First report of Sclerotinia minor causing soft rot of Scabiosa atropurpurea in California.

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES Plant disease Pub Date : 2024-10-11 DOI:10.1094/PDIS-08-24-1631-PDN
Jesica Calderon, Sophia Acker, Karina Elfar, Chris Greer, Johanna Del Castillo Múnera
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Abstract

In May of 2019, Scabiosa atropurpurea samples with brown discoloration, soft rot of the crown and lower stem, with presence of white mycelium and black sclerotia (Supp. Fig. 1A, B) were collected from a 0.10 ha open field diversified cut flower production in San Luis Obispo County, CA. Approximately 30 to 40% of the scabiosa crop planted in a quarter of the field, exhibited symptoms. Symptomatic crowns and lower stems from five plants were surface disinfested by rinsing in 0.1% Tween 20, soaking in 70% ethanol for 30 s, 1% sodium hypochlorite for 2 min and sterile water. Disinfested tissue was placed in 1/10 potato dextrose agar (PDA) and incubated at 20°C (12 h photoperiod). Resulting colonies (n = 5) formed abundant white mycelia, with black sclerotia formed on the outer edge of the plates after two weeks (Suppl. Fig. 1C). Sclerotia (n = 50) had an average size of 1.6 (± 0.19) mm in diameter. Morphological identification resulted in Sclerotinia sp. (Hao et al., 2003). The pathogen was further identified by DNA extraction of two hyphal tipped isolates, followed by amplification and sequencing of the rDNA internal transcribed spacer (ITS) region, ITS1/ITS4 (White et al. 1990), calmodulin (CaM), CAL-228F/CAL-737R (Carbone and Kohn, 1999), and DNA replication licensing factor Mcm7 Mcm7-709for/Mcm7-1348rev (Schmitt et al., 2009). NCBI BLAST searches with consensus sequences for each maker revealed 99 to 100% identity with S. minor ex-types for all loci (Supp. Table 1). A maximum parsimony multilocus phylogenetic analysis clustered Californian isolates with reference strains of S. minor (Supp. Fig. 1F). Sequences were deposited in GenBank (Supp. Table 1). Pathogenicity tests were conducted with isolate CS435, which was transferred onto PDA plates and incubated at 20°C for one week. Inoculum consisted of CS435 infested PDA plugs (1 cm3). In the greenhouse, the experiment was set as a complete randomized design and observed for six weeks. Fourteen-week-old scabiosa 'Merlot Red' grown in 3.78 L pots (n = 6), were inoculated by wounding plants at 0.5 cm above the crowns with a 1 mm probe. Inoculum was placed directly on top of the wound and was secured with parafilm. Negative control plants (n = 6) were wounded as above and inoculated with PDA plugs. In experiment 1(19.4 (± 3) °C, RH 46.9), 83% of plants exhibited yellowing of the lower leaves and wilting at one week post inoculation (wpi). Symptoms progressed over time until wilting, major leaf and stem necrosis, was observed in all inoculated plants (Supp. Fig 1E, D). Plant mortality incidence at five wpi was 83%. Pathogen signs including white mycelia and black sclerotia were also observed. In experiment 2 (20.0 (± 10) °C, RH 39.6), 66% of the total plants were symptomatic at five wpi: 33% exhibited yellowing of the lower leaves and wilting, and 33% of plants died. Disease did not develop in non-inoculated plants in either experiment. S. minor was successfully reisolated from surface disinfested tissue of at least 50% (Exp. 1) and 100% (Exp. 2) of inoculated plants, yielding identical sequences to those of the inoculated isolate. S. minor is a soil-borne pathogen that infects tomato, lettuce, brassica, and sunflower crops in California. This study stablishes S. minor as a new soil-borne pathogen of Scabiosa in California. Soil-borne pathogens are a recurrent issue in the cut flower industry, characterizing new pathogens in these crops can inform crop advisors and disease diagnostician to improve disease management in the ornamental industry.

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首次报告加利福尼亚州由小硬菌引起的 Scabiosa atropurpurea 软腐病。
2019 年 5 月,从加利福尼亚州圣路易斯奥比斯波县的 0.10 公顷露地多样化切花生产中采集到的葶苈(Scabiosa atropurpurea)样本出现褐色变色,树冠和下部茎干软腐,并伴有白色菌丝和黑色菌核(附图 1A、B)。在四分之一的田地里种植的大戟科作物中,约有 30% 至 40% 出现了症状。用 0.1% 吐温 20 冲洗、70% 乙醇浸泡 30 秒、1% 次氯酸钠浸泡 2 分钟,再用无菌水冲洗,对五株植物有症状的树冠和下部茎干进行表面消毒。将消毒后的组织放入 1/10 马铃薯葡萄糖琼脂(PDA)中,在 20°C 下培养(12 小时光周期)。结果菌落(n = 5)形成大量白色菌丝体,两周后在平板外缘形成黑色硬菌(附图 1C)。菌丝体(n = 50)的平均直径为 1.6 (± 0.19) 毫米。形态鉴定结果为 Sclerotinia sp.(郝等人,2003 年)。病原体的进一步鉴定是通过提取两个有顶端的分离物的 DNA,然后对 rDNA 内部转录间隔区(ITS)、ITS1/ITS4(White 等人,1990 年)、钙调素(CaM)、CAL-228F/CAL-737R(Carbone 和 Kohn,1999 年)和 DNA 复制许可因子 Mcm7 Mcm7-709for/Mcm7-1348rev (Schmitt 等人,2009 年)进行扩增和测序。用每个制造者的共识序列进行 NCBI BLAST 搜索,发现所有位点都与 S. minor ex-types 有 99% 至 100% 的相同性(补充表 1)。最大解析度多焦点系统发育分析将加利福尼亚分离株与 S. minor 的参考菌株进行了聚类(附图 1F)。序列已存入 GenBank(附录:表 1)。用 CS435 分离物进行致病性试验,将其转移到 PDA 平板上,在 20°C 培养一周。接种物包括侵染 CS435 的 PDA 插条(1 cm3)。在温室中,实验采用完全随机设计,观察期为六周。在 3.78 L 的花盆(n = 6)中种植 14 周大的大戟科植物'Merlot Red',用 1 mm 的探针在植株树冠上方 0.5 cm 处刺伤植株后接种。接种体直接放在伤口上方,并用保鲜膜固定。阴性对照植株(n = 6)的伤口如上,接种 PDA 插条。在实验 1(19.4 (± 3) °C,相对湿度 46.9)中,83% 的植株在接种后一周(wpi)出现下部叶片变黄和枯萎。随着时间的推移,症状逐渐加重,直至所有接种植株都出现萎蔫、主要叶片和茎秆坏死(附图 1E、D)。植株在 5 wpi 时的死亡率为 83%。还观察到了病原体的迹象,包括白色菌丝体和黑色菌核。在实验 2(20.0 (± 10) °C,相对湿度 39.6)中,有 66% 的植株在 5 wpi 时出现症状:33% 的植株下部叶片变黄和枯萎,33% 的植株死亡。在这两项实验中,未接种的植株均未发病。从至少 50%(实验 1)和 100% (实验 2)接种植株的表面消毒组织中成功再分离出了小孢子菌,其序列与接种分离物的序列完全相同。S. minor 是一种土传病原体,感染加利福尼亚州的番茄、莴苣、黄铜菜和向日葵作物。这项研究将小矢车菊病菌确定为加利福尼亚州一种新的矢车菊土传病原体。土传病原体是切花行业经常出现的问题,确定这些作物中新病原体的特征可以为作物顾问和疾病诊断人员提供信息,从而改善观赏植物行业的疾病管理。
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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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