Outer space offers plant breeders some curious advantages

PLANTS GROWN in orbit, and thereby deprived of the comforting directional pull of Earth’s gravity, typically struggle to distinguish up from down. This makes it harder for them to carry water and nutrients around themselves. It also fouls up their ability to draw carbon dioxide needed for photosynthesis from the air. The stress caused by all this seems to increase the level of genetic mutation induced by a given amount of radiation—of which there is much in space, in the form of cosmic rays and effluvia from the sun. And mutations are the lifeblood of plant breeders.

On Earth, breeders induce them by exposing plants and seeds to radioactive isotopes, X-rays and so on. Most are harmful. But some hit the jackpot, conferring properties like drought resistance, blight resistance or shorter stems, favoured by farmers, and sweeter flavours, brighter colours or thinner peel, favoured by consumers. Plucked from their progenitors by selective breeding and added to cultivars, such mutations are worth millions. Mutagenesis, then, is an important business.

And it is one that StarLab Oasis, a firm in Abu Dhabi that was spun out of a Texan enterprise called Nanoracks in 2021, reckons it may be able to perform better. As the firm’s name hints, the plan is to do the job using the natural radiation of space. Its researchers intend to start sending payloads of seeds to the International Space Station (ISS) later this year. Once there, those seeds will be cultivated by astronauts on board the station and allowed to grow and breed.

Subsequent generations of seeds resulting from this breeding will be returned to Earth and germinated in StarLab Oasis’s greenhouses. They will then be subjected to ills including drought, pathogens, poor soil, excessive heat and voracious insects. Those which best endure these assaults will be bred from in their turn, in the hope that something valuable emerges.

A cut-down version of this approach, launching packets of seeds on satellites and returning them to Earth after a period of exposure to cosmic radiation, has had some success. China says it has conducted more than 30 such missions, and that these have yielded at least 200 improved crop varieties. StarLab Oasis’s boss, Allen Herbert, believes, however, that his firm is the first private organisation set up to take this route and, in particular, actually to raise plants in space for the purpose.

Mutagenesis is not, moreover, the only facility offered by space which may be of interest to botanists. The stress responses themselves also yield useful information.

Robert Ferl and Anna-Lisa Paul are joint heads of the Space Plants Lab at the University of Florida, Gainesville, which already has experiments on board the ISS. These are studying how Arabidopsis thaliana, a species of cress that is botany’s equivalent of animal scientists’ mice and fruit flies, responds to the rigours of orbital free fall. The answer is that the plants switch on some genes which would normally remain dormant, while switching off others that would normally be active.

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