Plant genetic regulation of the microbiome and applications for Canadian agriculture

Abstract

Despite our emergent understanding of the contribution of beneficial microbes to the health of humans and the crops we eat, microbiome engineering to improve plant health has had limited success. Recent work has shown that plant genotype plays a critical role in shaping the plant microbiome and so plant genetics must be considered in engineering practices. Here, we review recent work from our lab and others on plant-driven genetic and molecular mechanisms that shape plant-associated microbial communities. Based on our emergent understanding of plant-driven recruitment of beneficial microbes, we discuss challenges in Canadian agriculture that are strong candidates for microbiome engineering. These include pathogens that have been difficult to control through traditional methods including root rot pathogens, as well as controlled agricultural systems like greenhouses and vertical farming. Finally, we discuss knowledge gaps to achieve successful microbiome engineering that can be filled with basic research, particularly through the use of model plant systems.