Multilocus identification and thiophanate‐methyl sensitivity of Colletotrichum gloeosporioides species complex associated with fruit with symptoms and symptomless leaves of mango

Colletotrichum spp. are known causal agents of anthracnose in a broad host range, causing severe losses. Currently, the most effective way to reduce disease is by fungicide application, which could give rise to resistant populations. This study aimed to determine the Colletotrichum species present i...

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Published inPlant pathology Vol. 69; no. 6; pp. 1125 - 1138
Main Authors Fuentes‐Aragón, Dionicio, Guarnaccia, Vladimiro, Rebollar‐Alviter, Angel, Juárez‐Vázquez, Sandra B., Aguirre‐Rayo, Fortino, Silva‐Rojas, Hilda V.
Format Journal Article
LanguageEnglish
Published Oxford Wiley Subscription Services, Inc 01.08.2020
Subjects
Anthracnose
Benzimidazoles
Colletotrichum
Colletotrichum spp
Fruits
fungicide resistance
Fungicides
Gene sequencing
Glyceraldehyde
High resistance
Host range
Inoculation
mango anthracnose
Mangoes
Mutation
Orchards
Pathogenicity
Pathogens
Pesticides
phylogenetic analysis
Phylogeny
point mutations
Population studies
Signs and symptoms
Species
Subpopulations
Thiophanate
Tubulin
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Summary:Colletotrichum spp. are known causal agents of anthracnose in a broad host range, causing severe losses. Currently, the most effective way to reduce disease is by fungicide application, which could give rise to resistant populations. This study aimed to determine the Colletotrichum species present in conventional and organic mango orchards and to evaluate their pathogenicity and sensitivity to the benzimidazole fungicide thiophanate‐methyl. Seventy‐one isolates from fruit with symptoms and symptomless leaves were obtained. From these, 20 representative morphotypes were analysed based on glyceraldehyde‐3‐phosphate dehydrogenase partial gene sequencing. A subset of 10 isolates based on different species, isolation source, and fungicide sensitivity was used for morphological and multilocus phylogenetic analysis. Colletotrichum queenslandicum was only identified in conventional production systems, C. chrysophilum only in organic systems, and C. asianum and C. siamense in both. Pathogenicity tests showed all species were pathogenic, and only C. asianum caused symptoms via both unwounded and wounded inoculation methods. Overall, 25.3% of isolates (n = 18) that belong to C. siamense, isolated from a conventional orchard, grew on thiophanate‐methyl amended media at 1,000 µg/ml, suggesting high resistance. Resistance was not correlated with any common point mutations at positions 198 and 200 of the β‐tubulin 2 protein, as commonly found in other fungal pathogens resistant to benzimidazole. The 74.7% remaining isolates (n = 53) belonging to the other species were sensitive, reaching 100% inhibition at <10 µg/ml. Even with benzimidazole application, anthracnose symptoms persist due to the emergence of pathogenic Colletotrichum subpopulations that are resistant to thiophanate‐methyl. Colletotrichum species causing mango anthracnose are reported. Pathogenic C. siamense showed high levels of resistance to the thiophanate‐methyl, which was not correlated with known point mutations in the β‐tubulin 2 protein.
ISSN:0032-0862
1365-3059
DOI:10.1111/ppa.13195