Abstract

Soybean (Glycine max L.) is one of the most important crops worldwide. In South Korea, three species of Fusarium have been reported as causal pathogens of Fusarium wilt of soybean (KSPP, 2021). From 2017 to 2018, wilted soybeans were observed in two soybean fields in Daegu (36.62°126.91°) and Yesan (35.89°128.44°), South Korea. The incidence rate was about 2 to 5% of the total 0.1ha, respectively. The diseased soybeans were yellowed from the lower leaves or dried up, and the inside of the root and stem were turned brown. Fragments (each 5 mm × 5 mm) of the symptomatic vascular tissue were surface-sterilized with 1% NaOCl for 1 min, and then rinsed twice in sterilized distilled water. The seven pieces each from two diseased plants were placed on water agar and incubated at 25°C for 5 days. Two single spore isolates were cultured on carnation leaf agar at 25°C for 14 days under near ultra violet/dark conditions for 12 hours. Macroconidia of two isolates were mostly 3- to 5-septate, dorsiventral curvature, hyaline, apical cell hooked to tapering, basal cell foot-shaped, and measured 51.3 - 62.2 × 3.7 - 4.7 μm (DG43821) and 63.8-74.8×3.1-4.4 μm (YS37232). Microconidia were not observed. Chlamydospores were produced in chains or pairs, subglobose and thick walled. The color of the aerial mycelium was pinkish white and the reverse of the colony was brownish orange on potato dextrose agar. Based on morphological and cultural characteristics, the two isolates were identified as belonging to Fusarium incarnatum-equiseti species complex (Leslie and Summerell 2006). To confirm the accurate species identification of the two isolates, DNA sequencing of the internal transcribed spacers and intervening 5.8S (ITS), partial translation elongation factor 1-alpha (TEF) and RNA polymerase II largest subunit (RPB2) genes was carried out using primer sets of ITS1/ITS4, EF1 / EF2 and 7cf / 11ar, respectively (O'Donnell et al. 2010). The nucleotide sequences obtained of two isolates were deposited in GenBank with accession numbers of MW375694, MW375695, MW382963, MW382964, MZ364324 and MZ364325. Identities of the ITS region, TEF and RPB2 gene sequences of the two isolates were 490/492, 482/483, 632/633, 631/632, 870/870 and 931/931 with those of ex-type strain F. ipomoeae LC12165 (MK280832, MK289599 and MK289752) in GenBank, respectively. Thus, based on molecular characteristics, the two isolates were confirmed as F. ipomoeae. A pathogenicity test of the two isolates was conducted using root-dip inoculation on seedlings of one soybean cultivars, Pyeongwon. A spore suspension was prepared by flooding 10-day-old cultures on PDA with sterilized distilled water. Fifteen soybean seedlings at the VC stage per each isolate were inoculated by dipping the roots in the spore suspension (1 × 106 conidia/mL) for 2 hours. Inoculated plants were transplanted into pots containing sterilized soil and maintained in the greenhouse at 28±3°C with 14 h/10 h light/dark. An equal number of plants inoculated with sterilized distilled water served as controls. Five days after inoculation, withered symptoms were observed on two or four of the inoculated seedlings, and by 10 days after inoculation, all inoculated plants had withered and died. No symptoms were observed in the non-inoculated control soybeans. The pathogen was consistently re-isolated from only inoculated plants, thus fulfilling Koch's postulates. To our knowledge, this is the first report of F. ipomoeae causing Fusarium wilt on soybean in South Korea, as well as worldwide. This pathogen has been reported on peanut in China as a causal agent of leaf spot (Xu et al., 2021). Understanding the host range of this pathogen and the distribution of F. ipomoeae affecting legume crops in South Korea is important, to ensure an effective management of Fusarium wilt on soybeans.

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