Geographic distribution, host preference and phylogenetic relationships among Pyricularia species inciting millet and rice blast disease in India

Blast disease causes significant damage to millets (pearl millet, finger millet and foxtail millet) and rice in India. This study investigates strains of Pyricularia, the causal agent of blast disease, in rice and millets in India in terms of their diversity, host preferences and phylogeny. One hund...

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Published in:Plant pathology 2024-04, Vol.73 (3), p.692-705
Main Authors: Palanna, K. B., Vinaykumar, H. D., Koti, Prasanna S., Jeevan, B., Rajashekara, H., Raveendra, H. R., Patro, T. S. S. K., Ramesh, G. V., Mudalagiriyappa, Rawat, Laxmi, Netam, Prahlad, Ekka, Savita, Rajesha, G., Das, I. K., Chandranayaka, S., Nagaraja, T. E., Satyavathi, C. Tara
Format: Article
Language:English
Subjects:
Disease control
diversity
Eleusine coracana
epidemiology
Geographical distribution
Host preferences
host range
Millet
Phylogenetics
Phylogeny
Pyricularia
Rice
Rice blast
Setaria italica
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Summary:Blast disease causes significant damage to millets (pearl millet, finger millet and foxtail millet) and rice in India. This study investigates strains of Pyricularia, the causal agent of blast disease, in rice and millets in India in terms of their diversity, host preferences and phylogeny. One hundred and thirty‐six Pyricularia isolates causing rice and millet blast were collected from 46 locations in India. They displayed morphological diversity irrespective of host or location. All Pyricularia isolates were separated into two major clusters by a multilocus sequence‐based phylogenetic tree, which also demonstrated that most isolates are grouped according to their host associations. In contrast, a few finger millet isolates were found to be grouped with foxtail millet isolates. We explored how Pyricularia isolates behaved when exposed to rice and millets. Finger millet isolates were shown to be pathogenic on a wide variety of millets, whereas rice isolates were only found to infect rice and wheat. The majority of the blast isolates of millets were shown to be pathogenic on common weed species of the millet ecosystem, such as Echinochloa crusgalli, Eleusina indica and Erogrotis gagantica. Our findings emphasize the importance of pathogen surveillance in both cultivated crops and weed hosts, as well as the possible risk of blast fungus infection in Indian millets due to host expansion. Blast disease control programmes in India will be greatly enhanced by the knowledge gained in this study on the diversity and host association of Pyricularia strains. The study explores the diversity, host preferences and phylogeny of Pyricularia strains found in rice and millets in India.
ISSN:0032-0862
1365-3059
DOI:10.1111/ppa.13830