Published in the open-access journal IMA Fungus, a new study highlights the potential for lichens to survive and function on the Martian surface, challenging previous assumptions about the uninhabitable nature of Mars, and offering insights for astrobiology and space exploration.
Lichens are not a single organism, but a symbiotic association between a fungus and algae and/or cyanobacteria known for their extreme tolerance to harsh environments such as Earth's deserts and polar regions. In this study, the fungal partner in lichen symbiosis remained metabolically active when exposed to Mars-like atmospheric conditions in darkness, including X-ray radiation levels expected on Mars over one year of strong solar activity.
The research focuses on two lichen species, Diploschistes muscorum and Cetraria aculeata, selected for their differing traits, exposing them to Mars-like conditions for five hours in a simulation of the planet’s atmospheric composition, pressure, temperature fluctuations, and X-ray radiation.
The findings suggest that lichens, particularly D. muscorum, could potentially survive on Mars despite the high doses of X-ray radiation associated with solar flares and energetic particles reaching the planet’s surface. These results challenge the assumption that ionizing radiation is an insurmountable barrier to life on Mars and set the stage for further research on the potential for extraterrestrial microbial and symbiotic survival.
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