First Detection of Pseudocerradoa paullula Causing Aroid Leaf Rust on Swiss Cheese Plant (Monstera deliciosa) in Virginia.

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES Plant disease Pub Date : 2024-09-11 DOI:10.1094/pdis-07-24-1540-pdn
Devin Bily,Tashi Gyatso,Aaron Evans
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Abstract

Monstera deliciosa Liebm. (Araceae) is a monocotyledonous plant that is native to tropical forests of southern Mexico to Panama. It is widely grown as an ornamental in the United States because of its easy maintenance and attractive, fenestrate leaves. On May 10th, 2024, at a nursery and garden center in Henrico County, Virginia, four M. deliciosa plants in 3.8 L containers were observed with necrotic spots surrounded by a yellow halo on the leaves (Fig. 1A). Uredinia were present in the center of the lesions with dense, reddish-brown sporulation mostly on the abaxial surface of the leaves (Fig. 1B). Urediniospores with pedicels were golden brown in color, globose, echinulate, with two opposite germ pores, averaging (28) 25.2 x 25 (23) µm (n = 40) in size and a wall thickness of 1.5 to 2 µm (n = 40) (Fig. 1F - K). Telia were not present. The host, symptoms, and urediniospore size was comparable to reports of Pseudocerradoa paullula (Syd. & P. Syd.) M. Ebinghaus & Dianese from South Carolina (22.9 to 27.9 μm), Florida (24 to 31 μm), and Japan (24.8 to 29.3 μm) (Ebinghaus et al. 2022; Sakamoto et al. 2023; Urbina et al. 2023; Yang et al. 2023). Urediniospores from the infected plants were collected with a sterile needle and DNA was extracted using a Qiagen DNeasy PowerLyzer Microbial Kit (Germantown, MD) according to the manufacturer's instructions. PCR and sequencing of the small ribosomal subunit (SSU) and large ribosomal subunit (LSU) gene regions was performed with primer sets NS1/Rust18SR and LRust1R/LR3 (Beenken et al. 2012; Vilgalys and Hester 1990). The resulting 1,630bp and 638 bp sequence fragments of the SSU and LSU loci from strain GS24-AE50 were deposited into the NCBI Genbank database under accessions PQ059898 and PQ059897, respectively. A pairwise alignment of the SSU gene shared 1,363/1,366 (99%) nucleotides with the P. paullula voucher (ON887197) from Florida. A Genbank nBLAST analysis of the LSU gene shared 636/638 (99%), 636/638 (99%), and 592/600 (99%) nucleotides with vouchers from M. deliciosa from South Carolina (OQ746460), Florida (ON887197) and Japan (OK509070) (Sakamoto et al. 20222; Urbina et al. 2023; Yang et al. 2023). Koch's postulates were fulfilled by spraying four, healthy, non-wounded M. deliciosa plants to run-off with a urediniospore suspension (1 x 106 spores/ml distilled water, 20 ml per plant) that was collected from the original infected plants. An additional four, healthy control plants were sprayed with distilled water only. After 6 weeks in a greenhouse at 22 ± 2°C with ≥85% relative humidity under an 8-h photoperiod, uredinia in the center of lesions identical to those on the original symptomatic plants developed on 12 out of 20 leaves from the inoculated plants, while all the leaves from the control plants remained asymptomatic (Fig.1C - E). Urediniospores collected from the inoculated plants were morphologically identical to the urediniospores from the original infected plants with 100% LSU sequence homology to accession PQ059897. Globally, P. paullula has been reported from Australia, China, Japan, Malaysia, the Philippines, and the United States, where the pathogen was detected at the port of Los Angeles in 2014, Florida in 2019, and South Carolina in 2023 (Sakamoto et al. 2023; Shaw et al. 1991; Urbina et al. 2023; Yang et al. 2023). Although the pathogen is not known to be established in Virginia, the recent surge of reports suggests that the pathogen's distribution is expanding. The impact of aroid leaf rust on M. deliciosa production is unclear, but it has the potential to reduce the aesthetic and commercial value of plants under favorable conditions.
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在弗吉尼亚州首次检测到 Pseudocerradoa paullula 在瑞士奶酪植物(Monstera deliciosa)上引起茄叶锈病。
Monstera deliciosa Liebm.(天南星科)是一种单子叶植物,原产于墨西哥南部至巴拿马的热带森林。在美国,它被广泛种植为观赏植物,因为它易于维护,叶片有栅栏状,十分美观。2024 年 5 月 10 日,在弗吉尼亚州亨里科县的一家苗圃和花园中心,观察到 3.8 L 容器中的四株 M. deliciosa 植物叶片上出现坏死斑点,周围环绕着黄色光晕(图 1A)。病斑中央有密集的红褐色孢子(图 1B)。带花梗的 Urediniospores 呈金黄色,球状,有棘,有两个相对的胚芽孔,平均大小为 (28) 25.2 x 25 (23) 微米(n = 40),壁厚 1.5 到 2 微米(n = 40)(图 1F - K)。纤毛虫不存在。寄主、症状和菱形孢子的大小与南卡罗来纳州(22.9 至 27.9 μm)、佛罗里达州(24 至 31 μm)和日本(24.8 至 29.3 μm)的 Pseudocerradoa paullula (Syd. & P. Syd.) M. Ebinghaus & Dianese 的报告相当(Ebinghaus 等人,2022 年;Sakamoto 等人,2023 年;Urbina 等人,2023 年;Yang 等人,2023 年)。用无菌针头从受感染的植株中收集尿囊孢子,并按照生产商的说明使用 Qiagen DNeasy PowerLyzer 微生物试剂盒(马里兰州日耳曼敦)提取 DNA。使用引物组 NS1/Rust18SR 和 LRust1R/LR3(Beenken 等,2012 年;Vilgalys 和 Hester,1990 年)对小核糖体亚基(SSU)和大核糖体亚基(LSU)基因区域进行了 PCR 和测序。所得到的来自菌株 GS24-AE50 的 SSU 和 LSU 位点的 1,630bp 和 638bp 序列片段分别以 PQ059898 和 PQ059897 的登录号存入 NCBI Genbank 数据库。SSU 基因的配对比对结果显示,该基因与来自佛罗里达州的 P. paullula 菌株凭证(ON887197)共享 1,363/1,366 个核苷酸(99%)。通过 Genbank nBLAST 分析,LSU 基因分别与来自南卡罗来纳州(OQ746460)、佛罗里达州(ON887197)和日本(OK509070)的 M. deliciosa 的凭证共享 636/638 (99%)、636/638 (99%) 和 592/600 (99%) 个核苷酸(Sakamoto 等,20222;Urbina 等,2023;Yang 等,2023)。通过向四株健康、未受伤的 M. deliciosa 植物喷洒从原感染植物上收集的脲原体悬浮液(1 x 106 个孢子/毫升蒸馏水,每株植物 20 毫升)来实现科赫推定。另外四株健康对照植株只用蒸馏水喷洒。在温度为 22 ± 2°C、相对湿度≥85%、光周期为 8 小时的温室中生长 6 周后,接种植株的 20 片叶子中有 12 片的病斑中心长出了与原症状植株相同的楔形孢子,而对照植株的所有叶子仍无症状(图 1C - E)。从接种植株上收集到的红孢子与最初感染植株上的红孢子在形态上完全相同,与登录号 PQ059897 的 LSU 序列同源性为 100%。在全球范围内,澳大利亚、中国、日本、马来西亚、菲律宾和美国都有关于 P. paullula 的报道,2014 年在洛杉矶港、2019 年在佛罗里达州、2023 年在南卡罗来纳州发现了该病原体(Sakamoto 等,2023 年;Shaw 等,1991 年;Urbina 等,2023 年;Yang 等,2023 年)。虽然该病原体尚未在弗吉尼亚州形成气候,但最近的大量报告表明,该病原体的分布范围正在扩大。目前还不清楚甲藻叶锈病对M. deliciosa产量的影响,但在有利条件下,它有可能降低植物的美观和商业价值。
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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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