Sweet viburnum [Viburnum odoratissimum (L.) Ker Gawl] is an evergreen shrub mainly cultivated along roadsides in urban landscapes and also in parks and residential areas. A foliar disease occurred on about 40% of sweet viburnum plants near Anhui Grand Theatre, Anhui Province of China in June 2019. In early stages of sweet viburnum infection, the symptoms appeared as small brown spots ranged in length from 2 to 3 millimeters on the leaves. The spots developed on the upper, middle, and lower leaves of the plant, however, the upper leaves got more severely affected. As the disease develops, the spots enlarged and became rectangular or oval, brown to dark-brown, and their centers became ashen gray. In later stages of infection, the diseased leaves became wilting. Diseased leaves were surface disinfested and three small sections (2-3 mm2) were cut from the margin of the lesions. Sections were placed in 1.5% NaClO for 2 min, submerged in three changes of sterilized distilled water for 1 min each, placed onto potato dextrose agar (PDA) medium amended with 50 μg/ml of ampicillin and kanamycin, and incubated at 25℃ for 3 days. The mycelium from the leading edge of colonies growing from the tissue was sub-cultured onto a PDA plate for 3 days, followed by spore induction (Simmons 2007) and single spore isolation to obtain a pure culture of the putative pathogen. Colonies of one single spore isolate HF0719 were rounded, grayish white with dense aerial mycelium viewed from above and dark brown viewed from below. On potato carrot agar (PCA) medium, conidiophores were branched or occasionally unbranched. On branched conidiophores, conidia were in dwarf tree-like branched chains of 2-5 conidia. On unbranched conidiophores, conidia were simple or in chains of 2-8 conidia. Conidia were light brown or dark brown, ovoid, ellipsoidal to fusiform, and ranged in size from 7 to 26.5 × 4.5 to 11 μm with an average size of 16 × 7 µm based on 500 spore observations, with one beak and 1-7 transverse, 0-3 longitudinal, and 0-3 oblique septa. Beaks were ranged in (1.5-)2-10(-16) μm long. Based on cultural and morphological characteristics, isolate HF0719 was identified as Alternaria spp. (Simmons 2007). For molecular identification, total genomic DNA was isolated from mycelia collected from 7 day-old colonies of isolate HF0719 using the fungal genomic DNA extraction kit (Solarbio, Beijing, China). Fragments of five genes, including those encoding glyceraldehyde-3-phosphate dehydrogenase (gpd), plasma membrane ATPase, actin, calmodulin, and the Alternaria major allergen (Alt a1) regions of isolate HF0719 were amplified and sequenced using primer pairs gpd1/gpd2 (Berbee et al. 1999), ATPDF1/ATPDR1, ACTDF1/ACTDR1, CALDF1/CALDR1 (Lawrence et al. 2013), and Alt-for/Alt-rev (Hong et al. 2005), respectively. The obtained nucleotide sequences were deposited into GenBank as accession numbers: gpd, MT614365; ATPase, MT614364; actin, MT614363; calmodulin, MN706159; and Alt a1, MN304720. Phylogenetic tree using a maximum likelihood bootstrapping method based on the five-gene combined dataset in the following order: gpd, ATPase, actin, calmodulin, Alt a1 of HF0719 and standard strains representing 120 Alternaria species (Lawrence et al. 2013) was constructed. Isolate HF0719 formed a separate branch. On the basis of morphological characteristics and phylogenetic pattern, isolate HF0719 was identified as Alternaria spp.. A pathogenicity test was performed by rubbing 32 healthy leaves of six 5-year-old sweet viburnum plants with a cotton swab dipped in spore suspension containing 2.6 × 106 spores/ml, following leaf surface disinfection with 70% ethanol in the open field. Sterilized distilled water was used as control. The average air temperature was about 28℃ during the period of pathogenicity test. Eleven days after inoculation, 100% of inoculated leaves showed the leaf spot symptom identical to symptoms observed in the field. Control leaves were symptomless. The experiment was done three times. The re-isolated pathogen from the leaf lesion had the same morphological and molecular characteristics as isolate HF0719, thus satisfying Koch's postulates. The genus Alternaria has been reported to cause leaf spot on sweet viburnum in Florida, USA (Alfieri et al. 1984). To our knowledge, this is the first report of Alternaria spp. causing leaf spot on sweet viburnum in China, a highly valued ornamental plant. Our findings will contribute to monitoring and adopting strategies for manage leaf spot disease on sweet viburnum.
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