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- bg-4-545-2007 accessdate "2013-06-01".
- bg-4-545-2007 bibcode "2007BGeo....4..545D".
- bg-4-545-2007 date "2007".
- bg-4-545-2007 doi "10.5194/bg-4-545-2007".
- bg-4-545-2007 first "L. R.".
- bg-4-545-2007 first1 "L. R.".
- bg-4-545-2007 first2 "L.".
- bg-4-545-2007 first3 "J. M.".
- bg-4-545-2007 first4 "A. J.".
- bg-4-545-2007 isCitedBy ExoLance.
- bg-4-545-2007 isCitedBy Icebreaker_Life.
- bg-4-545-2007 isCitedBy Life_on_Mars.
- bg-4-545-2007 isCitedBy Water_on_Mars.
- bg-4-545-2007 issue "4".
- bg-4-545-2007 journal "Biogeosciences".
- bg-4-545-2007 last "Dartnell".
- bg-4-545-2007 last1 "Dartnell".
- bg-4-545-2007 last2 "Desorgher".
- bg-4-545-2007 last3 "Ward".
- bg-4-545-2007 last4 "Coates".
- bg-4-545-2007 pages "545–558".
- bg-4-545-2007 quote "This ionising radiation field is deleterious to the survival of dormant cells or spores and the persistence of molecular biomarkers in the subsurface, and so its characterisation. [..] Even at a depth of 2 meters beneath the surface, any microbes would likely be dormant, cryopreserved by the current freezing conditions, and so metabolically inactive and unable to repair cellular degradation as it occurs.".
- bg-4-545-2007 quote "This ionising radiation field is deleterious to the survival of dormant cells or spores and the persistence of molecular biomarkers in the subsurface, and so its characterisation. [..] Even at a depth of 2 meters beneath the surface, any microbes would probably be dormant, cryopreserved by the current freezing conditions, and so metabolically inactive and unable to repair cellular degradation as it occurs.".
- bg-4-545-2007 title "Martian sub-surface ionising radiation: biosignatures and geology".
- bg-4-545-2007 url bg-4-545-2007.html.
- bg-4-545-2007 volume "4".
- bg-4-545-2007 year "2007".