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Manned spacecraft / Space stations / Astrobiology / International Space Station / Panspermia / Lichen / Magnesium in biology / X. elegans / Spaceflight / Biology / Human spaceflight


International Journal of Astrobiology, Page 1 of 15 doi:[removed]S1473550414000214 © Cambridge University Press 2014 Viability of the lichen Xanthoria elegans and its symbionts after 18 months of space exposure and simul
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Document Date: 2014-08-26 10:39:26

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City

Düsseldorf / Walz / Berlin / Cologne / Valais / Zeiss / /

Company

Cambridge University Press / Thomson / /

Country

Switzerland / Germany / United States / Italy / /

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Event

M&A / Natural Disaster / /

Facility

Institute of Botany / International Space Station / EXPOSE-E facility / Tuscia University / Germany Institute of Planetary Research / /

IndustryTerm

photon energy / magnitude higher energy / sample site / standardized measuring protocol / photon energy input / re-activation protocol / interplanetary travel / software-aided cell counters / prolonged reactivation protocols / /

MedicalCondition

MS / /

MedicalTreatment

radiation / /

NaturalFeature

Himalaya / /

Organization

Cambridge University / National Institute of Health / Tuscia University / Department of Ecological and Biological Sciences / Institute of Botany / Germany Institute of Planetary Research / German Aerospace Center / /

Person

Annette Brandt / Lewis Smith / /

Position

producer / /

Product

sterile water / /

ProvinceOrState

Manitoba / Oregon / /

PublishedMedium

International Journal of Astrobiology / /

Region

Antarctic / /

Technology

radiation / laser / prolonged reactivation protocols / Second re-activation protocol / Red Shift Protocol / dying protocol / re-activation protocol / simulation / same protocol / standardized measuring protocol / /

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