A.
Mano, Tadaaki
Iwase, Satoshi
Reitz, Guenther
Hinghofer-Szalkay, Helmut G.
author_sort Goswami, Nandu
title Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration
title_short Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration
title_full Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration
title_fullStr Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration
title_full_unstemmed Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration
title_sort using the moon as a high-fidelity analogue environment to study biological and behavioural effects of long-duration space exploration
publisher Elsevier
publishDate 2012
url http://elib.dlr.de/77077/
geographic Antarctic
geographic_facet Antarctic
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_relation Goswami, Nandu und Roma, Peter G. und De Boever, Patrick und Clément, Gilles und Hargens, Alan R. und Loeppky, Jack A. und Evans, Joyce M. und Stein, T. Peter und Blaber, Andrew P. und Van Loon, Jack J.W.A. und Mano, Tadaaki und Iwase, Satoshi und Reitz, Guenther und Hinghofer-Szalkay, Helmut G. (2012) Using the Moon as a High-Fidelity Analogue Environment to Study Biological and Behavioural Effects of Long-Duration Space Exploration. Planetary and Space Science, Epub ahead of print (in press). Elsevier. DOI:10.1016/j.pss.2012.07.030.
op_doi https://doi.org/10.1016/j.pss.2012.07.030
container_title Planetary and Space Science
container_volume 74
container_issue 1
container_start_page 111
op_container_end_page 120
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