After years of research and practice, NASA has successfully grown plants such as zucchini, broccoli, lettuce, and radishes aboard the ISS. Their most recent experiment, Project VEGGIE, has sent radishes up to the station to test growing high calorie foods in orbit. Fresh foods are a premium in space and most of their meals are freeze-dried and carefully rationed. VEGGIE aims to build a bioregenerative system aboard the ISS. In simpler terms, a system that helps to recycle carbon dioxide while generating food to make a more self-sufficient station. This would allow astronauts to stay in space for longer duration missions while devoting less cargo space to oxygen and food calories. The system itself keeps the plants within a tiny greenhouse with their root systems suspended in sealed “pillows” filled with a growing medium or nutrient solution. The pillows are sealed an impermeable to control the flow of water. Hydroponics or aeroponics systems mean less weight being placed on the station as well, making them preferable to standard soil-based growing systems.

But plant experiments don’t end there. Projects like GreenHab at the Mars Desert Research Station seek to improve our understanding of how plants would grow on other worlds with different light and air-pressure conditions. Even the soil is tested for viable plant growth. Recently, simulated Mars and moon soil tests were run by scientists in Germany to show the viability of crop growth on those worlds. Astoundingly, the Mars tests show that the soil there would be extremely beneficial to several different types of vegetable and grain crops.

The Benefits

So how is all of this going to help those of us trapped on the surface of this small blue sphere? Plants grown aboard the ISS have very specific problems to overcome. While we don’t have to worry about microgravity, the insights into plant biology can help improve growing conditions for plants. More immediately, NASA’s research into which frequencies of light are most beneficial to plants can help improve crop yields. While growing romaine lettuce, for example, NASA used bright-pink LED grow light to help improve their harvest.

Of all the advances in growth cycles and crop yields, maybe the best return from space farming will be new bioregenerative agriculture technologies. Hydroponics are already being used for vertical growth systems to help clean air around some skyscrapers in larger cities. They can also help to clean and process water outside of a major sanitation facility. If plants can be used to clean water and air, it will be a major benefit to cities dealing with both heavy pollution and expensive food imports. After all, if you can grow your food in a skyscraper while making the city greener, who wouldn’t want that?

What do you think? Will our foray into space be the key to cleaning up our home planet, or should we focus elsewhere? Let us know in the comments, or send us a message through Facebook, Twitter, Google Plus, LinkedIn, Pinterest, or Instagram!