How to grow plants on Mars

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Researchers find innovative way to improve soils on Mars for the cultivation of future colonising Earthlings.

Learn how scientist have combined their understanding of Biology, Chemistry and Earth and Space science to develop a way to grow plants on Mars. This resource is best suited to students in R, Year 4, 5, 7 and 8.

Word Count: 251

A tall clover plant in a container of soil and a short, single leaf growing in a second container.
Observed growth differences between clover (Melilotus officinalis) inoculated with nodule forming bacteria Sinorhizobium meliloti (left) and a clover plant not inoculated when grown in Martian regolith. Credit: Harris et al., 2021, PLOS ONE, CC-BY 4.0

If we ever want to move to Mars, we’ll need to learn how to grow food right there on the Red Planet. But the soil there is harsh and unsavoury for most plants.

Well, somebody call Matt Damon because astroagriculturalists have found a way to give clover plants a microbial “buddy” that will help fill the soil with nutritious, growth-promoting nitrogen.

Nitrogen is an important fertiliser for plants and is essential for their growth and development. On Earth, special microbes live in the soil that pull nitrogen out of the air and convert the molecules into a form of ammonium that can be easily used by the plants – a process called nitrogen fixation.

Matt Damon as Mark Watney in the film The Martian.

Martian soil – called regolith – doesn’t have this important fertiliser, which could greatly inhibit astroagricultural efforts on Mars.

However, an international team of researchers found a way to inoculate clover plants with a nitrogen-fixing microbe (Sinorhizobium meliloti) – commonly found in clover roots on Earth – that helped the clover to thrive in regolith.

Clover was already known to grow in regolith, but the inoculated clover exhibited 75% more root and shoot growth compared to the “normal” clover.

Interestingly, the surrounding regolith didn’t contain any extra ammonium, suggesting that the symbiotic relationship created enough ammonium for the plant to grow better but not enough to contaminate the soil.

This could mean that the future of agriculture on Mars involves giving plants a healthy dose of a symbiotic microbe, but more research is needed to establish how other plants and crops fare.

The study was published in PLOS ONE.

This article is republished from Cosmos. You can access the original article here.

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Years: R, 4, 5, 7, 8

Topics:

Biological Sciences – Ecosystems, Living Things

Chemical Sciences – Atoms

Earth and Space Sciences – The Solar System, Rocks

Additional: Careers, Technology.

Concepts (South Australia):

Biological Sciences – Interdependence and Ecosystems

Chemical Sciences – Change of Matter

Earth and Space Sciences – The Earth’s Surface, Earth in Space

Years:

F, 4-5 & 7-8