First Report of Fusarium proliferatum Causing Fruit Rot of Grapes (Vitis vinifera) in Pakistan

Q4 Agricultural and Biological Sciences International Journal of Phytopathology Pub Date : 2018-06-24 DOI:10.33687/PHYTOPATH.007.02.2589
S. Ghuffar, G. Irshad, F. Zhai, Asif Aziz, H. M. Asadullah, N. Mehmood, Hanli Yang, A. Bashir, M. Z. Ahmed, M. Aslam, R. Ahmed
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引用次数: 5

Abstract

Grapes (Vitis vinifera) are the important fruit crop in Pakistan, mostly cultivated for edible purpose. In September 2016, unusual fruit rot symptoms were observed 3-5 days after harvesting on grapes cv. Kishmishi in post-harvest packing houses in Jehlum district (32°56'22.3"N 73°43'31.4"E) of Punjab province. To determine the disease incidence, a total of 10 boxes of grapes from 5 different locations were selected randomly. Each box contained average 12 bunches and 30 bunches out of 120 inspected bunches displayed typical symptoms of the disease. The initial Symptoms were small, round, water-soaked lesions that rapidly developed into soft, white to light pink mycelium near the centre of infected fruits (Figure 1). A total of 186 symptomatic berries were surface sterilized with 1% sodium hypochlorite, rinsed three times with sterile distilled water and dried by placing on filter paper for 45 sec. Sterilized tissues (approximately 4 mm3) were excised and incubated on potato dextrose agar (PDA) medium at 25 ± 4°C. One week after incubation, colonies with abundant aerial mycelium were initially white, cottony and turned to violet and dark purple with age (Figure 2). A total of 25 isolates were examined morphologically. Macroconidia were slender, thin-walled, 3 to 5 septate, curved apical cell, with 20.9 to 45.2 × 3.2 to 7.1 μm and Microconidia were thin-walled, aseptate, club-shaped with 4.5 to 11.2 × 2.3 to 4.1 μm (Figure 3). These characteristics best fit for the description of Fusarium proliferatum (Leslie and Summerell, 2006). Portions of the internal transcribed spacer (ITS) region were sequenced (White et al., 1990). Sequences of two isolates Fus 07 and Fus 09 (GenBank Accessions; MH444366 and MH464139) showed 100% identity to the corresponding gene sequences of Fusarium proliferatum (GenBank Accessions; MH368119, MF033172 and KU939071) (Figure 4). Pathogenicity test was performed by inoculation with 50-μl conidial suspension (1 × 106conidia/ml) of two isolates onto three non-wounded and four wounded asymptomatic grapes berries. Sterile distilled water was used for a negative control (Figure 5). The experiment was conducted twice and berries were incubated at 25 ± 2°C in sterile moisture chambers (Ghuffar et al., 2018). White to light pink mycelium in appearance with the original symptoms were observed on both wounded and non-wounded inoculated berries after 3 days, whereas no symptoms were observed on the negative control. The morphology of the fungus that was re-isolated from each of the inoculated berries was identical to that of the original cultures. Fusarium proliferatum, one of the destructive species, causes diseases like foot-rot of corn (Farr et al., 1990), root rot of soybean (Díaz Arias et al., 2011), bakanae of rice (Zainudin et al., 2008), wilt of date palm (Khudhair et al., 2014), tomato wilt (Chehri, 2016) and tomato fruit rot (Murad et al., 2016). To our knowledge, this is the first report of Fusarium proliferatum causing fruit rot of grapes in Pakistan, where the disease poses a significant threat to the sustainability of this major fruit crop.
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巴基斯坦增殖性镰刀菌引起葡萄腐烂的首次报道
葡萄(Vitis vinifera)是巴基斯坦重要的水果作物,主要用于食用目的。2016年9月,采收后3-5天,在葡萄cv上观察到不同寻常的果腐症状。旁遮普省Jehlum地区(北纬32°56'22.3"北纬73°43'31.4"东经)收获后的包装屋中的Kishmishi。为了确定疾病的发病率,我们从5个不同的地点随机抽取了10箱葡萄。每箱平均装12束,检查的120束中有30束表现出典型的疾病症状。最初的症状是小的,圆形的,被水浸泡的病变,迅速发展成柔软的,白色到浅粉色的菌丝体,靠近受感染果实的中心(图1)。共有186个有症状的浆果用1%次氯酸钠表面消毒,用无菌蒸馏水冲洗三次,然后放在滤纸上干燥45秒。切除消毒后的组织(约4 mm3),在25±4°C的马铃薯葡萄糖琼脂(PDA)培养基上培养。孵育一周后,具有丰富气生菌丝体的菌落最初呈白色、棉状,随着年龄的增长逐渐变成紫色和深紫色(图2)。共对25个分离株进行了形态学检查。大分生孢子细长,薄壁,3 - 5隔,顶端细胞弯曲,直径为20.9 ~ 45.2 × 3.2 ~ 7.1 μm;小分生孢子薄壁,无分离,棒状,直径为4.5 ~ 11.2 × 2.3 ~ 4.1 μm(图3)。这些特征最适合对增殖镰刀菌的描述(Leslie and Summerell, 2006)。对部分内部转录间隔区(ITS)进行测序(White et al., 1990)。两个分离株Fus 07和Fus 09的序列分析MH444366和MH464139)与增殖镰刀菌对应的基因序列100%同源(GenBank Accessions;MH368119、MF033172和KU939071)(图4)。将两株菌株接种50 μl分生孢子悬浮液(1 × 106个/ml)于3个未受伤和4个无症状葡萄果实上进行致病性试验。使用无菌蒸馏水作为阴性对照(图5)。实验进行两次,在无菌湿室中25±2°C孵育浆果(Ghuffar et al., 2018)。接种3天后,在受伤和未受伤的接种浆果上均观察到外观为白色至浅粉红色的菌丝体,具有原始症状,而在阴性对照上未观察到任何症状。从每一个接种的浆果中重新分离出来的真菌的形态与原始培养的完全相同。繁殖镰刀菌是一种破坏性物种,可引起玉米腐脚病(Farr等人,1990)、大豆根腐病(Díaz Arias等人,2011)、水稻bakanae (Zainudin等人,2008)、枣椰树枯萎病(Khudhair等人,2014)、番茄枯萎病(Chehri, 2016)和番茄果腐病(Murad等人,2016)等疾病。据我们所知,这是巴基斯坦发生的第一起关于增镰刀菌引起葡萄果实腐烂的报告,该疾病对巴基斯坦这一主要水果作物的可持续性构成重大威胁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Phytopathology
International Journal of Phytopathology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
1.20
自引率
0.00%
发文量
11
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