First Report of Paramyrothecium foliicola Causing Leaf Spot on Vigna radiata L. in China.

Abstract

Mung bean (Vigna radiata L.) is an important legume crop cultivated widely in China (Nair et al. 2013). In September 2018, a severe foliar disease occurred on some mung bean cultivars (Jilv0816, Baolv200810-1, Liaolv10L708-5, and Zhonglv5) in Shijiazhuang (38°03'N, 114°29'E), Hebei Province, China. Initially, lesions were circular to irregular, with dark brown margins and pale centers (Supplementary Fig.1). Later, tiny dark stroma with oval or irregular shape were observed on spots. The infected field was about 0.067 hectare with 50-70% disease incidence, but with no significant yield losses. Several leaves with necrotic spots were collected and cut into 2-3-mm pieces, surface sterilized with 2% NaClO for 2 min, rinsed three times in sterile distilled water, and incubated on potato dextrose agar (PDA) at 25ºC in darkness for 7 days. Three of 10 obtained single spore isolates, QB1, QB2 and QB3, were used for further studies. Colonies had abundant white aerial mycelia and produced black sporodochia bearing masses of viscid spores on PDA after 7-10 days. Conidia were aseptate, hyaline, and cylindrical, with the size of 5.6-7.5 µm × 1.6-3.3 µm (n=50). Conidiophores branched repeatedly. These morphological characteristics resembled that of Paramyrothecium-like isolates (Lombard et al. 2016). Given that P. roridum, P. foliicola, and P. nigrum were all reported to cause leaf spot on leafy vegetables and ornamental crops, five loci (the internal transcribed spacer (ITS), translation elongation factor 1-alpha (tef1), β-tubulin (tub2), 28S rRNA (LSU) and calmodulin (cmdA)) were amplified and sequenced for molecular analysis (Mati et al. 2019). The resulting sequences were deposited in GenBank under accession numbers: MK335967, MT415351-MT415364. Among the five loci, ITS and LSU sequences showed 99-100% (584/590, 545/546 base pairs) similarity with P. foliicola type strain CBS113121 (NR_145074.1; KU846324.1) by BLASTn analysis, while the tef1, tub2, and cmdA sequences exhibited high identity (99%) (398/404 bp, 323-324/326 bp, 555-558/560 bp) with P. foliicola strain Bas4_m2 (MH939239.1; MH824739.1; MH807772.1) (Mati et al. 2019). Phylogenetic tree of the five concatenated loci showed that our isolates cluster with P. foliicola, although they show slight difference from other P. foliicola strains (Supplementary Fig.2). Based on morphology and molecular analysis, the pathogen was identified as P. foliicola. Pathogenicity tests of the three isolates were performed by spraying 2 ml of 1.0 × 106/ml spore suspension on each three-week-old seedlings of mung bean cultivar 'Jilv 7' (n=5 for each isolate), whereas the controls were inoculated with sterile water (n=3). All inoculations were incubated in a moist chamber at 25ºC with a 12h light cycle. The experiment was repeated twice. After 7 to 10 days, symptoms with necrotic brown spots were observed on plants inoculated with P. foliicola, but not on controls. The pathogen was reisolated from randomly selected diseased leaves and identified as P. foliicola by morphology and DNA sequencing of tub2 and cmdA loci. No pathogens were isolated from controls. Although P. roridum has been reported to cause mung bean leaf spot in India (Singh and Shukla 1997; Singh and Narain 2008), to our knowledge, this is the first report of P. foliicola causing leaf spot on mung bean in China. This finding suggests a potential threat to mung bean production in China and further studies should focus on epidemiology and control of this disease.