First Report of Microdochium nivale and M. majus Causing Brown Foot Rot of Wheat in China.

Abstract

Microdochium nivale and M. majus not only cause seedling blight of wheat (Triticum aestivum L.) in cold dry soils, but also cause foot rot and ear blight of wheat under favorable conditions (Haigh et al. 2009). In May 2017, 2019, and 2020, a serious foot rot of wheat with an incidence of 92%, 45%, and 51% was observed in the field in Xiangcheng County (33.43° N, 114.84° E), Tanghe County (32.43° N, 112.66° E), and Linzhou City (36.13° N, 113.75° E), Henan Province, respectively. The serious brown lesions of the lower leaf sheaths is visible. The pathogens were isolated from brown leaf sheaths on potato dextrose agar (PDA) after being surface-sterilized (70% EtOH for 30 s followed by 3% NaClO for 1.5 min) and rinsed three times in sterile distilled water. After 5 d, mycelia were transferred to fresh PDA, and nine representative isolates (G17ZK2-1, G17ZK2-2, G17ZK2-3, g19TH10-4, g19TH10-5, g19TH10-6, G20LZ1-6, G20LZ1-7, and G20LZ1-8) were further purified by hyphal tipping. Species were identified based on morphological characteristics, and sequence analysis of partial sequences of the translation elongation factor-1α (TEF), the RNA polymerase II subunit (RPB2) gene and β-tubulin gene (Abdelhalim et al. 2020). Among the nine isolates, six isolates belonged to M. majus, three isolates belonged to M. nivale. Sequences of six isolates M. majus and three isolates M. nivale were deposited in GenBank with accession numbers MW428296-MW428298, MZ734119-MZ734121and MZ734139-MZ734141(TEF), MW384889, MW428291, MW428292, MZ734203-MZ734205 and MZ734161-MZ734163(RPB2), MW428293-MW428295, MZ501004-MZ501006 and MZ501024-MZ501026 (β-tubulin). For all the genes, isolates revealed 98-100% similarity to M. majus and M. nivale accessions, respectively. Microscopy of the six M. majus isolates showed: the conidia were falcate, straight to curved, apex pointed or obtuse to subacute, lacking basal differentiation, with 1 to 6 septa, 3.6 to 5.0 × 15.0 to 30.5 μm (av.= 4.5 × 23.2; n = 60). The three M. nivale isolates showed: the conidia were hyaline, 1 to 3 septa, 2.4 to 4.4 × 11.9 to 26.0 μm (av.= 3.5 × 14.7; n = 60). Perithecia of M. majus are dark brown, globose, and 95.2 to 190.5 × 95.2 to 228.6 μm (av.= 144.4 ×152.5; n = 30). Asci are clavate, and 6.8 to 11.0 ×68.2 to 77.3 μm (av.= 8.6×72.0; n = 30), contain eight ascospores. Mature ascospores are ellipsoidal, and 3.8 to 4.9 ×11.5 to 19.2 μm (av.= 4.0 ×15.2; n = 30), with 1 to 3 septa. These morphological characteristics were consistent with previous descriptions of these two species (Glynn et al. 2005). For pathogenicity tests, mycelia of M. nivale and M. majus was prepared using the modified procedure of Zhang et al. (2015). Two-week-old healthy wheat seedlings (cv. Aikang 58) were inoculated using 1 mL of prepared mycelia to one seedling, which was sprayied on soil. Control seedlings were inoculated with 1 mL distilled water containing 0.2% gelatin. After 10 days under 15/10℃, 16h/8h, all the inoculated plants had developed brown spots; while control plants remained healthy. The pathogens were reisolated from inoculated plants and identified as M. nivale and M. majus based on morphological characteristics and molecular methods described above. Although there are reports of M. majus associated with brown foot rot of wheat in Anhui Province and M. nivale associated with seedling blight of oat in Gansu Province (Chen et al. 2021; Tai et al. 2019). To our knowledge, this is the first report of brown foot rot of wheat caused by M. nivale and M. majus in China.