Manned deep space missions will bring with them a barrage of problems with them and NASA has already started solving some of them with advanced research programmes. One of the challenge is supply of food for the astronauts.
NASA is busy researching ways to grow food in space and it has managed to attain success to a certain extent. However, that’s just one bit of research that the space agency is carrying out as it is now looking for ways to recycle human excreta into food. Yes! you read that right.
For this ‘innovative’ idea, NASA is funding researchers at Clemson University in South Carolina with up to $200,000 a year for up to three years. Researchers at the university revealed that they are researching use of urine and exhaled carbon dioxide as the building blocks to create useful items that astronauts may use.
For this, researchers are genetically engineering yeast to produce polymers, or plastics, used for 3D printing, as well as Omega 3s, which lower heart disease risk, and protect skin and hair.
Nitrogen is required to grow yeast and it is abundant in human urine. Yeast also feeds on fatty acids which certain algae can create out of carbon.
Researchers say that their system would grow yeast that could take those lipids and nitrogen and turn them into plastics and Omega 3s.
The grant was one of eight given to universities around the US, all of which focus on “innovative, early stage technologies that will address high-priority needs of America’s space program”, NASA said.
“These early career researchers will provide fuel for NASA’s innovation engine,” said Steve Jurczyk, associate administrator for NASA’s Space Technology Mission Directorate.
Earlier this month, the six astronauts currently living on the International Space Station (ISS) became the first people to eat food grown at the Veggie plant growth system aboard the orbiting laboratory in space.
The fresh “Outredgeous” red romaine lettuce that accompanied the crew’s usual freeze-dried fare, however, is far from the first crop grown on a space station.
As the space agency eyes deep-space missions like a trip to an asteroid or Mars, space farming becomes less of a novelty and more of a necessity.
Plants will be an integral part of any life-support system for extended missions, providing food and oxygen and processing waste.
Significant further advances will be necessary, and each of them promises to bring new innovations to agriculture here on the Earth.
NASA is planning to land humans on Mars by 2030 and is investing in ideas to figure out ways for astronauts to be more self-sufficient on long-term space missions.