Abstract
Onion (Allium cepa, L) is a very important vegetable crop in India. India is the second largest producer of onion in the world and the crop is grown on more than 1.22 million hectares. Fusarium Basal Rot (FBR) is an economically important diseasef onion that causes considerable losses in onion production up to 50% in field and 30-40% during post-harvest storage of bulbs (Gupta and Gupta 2013; Rajamohan et al. 2019). Onion plants showing chlorosis, twisting, wilting, necrosis, bulb discoloration, rot in the basal parts of bulb and roots typical to FBR were observed, in a field trial of 36 onion cultivars during October 2020 in Bangalore, Karnataka. FBR incidence varied from 30-100% in this field (Fig 1 a-d). Symptomatic bulbs were washed with water, basal plate and fleshy leaves cut into 0.5 to 1 cm-size, surface disinfected with 1.5% sodium hypochlorite (NaOCl) for 3 min, and rinsed with sterile distilled water. Twenty pieces were placed on potato dextrose agar (PDA) in Petri plates and incubated at 25°C for 7 days. Colonies from single-spore isolates on PDA showed abundant white aerial mycelium. Colonies showed light pink or purple coloration on the reverse side of the culture plate with brown center (Fig 1e-f). Macroconidia were 19.13 to 28.35 (mean= 24.2) × 4.29 to 6.06 (mean= 5.05) µm, hyaline, falcate, with slightly curved apexes, and three to five septa. Microconidia were cylindrical to ellipsoid, aseptate, hyaline 8.20 to 12 (mean=10.0) × 3.55 to 4.79 (mean= 4.29) µm (Fig 1g). Chlamydospores were round, intercalary, hyaline, single or in chains (Fig 1h). Two isolates (IBFF-09 & IBFF-10) were analyzed for internal transcribed spacer-ITS (White et al. 1990) and translation elongation factor 1-α (tef1) gene (O'Donnell et al. 1998) by polymerase chain reaction (PCR) and sequenced. ITS and partial tef1 gene sequences of isolates IBFF-09 and IBFF-10 were submitted to the NCBI database (GenBank accession # ON394614&ON026859; # ON409480, ON093166 respectively). Phylogenetic analysis of tef1 gene placed the isolates with F. falciforme (Fig 1i). A pathogenicity test was performed by dipping roots of 28 days old healthy onion seedlings of a susceptible genotype 16/7Y GR3 into a conidial suspension (1 × 104 conidia/ml) of isolate IBFF-10 for 15 min and then transplanting the plants into pots containing sterilized potting mix. Inoculated plants developed typical symptoms of FBR and were all dead by 20 days post inoculation (Fig 1j) while the non-inoculated controls remained healthy. Pathogen was re-isolated from infected plants and showed the same morphology, ITS and tef1 sequence similarity as the original isolate, thus fulfilling Koch's postulates. Basal rot of onion by F. falciforme is reported from Mexico (Tirado-Ramírez et al. 2021). Till date, only F .oxysporum, F. proliferatum and F. solani have been implicated in onion FBR in India (Lee et al. 2021; Rathore and Patil, 2019). F. falciforme however, i prevalent in India and is reported to infect other crops (Gangaraj et al. 2022; Gupta et al. 2019; Homa et al. 2018). There is a high probability that this pathogen is contributing significantly to basal rot disease but it has not been reported yet. To our knowledge, this is the first report of F. falciforme infecting onions in India. In order to develop FBR resistant onion cultivars it is critical to identify and study the response of onion genotypes to different Fusarium spp causing the disease.
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