Pectobacterium spp. isolated from rotting carrots obtained from markets in Gampaha district, Sri Lanka exhibit the potential of having broad host ranges

Carrot production in Sri Lanka faces severe post-harvest losses due to bacterial soft rot. The quality deterioration of vegetables owing to typical bacterial soft rot can greatly affect the market value and consumer preference. Although the carrot soft rot causing bacteria occur all over the world,...

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Bibliographic Details
Published in:European journal of plant pathology 2022-08, Vol.163 (4), p.841-852
Main Authors: Naligama, Kishani N., Halmillawewa, Anupama P.
Format: Article
Language:English
Subjects:
Agriculture
Bacteria
Biomedical and Life Sciences
Carrots
Cluster analysis
Clustering
Ecology
Gene sequencing
Host range
Life Sciences
Market value
Pathogenicity
Pathogens
Pectobacterium
Plant Pathology
Plant Sciences
Post-harvest decay
rRNA 16S
Soft rot
Vegetables
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Summary:Carrot production in Sri Lanka faces severe post-harvest losses due to bacterial soft rot. The quality deterioration of vegetables owing to typical bacterial soft rot can greatly affect the market value and consumer preference. Although the carrot soft rot causing bacteria occur all over the world, and are well-studied and characterized, the scarcity of data on the precise identification of the causal agents of the disease in Sri Lanka acts as a great barrier in managing such post-harvest losses. In an attempt to bridge this knowledge gap, we have isolated potential causative agents of bacterial soft rot from diseased carrot samples collected from Gampaha district, Sri Lanka. All the seven bacterial isolates were confirmed for their ability to exhibit pectolysis, and vegetable disk assays were used to evaluate the pathogenicity of bacterial isolates. The pathogenicity assays showed that these isolates have the ability to infect not only carrot, but also potato, radish, beetroot and Napa cabbage, suggesting their possible broad host range. The ITS–PCR RELP profiles of the pectobacterial isolates and hierarchical clustering of the resulting profiles have placed the strains isolated in this study into four groups. The 16S rRNA gene sequencing and subsequent analyses aided in identifying isolates as Pectobacterium carotovorum (C1B5, C2B6, C2B7 and C2B8), P. aroidearum (C1B3 and C1B4), and P. polaris (C3B9). The study indicated the possibility of different Pectobacterium spp. being involved in causing carrot soft rot in the area, emphasizing the need to carry out an island-wide, comprehensive analysis to understand the distribution of the pathogen, which could be used in implementing successful disease management strategies.
ISSN:0929-1873
1573-8469
DOI:10.1007/s10658-022-02523-9