First Report of Leaf Spot Caused by Alternaria alternata on Chard (Beta vulgaris var. cicla L.) in China.

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES
Kai Liao, Mei He, W J Fang, Hongyan Liu, Chenzhong Jin, Yong Chen, Kaifa Guo
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引用次数: 0

Abstract

Chard (Beta vulgaris var. cicla L.) is popular vegetable in China. In June 2023, a leaf spot disease was observed on Chard plants in Hunan Province (27°46'10.99″N, 112°05'52.80″E), China. The disease incidence was 30% in a surveyed of about 500 plants. Symptoms began as many light brown round- to polygon-shaped spots on chard leaves, then developed and enlarged into grayish-white lesions, with the edge of the spots brown to dark brown. A total of 10 symptomatic samples were randomly collected. To identify the pathogen, symptomatic tissues (0.5 × 0.5 cm) from the lesion margin surface were sterilized with 75% ethanol for 30 s and 2% NaClO for 1 min, rinsed 3 times with sterile water, air dried. The sterile pieces were placed on potato dextrose agar (PDA) and incubated at 25°C. A total of nine isolates were obtained. Fungal colonies cultured on potato carrot agar (PCA) were almost the same as each other, and two representative isolates (TC0, TC10) were used for further identification. On PCA, the fungal hyphae were initially white and finally gray-brown with flocculent aerial mycelia. Conidia were solitary or in chains, with various shapes, mostly subglobose, the size was 13.2 to 28.0 μm long and 5.8 to 13.0 μm wide (n = 30). The cultural and morphological characteristics of isolates were similar to those of Alternaria sp (Simmons et al. 2007). For molecular identification, four loci, ITS (White et al. 1990), RPB2 (O'Donnell, 2022), H3 (Zheng et al. 2015), and GAPDH (Berbee et al. 1999), were sequenced from two representative isolates (TC0, TC10). Compared with a reference isolate, Alternaria alternata strain CBS 107.27, GenBank accession nos. KP124300.1 (ITS), KP124768.1 (RPB2), KP124157.1 (GAPDH). The ITS, RPB2, and GAPDH sequences of TC0 and TC10 showed 99% (502 of 504 bp ), 100% (753 of 753 bp), and 99% (560 of 561 bp) similarity, respectively. Compared with a reference isolate, A. alternata isolate 21-5, GenBank accession no. MN840996.1 (H3), H3 sequences of TC0 and TC10 showed 99% (399 of 401 bp) similarity. The sequences of two isolates (TC0, TC10) were deposited in GenBank with accession numbers PP837733.1, PP565404.1(ITS), PP839298.1, PP573905.1(RPB2), PP839299.1, PP573904.1 (GAPDH), and PP839297.1, PP573903.1(H3). Phylogenetic trees were constructed using the sequences and showed that isolates (TC0, TC10) were in the same clade with A. alternata strains. TC0 and TC10 were identified as A. alternata based on the morphological characteristics and molecular phylogeny. Pathogenicity testing was conducted on six-month-old healthy plants, (cv. Green Stalk), three plants were inoculated by spraying spore solution (1 × 106 conidia/mL), and three plants were sprayed with sterile water as a control. The pathogenicity test was performed 3 times. Plants were maintained at 28°C and >80% RH. Plants showed symptoms after 30 days, symptoms were observed similar to those of the original infected plants, control plants were asymptomatic. The fungus was reisolated, confirmed as A. alternata based on conidial characteristics, no pathogenic fungus was isolated from the control plants. A. alternata has previously been reported on beet (also Beta vulgaris) in China (Tai, F. L. 1979; Zhuang, W. Y. 2005). To our knowledge, this is the first report of leaf spot caused by A. alternata on chard in China. This result may expand the etiological study of A. alternata and the control strategy of Chard leaf spot.

中国首次报告由交替花叶病毒(Alternaria alternata)在芥蓝(Beta vulgaris var.
芥菜(Beta vulgaris var.2023 年 6 月,在中国湖南省(北纬 27°46'10.99″,东经 112°05'52.80″)的芥蓝植株上发现了叶斑病。在调查的约 500 株植物中,发病率为 30%。发病初期,芥蓝叶片上出现许多淡褐色圆形至多边形病斑,随后发展扩大为灰白色病斑,病斑边缘呈褐色至深褐色。共随机采集了 10 个有症状的样本。为确定病原体,用 75% 的乙醇消毒 30 秒,再用 2% 的 NaClO 消毒 1 分钟,然后用无菌水冲洗 3 次,晾干病变边缘表面的无症状组织(0.5 × 0.5 厘米)。将无菌片置于马铃薯葡萄糖琼脂(PDA)上,25℃培养。共获得 9 个分离菌株。在马铃薯胡萝卜琼脂(PCA)上培养出的真菌菌落几乎相同,其中两个具有代表性的分离物(TC0、TC10)被用于进一步鉴定。在 PCA 上,真菌菌丝最初呈白色,最后呈灰褐色,气生菌丝呈絮状。分生孢子单生或成链,形状各异,多数近球形,大小为长 13.2 至 28.0 μm,宽 5.8 至 13.0 μm(n = 30)。分离物的培养和形态特征与 Alternaria sp(Simmons 等,2007 年)相似。为了进行分子鉴定,对两个代表性分离株(TC0、TC10)的 ITS(White 等,1990 年)、RPB2(O'Donnell,2022 年)、H3(Zheng 等,2015 年)和 GAPDH(Berbee 等,1999 年)四个位点进行了测序。与参考分离株 Alternaria alternata 株系 CBS 107.27(GenBank accession nos.KP124300.1(ITS)、KP124768.1(RPB2)、KP124157.1(GAPDH)。TC0 和 TC10 的 ITS、RPB2 和 GAPDH 序列的相似度分别为 99%(504 bp 中的 502 个)、100%(753 bp 中的 753 个)和 99%(561 bp 中的 560 个)。与参考分离物 A. alternata 分离物 21-5(GenBank登录号:MN840996.1)相比,相似度分别为 99%(502 个 504 bp)、100%(753 个 753 bp)和 99%(560 个 561 bp)。MN840996.1(H3)相比,TC0 和 TC10 的 H3 序列相似度为 99%(401 bp 中的 399 个)。两个分离株(TC0、TC10)的序列已存入 GenBank,登录号分别为 PP837733.1、PP565404.1(ITS)、PP839298.1、PP573905.1(RPB2)、PP839299.1、PP573904.1(GAPDH)和 PP839297.1、PP573903.1(H3)。利用这些序列构建的系统发生树显示,分离物(TC0、TC10)与交替疟原虫菌株属于同一支系。根据形态特征和分子系统发育,TC0 和 TC10 被鉴定为交替疟原虫。致病性试验在 6 个月大的健康植株(Green Stalk 变种)上进行,3 株植株通过喷洒孢子溶液(1 × 106 分生孢子/毫升)接种,3 株植株喷洒无菌水作为对照。致病性试验进行了 3 次。植物保持在 28°C 和大于 80% 相对湿度的环境中。30 天后植株出现症状,观察到的症状与最初感染植株的症状相似,对照植株无症状。根据分生孢子的特征,重新分离出真菌并确认为交替花叶病毒(A. alternata),对照植物未分离出病原真菌。以前曾有报道称,交替花叶病毒在中国的甜菜上也有发生(Tai, F. L. 1979;Zhuang, W. Y. 2005)。据我们所知,这是中国首次报道由交替花叶病毒引起的芥蓝叶斑病。这一结果可能会拓展交替花叶病毒的病原学研究和芥蓝叶斑病的防治策略。
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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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