GoKawiilSign up to see the future, today Can’t-miss innovations from the bleeding edge of science and tech Email address Sign Up Thank you!
Once the first human settlers reach the surface of Mars, they’ll have to get extremely creative to turn the desolate and hostile environment into land that can support a permanent human presence. Like in Andy Weir’s blockbuster sci-fi novel “The Martian,” the local regolith would need plenty of manipulation to allow plants to grow.
But according to recent research, there may be much better alternatives to relying on biofuel and human waste, like the stranded protagonist in “The Martian.” As detailed in a paper published in the journal Frontiers in Astronomy and Space Sciences and spotted by Universe Today, an international team of researchers argue that special fungi could be used to convert the hostile Martian regolith into crop-friendly soil that could even be home to beneficial microbes and other organisms.
On their own, the researchers point out in their paper, regolith on the Moon and Mars aren’t exactly great candidates. They have a high alkaline pH, are riddled with toxic elements like aluminum and manganese, and are devoid of many important nutrients plants need to grow.
However, specific fungal species, such as trichoderma, a prevalent genus in soils here on Earth, have previously been shown to metabolize these toxic elements while also producing phosphates and other nutrients that are key to organic life.
Some extreme fungi, like Cryomyces antarcticus, which researchers have demonstrated can survive the harshness of outer space while strapped to the outside of the International Space Station, could be used to promote plant growth under “abiotic stress,” or negative impacts from environmental factors.
Other mycorrhizal fungi, species that are mutually beneficial to plant roots, can “enhance iron uptake, mitigate oxidative stress, and improve soil structure,” the researchers argue, in “mechanisms that may be applicable to regolith systems.”
Of course, plenty of questions remain whether Martian regolith will prove useful in growing plants on the surface of a hostile planet. We don’t know whether the final crops will be safe to eat or how they will react to radiation exposure, let alone how to validate the concept ahead of time, the researchers point out.
But anything that could sidestep the need to ship soil or other growing media all the way to Mars is worth looking into; it could potentially lower the costs enormously of future efforts to create a permanent presence on Mars.
And there are early positive signs that it may just work. Researchers at the University of Bremen and the German Aerospace Center successfully developed a algae-based fertilizer that can be produced exclusively with Martian resources — bringing us one step closer to growing food on Mars.
... continue reading