Extremotolerance and resistance of lichens: Comparative studies on five species used in astrobiological research - II. Secondary lichen compounds
| Autor: | R. de la Torre, F. J. Sánchez, J. Meeßen, Andres Sadowsky, J. P. de Vera, Sieglinde Ott |
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| Jazyk: | němčina |
| Rok vydání: | 2013 |
| Předmět: |
secondary lichen compounds
BIOMEX Ultraviolet Rays Adaptation Biological Parietin chemistry.chemical_compound Species Specificity Symbiosis Botany extremotolerance Lichen lichens Ecology Evolution Behavior and Systematics Abiotic component biology Ecology rhizocarpic acid Rhizocarpon geographicum General Medicine biology.organism_classification Thallus melanin Pleopsidium chlorophanum chemistry Space and Planetary Science parietin Xanthoria elegans |
| DOI: | 10.1007/s11084-013-9348-z |
| Popis: | Lichens, which are symbioses of a fungus and one or two photoautotrophs, frequently tolerate extreme environmental conditions. This makes them valuable model systems in astrobiological research to fathom the limits and limitations of eukaryotic symbioses. Various studies demonstrated the high resistance of selected extremotolerant lichens towards extreme, non-terrestrial abiotic factors including space exposure, hypervelocity impact simulations as well as space and Martian parameter simulations. This study focusses on the diverse set of secondary lichen compounds (SLCs) that act as photo- and UVR-protective substances. Five lichen species used in present-day astrobiological research were compared: Buellia frigida, Circinaria gyrosa, Rhizocarpon geographicum, Xanthoria elegans, and Pleopsidium chlorophanum. Detailed investigation of secondary substances including photosynthetic pigments was performed for whole lichen thalli but also for axenically cultivated mycobionts and photobionts by methods of UV/VIS-spectrophotometry and two types of high performance liquid chromatography (HPLC). Additionally, a set of chemical tests is presented to confirm the formation of melanic compounds in lichen and mycobiont samples. All investigated lichens reveal various sets of SLCs, except C. gyrosa where only melanin was putatively identified. Such studies will help to assess the contribution of SLCs on lichen extremotolerance, to understand the adaptation of lichens to prevalent abiotic stressors of the respective habitat, and to form a basis for interpreting recent and future astrobiological experiments. As most of the identified SLCs demonstrated a high capacity in absorbing UVR, they may also explain the high resistance of lichens towards non-terrestrial UVR. |
| Databáze: | OpenAIRE |
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