Quinoa, the sacred “mother grain” of the ancient Inca civilisation suppressed by Spanish conquistadors, could become an increasingly important food source in the future thanks to genetic secrets revealed in a new study.
Scientists said they have mapped the genome of quinoa and identified a gene that could be manipulated to get rid of the grain’s natural bitter taste and pave the way for more widespread commercial use.
Quinoa already grows well in harsh conditions such as salty and low-quality soil, high elevations and cool temperatures, meaning it can flourish in locales where common cereal crops like wheat and rice may struggle. But the presence of toxic and bitter chemicals called saponins in its seeds has been one of the impediments to extensive cultivation.
Plant scientist Mark Tester of King Abdullah University of Science and Technology in Saudi Arabia said the research pinpointed a gene that guides production of saponins in quinoa. This knowledge could enable breeding of quinoa without saponins, to make the seeds sweeter. Currently, quinoa grain must be processed through washing and drying after harvest to remove saponins.
“Quinoa is currently greatly under-utilised,” said Tester, who led the research published in the journal Nature. “It is highly nutritious, with a high protein content that, importantly, has a very good balance of amino acids, which is unusual for our major grains. It is gluten free and high in vitamins and minerals, too.”
Increased quinoa production could improve food security on a planet with unrelenting human population growth, Tester said. There are potential disadvantages to reducing saponins, perhaps increasing susceptibility to fungal infections or bird predation, Tester added.
Quinoa, which boasts a nutty flavour, can be used the same ways as rice and wheat. It can be cooked and served on its own, turned into pasta, put in soups, eaten as a cereal or fermented to ake beer or chicha, a beverage of the Andes. The crop was sacred to the ancient Incas, who called it “chisoya mama,” or the “mother grain.”