Sweet potato grows well aboard space shuttle ColumbiaFebruary 18th, 2009 - 12:05 pm ICT by IANS
Washington, Feb 18 (IANS) The crying need for groceries in outer space has prompted scientists to look for ways to provide food for long-term space missions.
Desmond G. Mortley and colleagues from the Centre for Food and Environmental Systems for Human Exploration of Space, GW Carver Agricultural Experiment Station, and the Kennedy Space Centre undertook a study on microgravity’s effects on sweet potato.
Seeds of several crops have been grown in microgravity, but this was the first test for plants grown from cuttings. Cuttings grow roots faster than do seeds, and sweet potato cuttings regenerate very easily. This made them ideal for the study, half of which took place on a five-day space mission on the shuttle Columbia.
The other half of the cuttings remained on earth as the ground-based control group at Kennedy Space Center in Florida. Conditions were similar for both growing environments.
Both environments resulted in similar root growth development, though the microgravity roots tended to grow perpendicular to the cuttings. The number of roots was almost the same in both samples.
However, the length of roots grown in microgravity was significantly greater. Microgravity cuttings contained significant accumulation of soluble sugars and higher starch concentration than ground cuttings; the starch grains appeared smaller in microgravity samples.
Despite these differences, the study was successful in showing that stem cuttings, at least those started in normal gravity conditions, can regenerate roots in microgravity.
“This suggests that the space flight environment has no negative effect on the ability of vegetative cuttings to form roots and that use of cuttings should be an acceptable means for propagating sweet potato for future space applications,” summarised the researchers.
The next step will be to experiment over longer space missions to test root cuttings’ ability to grow plants, according to a Kennedy Space release.
These findings were published in the Journal of American Society for Horticultural Science.
Tags: agricultural experiment station, columbia washington, exploration of space, flight environment, future space, gravity conditions, human exploration, kennedy space center, kennedy space centre, microgravity, potato seeds, root cuttings, root growth, space applications, space mission, space missions, space shuttle columbia, starch grains, stem cuttings, term space