Pests and diseases may reduce global wheat yields by over 20%. A study published April 11th in the open access journal PLOS Biology by Sergio Latorre at University College London, UK and colleagues suggest that genomic surveillance may be an effective disease management tool with the ability to trace lineages of emerging crop diseases, and to identify genetic traits for breeding disease-resistant lines.
Wheat crops across the globe are threatened by wheat blast, an emerging fungal disease. However, disease-management strategies have been unsuccessful. In order to better understand emerging pathogen genotypes and lineages, researchers conducted both genome analyses and laboratory experiments. They genotyped and sequenced the genome of the pandemic wheat blast fungus and tested different lines of wheat for genetic resistance to blast fungus and susceptibility to fungicide.
The researchers found that the recent emergence of wheat blast in Asia and Africa was caused by a single clonal lineage of the wheat blast fungus and that outbreaks in Zambia and Bangladesh originated independently. They also show that breeds of wheat that carry the Rmg8 gene are resistant to this fungal strain, and that the fungus is sensitive to the fungicide strobilurin. These findings highlight how genomic surveillance may help plant breeders more effectively select traits to develop disease-resistant lines.
The research may provide new tools to help counteract emerging plant pathogens. However, future studies are needed to address the likelihood of crop diseases evolving resistance to pesticides and fungicides and to evaluate other potential strategies that reduce reliance on chemical inputs.
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