Here’s How Extraterrestrial Farming Will Work on Mars

Posted by on November 25, 2016 in Earth & Space, Sci-Tech with 0 Comments
Credit: FIT/20th Century Fox

Credit: FIT/20th Century Fox

By Ian O’Neill | Space

Landing humans on Mars would be a momentous event in human history. To live beyond Earth’s biosphere is a dream to many, but establishing a sustainable presence on the Red Planet will require mastering its environment. We would need to devise ways of producing food where none exists, because depending on supplies from Earth would neither be sustainable or practical.

In the 2015 blockbuster movie “The Martian,” Mark Watney (Matt Damon) is famously depicted planting potatoes in a makeshift greenhouse after getting stranded on Mars during an epic storm that forced the rest of his crew to abandon their mission. Using vacuum-packed potatoes from the mission’s base, Watney planted them using the planet’s “soil,” produced water from chemical reactions and fertilized his burgeoning potato crop with the crew’s freeze-dried poop.


Related Article: Big NASA Discovery: Salty Water Flowing on Mars

It seems like a pretty straightforward method of cultivating plants on Mars — but deceptively so.

“It’s nowhere near that easy,” Ralph Fritsche, senior project manager for food production at NASA’s Kennedy Space Center, told Seeker.

NASA plans to send astronauts to Mars by the 2030s, and Elon Musk’s SpaceX has proposed an aggressive Mars colonization effort based on the Interplanetary Transport System (ITS). But while SpaceX may have the expertise to transport people to Mars, there is no consideration as to how they might stay there and “live off the land” to produce food.

Considering that it would cost an estimated $1 billion per person per year just to send food from Earth to Mars, it quickly becomes clear that we need another plan for feeding future Mars explorers.

“Elon Musk has presented the world with a challenge,” said Daniel Batcheldor, professor of physics and space sciences at the Florida Institute of Technologyand project lead for the Buzz Aldrin Space Institute. “Right now, we know that we cannot deliver the mass needed to the surface of Mars purely from stuff sent from Earth. We have to create a sustainable colony on Mars that is not dependent on resupplies from Earth.”

Whether we’re thinking about setting up our first Mars colony or supporting a small team of NASA astronauts, researchers are currently developing novel strategies for growing plants beyond Earth.

Fritsche and his NASA colleague Trent Smith have teamed up with scientists at the Buzz Aldrin Space Institute to investigate how we might really grow food on Mars. Though using astronauts’ physical waste for fertilizer might play a role, everything from toxin removal to “designer bacteria” will be needed to create a Martian version of the soil that we take for granted here on Earth.

“There shouldn’t be any organic matter in Mars regolith” — powdered rock on the planet’s surface from eons of meteorite impacts — “and, in order to recycle the nutrients, you need to have decomposers to break down what’s there to make it available, in the right form, for plants to use,” said assistant professor Brooke Wheeler, of Florida Tech’s College of Aeronautics. “That would be one potential strategy of making a colony more sustainable to recycle waste, whether that’s human waste or leftover food for composting, or any other [organic] waste products to help build that into the design of the habitat.”

Related Article: The Government of Mars Is Already Being Planned: A Glimpse at Martian Law

Wheeler and her colleague Drew Palmer, an assistant professor of biological sciences at Florida Tech, are using a Mars regolith simulant in hopes of investigating how we might use native resources when we eventually land a human mission on Mars. The simulant, which is essentially powdered volcanic rock from Hawaii, contains none of the nutrients necessary for plants to grow, but it’s the closest thing we have to approximating Martian regolith.

Though the regolith simulant is a good start, Wheeler and Palmer are realistic about its limitations. One of the biggest challenges is how future Mars astronauts will “remediate” the regolith of toxic chemicals that are known to be present on the planet. As confirmed by NASA’s Mars Science Laboratory Curiosity, Martian regolith is packed with salts called perchlorates, which are used in industrial processes on Earth and are known to trigger serious thyroid problems. The removal of perchlorates from Mars regolith is essential to making the plentiful resource appropriate for agriculture on Mars.

“One of the things we’re keenly interested in is when we start to introduce microbes, we’d like to use engineered microbes that could eliminate things like the toxic perchlorates that will be in a lot of the soil,” said Palmer. “You can engineer bacteria now, already on Earth, to do that.”

But it doesn’t stop there. As Mars doesn’t have the soil microbes that form the backbone of the vital cycles that drive Earth’s biosphere, we will need to introduce the bacteria and strategic plant life to the Martian regolith to ensure the plants receive the necessary nutrients.

“We believe that, in the long term, by reincorporating the microbes and organisms that co-exist with plants [on Earth] will be able to create sustainable nitrogen and phosphorus cycles [on Mars],” said Palmer.

The raw material behind these cycles is fertilizer, so when planning Mars agriculture, we need to consider how that will be sourced. Will it be shipped from Earth? Or will it be produced on site to reduce cost and the dependence on Earth?

“That’s just more structures you have to build to supplement this [system],” Palmer added.

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