ABSTRACT
In August 2019, the Ohio State University Vegetable Pathology laboratory received multiple bell and banana pepper fruits (Capsicum annuum, cvs. unknown) from Columbiana County, Ohio. The grower reported a disease incidence of 100% and severity of 70% in fruits across their pepper fields. Fruit lesions were brown, sunken, and covered with orange-colored sporulation. On banana peppers, the lesions mainly affected the blossom end of the fruits, while the lesions were distributed randomly on bell pepper fruits. Pieces of diseased tissue were cut from the fruit and surface sterilized in 0.5-0.6 % sodium hypochlorite, rinsed in sterile water, blotted dry, and placed on potato dextrose agar. All of the fungal cultures recovered were cottony, pale gray-green with shades of orange on the underside of the mycelial mat. Two representative isolates, SM209-19 (bell pepper) and SM210-19 (banana pepper), were grown on oatmeal agar to induce sporulation. Pink-orange concentric rings containing acervuli and conidia were present on the oatmeal agar plates after one week of growth at 22â¦C (12-h dark/light). Conidia (n=29) were hyaline, aseptate, cylindrical in shape, and had an average length of 10.5 µm (std. dev. = 1.3 µm) and width of 4.1 µm (std. dev. = 0.6 µm) (Fig.1). DNA was extracted from both isolates using a DNeasy Plant Kit (Qiagen Inc, Germantown, MD), and partial sequences of the internal transcribed spacer (ITS) region, ï¢-tubulin 2 gene (TUB2), and glyceraldehyde-3-phosphate dehydrogenase gene (GDPH) were amplified by PCR with the following primers: ITS4/ITS5 (White et al. 1990), Bt1a/Bt1b (Glass et al. 1995), and GDF1/GDR1 (Guerber et al. 2003), and squenced. The ITS region of both isolates SM209-19 and SM210-19 (PP280815 and PP280816, respectively) showed 100% identity with C. scovillei (Cs) isolate LJTJ35 (KP748226). The partial sequences of GDPH, (PP320348, PP320349, respectively) showed 99% sequence identity with the Cs CBS 126528 (JQ948597) and 100% identity with Cs HP1 (MT826948) The partial sequences of TUB2 (PP472464 and PP472465, respectively) had 100% sequence similarity with the Cs HP1 and Cs CBS 126528 (MT826951, JQ949918 respectively). Pathogenicity was tested in a greenhouse experiment on blossoming bell pepper plants (cv. Carmen) by spraying 10 ml of 1 X 105 conidia/ml suspension onto flower blooms (nine plants per isolate). Control pepper plants were mock inoculated by spraying 10 mL of sterile deionized water. The plants were re-inoculated one week later. Brown, sunken lesions with orange sporulation developed on the fruits of inoculated plants 21 days after the initial inoculation (Fig. 2), while the mock-inoculated plants did not produce any symptoms. Culturing from symptomatic fruits on PDA, following the same method described above, produced fungal colonies with the same morphological traits previously described. C. scovillei causing anthracnose on pepper has been described in the US (Toporek et al. 2021), Brazil (Caires et al. 2014), China (Zhao et al. 2016), and different South Asia Countries (Khalimi et al. 2019). Open-field peppers are produced in Ohio on more than 5,400 acres, with a value of more than $53 million, with anthracnose being one of the most severe fungal diseases reducing yield. This newly reported Colletotichum species could represent a further threat for this crop. Further studies evaluating fungicide sensitivity and efficacy against this pathogen will be of crucial importance for disease management.
ABSTRACT
In July 2018, a sample of lavender var. Grosso (Lavandula × intermedia 'Grosso') from Miami County, OH was received by The Ohio State University Vegetable Pathology Laboratory in Wooster. Lavender plants were field-grown in sandy clay soil with plastic mulch under drip irrigation. Disease incidence ranged from 0 to 32% depending on variety. Leaves and stems showed dark necrotic lesions that varied from roughly circular (ca. 0.3 to 0.5 mm diameter) to large coalesced necrotic areas surrounded by a water-soaked halo. Bacterial streaming from lesions was observed microscopically. Leaf tissue pieces (~0.5 cm2) were surface sterilized in 70% ethanol for 30 seconds and rinsed in sterile deionized water. The tissue was sliced aseptically into smaller sections in 100 µl sterile water and the bacterial suspension was streaked on yeast dextrose calcium carbonate agar medium. Ten yellow Xanthomonas-like colonies were selected after 72 hours of incubation at 28ºC in the dark. Strains were gram negative, oxidase negative and caused hypersensitive reactions on Nicotiana benthamiana (L.). All strains were genotyped after whole-cell DNA extraction by BOX-PCR (Louws et al. 1999) and had the same banding profile. Four 8-wk-old lavender plants (Lavandula dentata and Lavandula × ginginsii 'Goodwin Creek Gray') were spray-inoculated with a 106 CFU/ml suspension of strain SM175-2018 in sterile water. Control plants were sprayed with sterile water. Plants were kept in plastic bags for the first 48 h at 28°C with a 14-h photoperiod. Water-soaked necrotic lesions appeared 14 days after inoculation with SM175-2018, whereas mock-inoculated plants did not show symptoms. Bacterial isolation from symptomatic leaf tissue was carried out as described above. The BOX-PCR profile of the re-isolated strain was identical to that of SM175-2018. Multilocus sequence analysis of the housekeeping genes fuyA, gyrB, and rpoD was performed (Accession numbers: MT764834 - MT764836). The resulting concatenated data set was used to perform a phylogenetic analysis using maximum likelihood criteria to evaluate relationships with closely related Xanthomonas spp. using published reference sequences (Young et al. 2008). SM175-2018 was assigned to the X. hortorum clade (Moriniere et al. 2020) with strong bootstrap support. The strain was subjected to whole genome analysis. Genomic DNA was extracted using a QIAGEN Genomic DNA buffer set with genomic-tip 100/G following manufacturer's protocol and sequenced using the iSeq-100 Illumina platform with the Nextera DNA Flex Library Prep protocol kit and Nextera DNA CD indexes. Average nucleotide identity (ANI) analysis was performed with the ANI-Matrix software Enveomics tool (Rodriguez-R and Konstantinidis 2016) using the sequenced genome (NCBI GenBank Biosample no. SAMN11831455) and those of other X. hortorum (Vauterin et al. 1995) bacteria (pvs. hederae, carotae, vitians). SM175-2018 shared a 96% ANI with other X. hortorum strains. X. hortorum is associated with bacterial leaf spot of carrot (Scott and Dung, 2020) and also reported on ornamental plants (Mirik et al. 2010, Oliver et al. 2012, Roberts and Parkinson 2014, Klass et al. 2019), however additional research is needed to establish the host specificity of lavender strains. To our knowledge this is the first report of X. hortorum causing bacterial leaf spot of lavender in Ohio. The disease may negatively impact the yield and quality of flowers used in production of lavender oils and essences.
