Discovery could lead to drought-resistant alfalfa
Agriculture and Agri-Food Canada
A recent study of plant genetics indicates that alfalfa, a forage crop used primarily for livestock, could be made more drought-resistant, which would reduce costs for producers and benefit the environment.
Agriculture and Agri-Food Canada (AAFC) research scientist Dr. Abdelali Hannoufa, who specializes in functional genomics and metabolic engineering, has discovered a gene in the alfalfa plant that regulates its capacity to maintain water content.
"The gene reduces water loss, so that the plant maintains its water content and can resist drought for a longer period of time," he says.
The gene in question is called microRNA156.
Dr. Hannoufa studies crop genetics at AAFC's London Research and Development Centre in Ontario. Collaborating with industry partners, he is finding ways to improve alfalfa through genomics.
"The gene (microRNA156) reduces water loss, so that the plant maintains its water content and can resist drought for a longer period of time."- Dr. Abdelali Hannoufa, Research Scientist, London Research and Development Centre, Agriculture and Agri-Food Canada
"Genomics is the study of the genetic makeup of an organism,” he says. "Genomics allows us to identify genes that control important crop traits,” including flowering time, forage quality and many others.
MicroRNA156 "is a master gene regulator,” notes Dr. Hannoufa. "It functions by regulating a network of other genes, called down-stream genes, which control yield, stress tolerance, and other factors.”
The gene's function is being studied closely and the findings are applied to plants grown under controlled conditions in the Centre's state-of-the-art greenhouse facility.
Industry partners are also adapting this technology for use in field trials.
Results show that the gene also increases alfalfa's root length. Longer roots allow the plant to reach deeper into the soil to absorb water and can lock in nutrients, such as nitrogen. Enhanced nitrogen fixation can reduce the need for subsequent fertilizer applications.
Drought resistance is an important trait because it maintains a crop's viability through unpredictable climate conditions and increases its adaptability to grow in various soil types. Combined, these benefits translate into savings for the producer.
Alfalfa is also cost-efficient because it is a perennial crop. "You don't have to seed it every year,” he notes.
In addition to being a valuable forage crop, "alfalfa is also being looked at as a crop for land reclamation,” he says. Alfalfa's adaptability to less-than-ideal growing conditions means it can help restore soil that has been degraded through prolonged use, or at sites of oil and gas explorations.
Seeded over approximately five million hectares across Canada, Dr. Hannoufa says alfalfa is one of Canada's most important crops, but its full potential has yet to be realized because "it is being contemplated as a competitive, low-input bioenergy crop.”
Ongoing research of gene functions, including that of other major crops like canola, may lead to further discoveries that enhance crop quality and performance under less-than-ideal production conditions.
The London Research and Development Centre is among AAFC's national network of 20 research centers. The Centre conducts research in the areas of genomics, biotechnology and integrated pest management (insects and plant diseases).
Key discoveries (benefits)
- The discovery of the functions of an important alfalfa gene, microRNA156, allows plant traits to be improved and regulated, including yield and stress resistance.
- Alfalfa can be adapted, using genomics technology, to be increasingly tolerant to drought, especially in less-than-ideal soils and climate conditions.
- This technology will lead to ongoing discoveries of improving crop quality for potential commercial applications, including biofuels.
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