Dragon fruit (Selenicereus undatus (Haw.) D.R.Hunt is a famous tropical fruit (Korotkova et al. 2017). In May 2021, a flower rot disease was found on Dragon fruit in a field… Click to show full abstract
Dragon fruit (Selenicereus undatus (Haw.) D.R.Hunt is a famous tropical fruit (Korotkova et al. 2017). In May 2021, a flower rot disease was found on Dragon fruit in a field (21˚19'42''N, 110˚28'32''E), Zhanjiang, Guangdong Province, China. The incidence rate was approximately 30% (n=500 investigated plants from about 30 hectares). Flower rot was evident, and was light brown, watery, soft, and covered with white mycelia. The pathogen could continue to infect the fruit during the fruit ripening stage with about 20% rot rate. Ten samples of symptomatic flowers were collected in the field. Margins of the diseased tissue were cut into 2 mm × 2 mm pieces. The surfaces were disinfected with 75% ethanol for 30 s and 2% sodium hypochlorite for 60 s. Pure cultures were obtained by transferring hyphal tips to new PDA plates. Three representative isolates (HUM-1,HUM-2, and HUM-3) by single-spore isolation were randomly selected for further study. Colonies on PDA were circular with massive aerial hyphae, white to ochraceous in color. Nonseptate hyphae were hyaline. Sporangiophores arose from hyphae. Sporangiospores were hyaline, smooth-walled, mostly subspherical to ellipsoidal, and measured 3.15 to 6.55 µm × 1.35 to 2.85 µm (n =50). Morphological characteristics of isolates were consistent with the description of Mucor irregularis (Lima et al. 2018). Molecular identification was done using the colony PCR method with MightyAmp DNA Polymerase (Takara-Bio, Dalian, China) (Lu et al. 2012) used to amplify the internal transcribed spacer (ITS) region and large subunit (LSU) with ITS1/ITS4 and LR0R1/LR5 (Vilgalys et al. 1990). The amplicons were sequenced and the sequences were deposited in GenBank with accession numbers ITS, OL376751-OL376753, and LSU, OM672239-OM672241. BLAST analysis of these sequences revealed a 100% identity with M. irregularis in GenBank. The sequences were also concatenated for phylogenetic analysis by the maximum likelihood method. The isolates clustered with M. irregularis (the type strain CBS 103.93).The pathogenicity was tested through in vivo experiments. Nine healthy flowers of Dragon fruit were inoculated with 3-day-old mycelial plugs (5 × 5 mm) of isolates, while another five healthy flowers were treated with PDA plugs (controls). Those plugs were embedded inside the calyxes, and each flower was inoculated with one plug in one calyx. Besides, the inoculated and control flowers (n = 5) were sprayed with a spore suspension (1 × 105 per mL) of the three isolates individually and sterile distilled water, respectively, until run-off (Feng and Li. 2019). The plants were grown in pots in a greenhouse at 28°C, with relative humility approximately 80%. The test was repeated three times. After 3 days of incubation, rot symptoms developed on the inoculated flowers, which were similar to those observed on the naturally samples in the field. The control flowers remained healthy. The fungus was reisolated from the inoculated flowers and confirmed as M. irregularis by morphology and ITS analysis. M. irregularis was reported as a pathogen causing human skin diseases and post-harvest diseases of crop (Álvarez et al. 2011; Lima et al. 2018; Wang et al. 2022). This is the first report of M. irregularis causing flower rot of Dragon fruit and reduce yield in China. This research can provide a theoretical basis for the fruit industry to maintain yield.
               
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