First Report in China of Leaf Blight on Spatholobus suberectus Dunn Caused by Diaporthe tulliensis.

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES
Xinjie Zhan, Zhuoqiu Qiu, Qi Huang, Shuangshuang Qin, Zhanjiang Zhang, Shugen Wei, Ni Jiang, Lisha Song
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引用次数: 0

Abstract

Spatholobus suberectus Dunn is an important Chinese medicinal plant, which is the only officially recognized authentic source of the Chinese herbal medicine Spatholobi caulis in the China Pharmacopeia (Qin et al. 2024). In November 2023, a serious leaf disease was observed in the S. suberectus planting base in Nanning city (108.22E, 22.51N), Guangxi, China, with an incidence rate of 80%. Initially the symptoms appeared in the diseased leaves tips and was irregular in shape. The necrosis displayed discoloration of the gray color with a deep brown margin and this gradually expanded through into the lamina. To isolate the causal agent, 10 symptomatic leaves were collected and small segments (5×5 mm) of infected tissues were cut, and then they were surface sterilized (30s in 75% EtOH, 2 min in 2.5% NaOCl, and rinsed three times in sterilized distilled water), placed on potato dextrose agar (PDA) and incubated at 28℃ for 5 days. The hyphal tips were transferred to PDA to obtain pure cultures. 36 isolates were obtained, 23 of them had similar morphology, which were isolated from all the symptomatic leaves and were considered pathogens, and named YY-3-S. After 7 d, the colonies were white, fluffy, with white aerial mycelium. Sporulation was induced using pine needle medium (Su et al. 2012). After 30 days, the globose pycnidia developed, which were superficial to semi-immersed on the pine needle medium, and they appeared to be orange to black in color, with pale yellow conidial droplets. The alpha conidia spores were 3.53 to 6.85×1.75 to 3.70 μm (n = 50). They were unicellular, hyaline, aseptate and ellipsoidal to fusiform. These morphological features were consistent with Diaporthe sp (Sun et al. 2021). For further molecular identification, isolate YY-3-S underwent sequencing of the internal transcribed spacer (ITS), beta-tubulin (TUB2), and translation elongation factor 1-alpha (TEF1) sections (Huang et al. 2021). Obtained sequences of ITS, TUB2 and TEF1 (Genebank accessions nos. PP838571, PP865050 and PP865051) displayed a 99% similarity to Diaporthe tulliensis (Genebank accessions nos. OP163562, KR936132, OR662168, respectively). Phylogenetic analysis was based on a combination of ITS, TUB2 and TEF1 sequence data using MEGA 11 software to construct a phylogenetic tree with Neighbor-Joining. In the phylogenetic tree, the combined sequences attributed YY-3-S to D. tulliensis. The pathogenicity test was conducted on 1-year-old S. suberectus seedlings. We sprayed the mixed suspension of spores and mycelia on the unwounded leaves, while control seedlings received sterile water. 3 leaves per plant and 5 plants per treatment were selected for assessment. All seedings were placed in pots in a moist chamber at 28°C and 90% humidity. After 5 d, browning was observed on all the inoculated leaves tips. 14 d after inoculation, necrotic lesions expanded outward and their symptoms like those in the field, while control plants remained healthy. D. tulliensis was reisolated from the inoculated leaves, fulfilling the Koch's postulates. D. tulliensis has been reported to necrotic spots and leaf blight on Rambutan (Serrato-Diaz et al. 2023), leaf spot on bodhi tree (Li et al. 2022), stem canker on Jasmin (Hsu et al. 2023). To our knowledge, this is the first report of D. tulliensis causing leaf blight on S. suberectus in China. It is important to ensure timely management of the newly emerging disease.

中国首次报告由 Diaporthe tulliensis 引起的 Dunn Spatholobus suberectus 叶枯病。
邓楠(Spatholobus suberectus Dunn)是一种重要的中药植物,是《中国药典》中唯一官方认可的中药材刺五加的正品来源(覃等,2024)。2023 年 11 月,中国广西南宁市(东经 108.22 度,北纬 22.51 度)的裸冠菊种植基地出现了严重的叶部病害,发病率高达 80%。症状最初出现在病叶顶端,形状不规则。坏死部位呈灰色,边缘呈深褐色,并逐渐向叶片扩展。为了分离病原菌,采集了 10 片有症状的叶片,切下受感染组织的小片(5×5 毫米),然后进行表面消毒(在 75% 的乙醇中消毒 30 秒,在 2.5% 的 NaOCl 中消毒 2 分钟,再用消毒蒸馏水冲洗 3 次),放在马铃薯葡萄糖琼脂(PDA)上,在 28℃下培养 5 天。将菌丝顶端转移到 PDA 上以获得纯培养物。得到 36 个分离物,其中 23 个形态相似,从所有有症状的叶片中分离出来,被认为是病原体,命名为 YY-3-S。7 d 后,菌落呈白色,绒毛状,有白色气生菌丝。使用松针培养基诱导孢子的产生(Su 等,2012 年)。30 天后,球状分生孢子发育成熟,在松针培养基上呈表层至半浸润状,呈橙色至黑色,有淡黄色的分生孢子液滴。α分生孢子大小为 3.53 至 6.85×1.75 至 3.70 μm(n = 50)。它们呈单细胞、透明、无菌、椭圆形至纺锤形。这些形态特征与 Diaporthe sp 相符(Sun 等,2021 年)。为进一步进行分子鉴定,对分离物 YY-3-S 的内部转录间隔(ITS)、β-微管蛋白(TUB2)和翻译伸长因子 1-α(TEF1)部分进行了测序(Huang 等,2021 年)。获得的 ITS、TUB2 和 TEF1 序列(Genebank 编号:PP838571、PP865050 和 PP865051)与 Diaporthe tulliensis(Genebank 编号:OP163562、KR936132 和 OR662168)的相似度为 99%。利用 MEGA 11 软件结合 ITS、TUB2 和 TEF1 序列数据进行了系统发生分析,构建了一棵邻接系统发生树。在系统进化树中,综合序列将 YY-3-S 定义为 D. tulliensis。致病性试验在 1 年生的 S. suberectus幼苗上进行。我们将孢子和菌丝体的混合悬浮液喷洒在未受伤的叶片上,而对照组幼苗则接受无菌水。每株选取 3 片叶子,每个处理选取 5 株进行评估。所有幼苗都被放入盆中,置于 28°C 和 90% 湿度的潮湿室内。5 d 后,所有接种的叶尖都出现褐变。接种 14 d 后,坏死病斑向外扩展,症状与田间相同,而对照植物则保持健康。从接种的叶片中重新分离出了 D. tulliensis,符合科赫假设。红毛丹坏死斑和叶枯病(Serrato-Diaz 等人,2023 年)、菩提树叶斑病(Li 等人,2022 年)、茉莉茎腐病(Hsu 等人,2023 年)等病害都曾被报道过。据我们所知,这是中国首次报告 D. tulliensis 对亚圆锥花序(S. suberectus)造成叶枯病。确保及时防治这种新出现的病害非常重要。
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来源期刊
Plant disease
Plant disease 农林科学-植物科学
CiteScore
5.10
自引率
13.30%
发文量
1993
审稿时长
2 months
期刊介绍: Plant Disease is the leading international journal for rapid reporting of research on new, emerging, and established plant diseases. The journal publishes papers that describe basic and applied research focusing on practical aspects of disease diagnosis, development, and management.
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