First Report of Leaf Spot Disease Caused by Stemphylium vesicarium on Fagopyrum esculentum in China.

Abstract

Common buckwheat (Fagopyrum esculentum) is a widely cultivated non-grass cereal. It has a considerable market value with nutritional qualities and ability to treat or prevent cancers, hypertension and diabetes (Cawoy et al., 2006). In July-August 2018 and 2019, leaves exhibiting unfamiliar symptoms were observed in Huan County and Huachi County, Gansu, China, with 15% incidence and moderate to severe severity across the field. Initial symptoms consisted of small chlorotic, circular to oval leaf spots. As disease progressed, the spots enlarged and turned light brown to brown with chlorotic margins. When the disease was severe, the leaf spots coalesced and the leaves became prematurely chlorotic and senescent. Spots occurred mostly but not exclusively on older foliage. Diseased tissues were surface sterilized with 75% ethanol for 20 s and 0.1% NaClO for 2 min, placed on PDA medium and incubated at 20 °C for 48-72 h. A total 24 isolates were obtained and purified through single-spore cultures, 19 of which were characterized. Colonies on PDA of all 19 isolates were identical, exhibiting a light gray color, with whitish aerial mycelium that later turned light brown on the reverse of the culture plates, and sporulated sparsely. Conidia were brown colored, cylindrical, and borne singly, often had three main transverse septa, at which points there were conspicuous constrictions, and measured (17-37) μm long × (13-21) μm wide (n=30) in V8 juice agar, (22-38) μm long × (11-19) μm wide (n=30) in PCA, (21-41) μm long × (13-20) μm wide (n=30) in SNA, the mean length/width ratio was 1.6 to 2.0 in V8 juice agar, 1.6 to 2.5 in PCA, 1.3 to 2.2 in SNA. Conidiophores were unbranched, 5.1 to 7.9 μm wide. Dictyospores were produced on well-differentiated conidiophores, the apical cell of conidiophore was slightly to distinctly swollen. Based on morphological features, the isolates were tentatively identified as a member of the Stemphylium vesicarium species complex (Koike et al., 2013; Simmons, 1967). Genomic DNA of representative isolate B1 was extracted, and the internal transcribed spacer (ITS) region and calmodulin gene (cmdA) were amplified using ITS1/4, V9G/ITS4, and CALDF1/CALDR1, respectively. The resulting sequences were deposited in GenBank (acc. nos. MT629829, MW406903, MW417122). Nucleotide BLAST similarity analysis of the sequence fragment of ITS and cmdA from isolate B1 resulted in higher than 99% (99.32% for ITS1/4, 100% for V9G/ITS4, and 100% for CALDF1/CALDR1) identity with S. vesicarium strains (GenBank acc. nos. LC512757, MH863402 and MH206181). Based on morphological features and molecular data, the buckwheat isolates were identified as S. vesicarium. To verify pathogenicity, the back side of leaves from six asymptomic plants were inoculated by spraying the spore suspension (104 spores/ml) harvested from isolate B1 grown on V8 juice agar for 20 days. Control plants were sprayed with sterile water. Each plant was covered with a black plastic bag for 48 h and then was kept in a greenhouse. Stemphylium spot symptoms were observed on all inoculated leaves after 14 days, whereas control leaves were symptomless. The pathogen was reisolated from symptomatic leaf spots, micromorphological features and colony characters of the reisolated fungi were identical to the original isolate. To our knowledge, this is the first documentation of leaf spot of buckwheat caused by S. vesicarium in China, and the first characterization of a Stemphylium foliar pathogen on this crop.