“The presence of fungal species in cleanroom environments, their potential to survive prolonged exposure to space conditions, in combination with the results of this study, underscore fungal conidia as a significant consideration for planetary protection.” [ https://www.labroots.com/trending/space/30458/fungus-nasa-cl…nditions-2](https://www.labroots.com/trending/space/30458/fungus-nasa-cl…nditions-2)
NASA cleanrooms exist to keep spacecraft free of fungus and bacteria that could unknowingly hitch a ride to another world. But what if these procedures aren’t sufficient? This is what a recent study published in Applied and Environmental Microbiology hopes to address as a team of researchers investigated if decontamination strategies outlined by NASA’s planetary protection office are sufficient in preventing fungus and bacteria on Earth from contaminating other worlds.
For the study, the researchers conducted a series of experimental simulations to ascertain the survival probabilities of several microorganisms and whether they would survive on Mars and during the journey to the Red Planet. The primary goal of this study was to address a knowledge gap with planetary protection, specifically whether current protocols are sufficient in preventing bacteria and other microorganisms from hitching a ride on spacecraft to other worlds.
In the end, the researchers found that a known fungus called Aspergillus calidoustus (A. calidoustus) was found to survive sterilization procedures, contrary to rigorous cleaning. Additionally, the researchers found that A. calidoustus would not only survive the trip to Mars, but it could also survive on the surface of Mars despite the extreme radiation and temperatures. However, the team did find that A. calidoustus met its end when exposed to a combination of radiation and the extreme cold of the Martian surface.
