Abstract

Avocado (Persea americana), which is native to Latin America, is mostly planted in southwest China. In November 2021, leaf spot symptoms were observed in a nursery in Chongzuo (22.2019°N, 106.4723°E), Guangxi, China. Approximately 90% of avocado seedlings in the nursery were affected. Symptomatic plant fully expanded leaves showed small brown spots that ranged from 1 to 3 mm, with a yellow halo around (Fig.1). Lesions gradually expanded and became nearly round and dark brown. Finally, leaves withered or curled. For pathogen isolation, 15 symptomatic leaves were randomly sampled from different plants of the nursery, five leaves were selected and four samples size 4×4mm were taken from each leaf and were plated on potato glucose agar. Identical fungus colonies were observed in 80% of the samples, and no bacteria were isolated. Single conidial isolation was performed. After 4 days, the colony diameter reached 74.6 mm, colonies appeared gray, and developed aerial hyphae. Conidiophores were mostly solitary with a few clustered erect or slightly curved, knee shaped, and 3.89 to 5.24 µm wide. Conidia were 39.33 -96.88 × 9.96 - 15.59 µm, slightly curved, rarely straight, light brown to yellowish brown, fusoid or navicular, and truncated at the base with 4 to 10 septa. Based on morphological and cultural characteristics, the fungus was identified as Bipolaris sp. (Manamgoda et al. 2014). An isolate named MP211122 was grown on Sachs' ager at 27℃ under 12-h light/dark for 1 week and consistently with Adhikari et al. (2021) no sexual from was observed. To confirm the tentative identification, genomic DNA was extracted, ITS and GAPDH gene were amplified and sequenced using primers ITS1/ITS4 and GPD/GPD2, respectively (Tan et al. 2022). The ITS sequence (GenBank ON248469) shared 100% identity with B. setariae (MN215632.1), and the GAPDH sequence (ON642344) shared 99.82% identity with B. setariae (MF490833.1, MK144540.1) and B. yamadae (MK026428.1). A maximum likelihood phylogenetic analysis based on GAPDH and ITS sequences using MEGA 7.0 revealed that the isolate clustered with B. setariae with 100% bootstrap support(Fig. 2). Healthy 11-month old potted avocado seedlings from disease-free nursery were selected , the conidial suspension (1 × 105 conidia/mL) of MP211122 isolate was prepared by harvesting conidia from a 10-day-old culture on water agar. Conidia were sprayed onto young leaves of six potted plants. Three additional seedlings sprayed with sterile distilled water served as controls. All plants were covered with plastic bags for 3 days to maintain high humidity and then maintained in a greenhouse at 30℃ with a 12-h/12-h light/dark cycle. After 5 days, typical symptoms of small brown spots were observed on all inoculated leaves (Fig.3). All leaves on control plants remained asymptomatic. The reisolated fungus was morphologically identical to the original isolate used for inoculation, fulfilling Koch's postulates. This is the first report of B. setariae as a pathogen causing leaf spot on avocado in China. This information will facilitate further studies, monitoring and control of the disease as accurate identification of the causal agent is a primary requisite for designing management strategies.

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