FUSARIUM SPECIES FROM AN INDONESIAN GENOTYPE OF FOXTAIL MILLET SEEDS

Q4 Agricultural and Biological Sciences

Indonesian Journal of Agricultural Science Pub Date : 2022-08-15 DOI:10.21082/ijas.v23n1.2022.p7-14

H. S. Khairani, S. W. Ardie, F. Parlindo

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Abstract

As a generalist pathogen in cereals, Fusarium spp. become the most threatening fungi which can conduct its saprogenesis by infecting seeds. Determination of fungal identity and the yield loss risk is needed to modify the effective controlling strategies. However, there is no report on implementing methods for controlling Fusarium spp. on foxtail millet (Setaria italica L. Beauv.). This research was undertaken from July to September 2020 and November to December 2021 under ambient laboratory conditions to identify and evaluate the pathogenicity of seed-borne Fusarium species in foxtail millet. One hundred colonies of seed-borne fungi were isolated from foxtail millet genotype ICERI-6 which was dominated by Fusarium spp. Morphological characterization by observing the structure of colonies and microscopical features indicated that the six isolates (Fu1–Fu6) were identical to Fusarium solani, F. chlamydosporum, F. oxysporum, F. equiseti, F. proliferatum, and F. graminearum, respectively. Molecular identification for the 5.8s rDNA target gene with ITS1 and ITS4 primers has confirmed that the Fusarium spp. were determined as mentioned species. Pathogenicity test using potato dextrose agar medium showed that the germination percentage of seed inoculated by Fusarium spp. was only 1.2% on average at 7 days after incubation. These species led to germination failure as the seeds were covered by fungal mycelia. Seeds that could escape from germination failure performed necrotic spots on the seedlings. These abnormalities would contribute to low productivity in the field. The study has implication in controlling seed-borne disease and that resistant variety breeding becomes important issues to be addressed for future research.

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一个印尼谷子种子基因型的镰刀菌种

镰刀菌（Fusarium spp.）是谷物中的一种多面手病原体，是最具威胁性的真菌，它可以通过感染种子来进行共生。需要确定真菌特性和产量损失风险，以修改有效的控制策略。然而，目前还没有关于在谷子（Setaria italica L.Beauv.）上控制镰刀菌的实施方法的报告。本研究于2020年7月至9月和2021年11月至12月在环境实验室条件下进行，以鉴定和评估种子传播的镰刀菌在谷子中的致病性。从以镰刀菌属为主的谷子基因型ICERI-6中分离到100个种传真菌菌落。通过观察菌落结构和显微镜特征的形态学特征表明，这6个分离株（Fu1–Fu6）与茄镰孢、厚垣孢、尖孢、木贼、增殖菌和禾谷镰刀菌相同，分别地用ITS1和ITS4引物对5.8s rDNA靶基因进行分子鉴定，证实镰刀菌属为上述物种。用马铃薯葡萄糖琼脂培养基进行的致病性试验表明，镰刀菌接种的种子在培养7天后平均发芽率仅为1.2%。由于种子被真菌菌丝体覆盖，这些物种导致发芽失败。可能从发芽失败中逃脱的种子在幼苗上形成坏死点。这些异常情况会导致油田生产率低下。该研究对控制种子传播疾病具有重要意义，抗性品种选育成为未来研究的重要问题。

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