标题中国桉树人工林及其邻近植物的灰桉科植物。

IF 9.5 1区 生物学 Q1 MYCOLOGY Persoonia Pub Date : 2018-12-01 Epub Date: 2017-10-31 DOI:10.3767/persoonia.2018.40.03
G Q Li, F F Liu, J Q Li, Q L Liu, S F Chen
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引用次数: 49

摘要

Botryosphaeriaceae是一个物种丰富的家族,包括各种植物的病原体,包括桉树物种。近年来,在中国进行的疾病调查中,从桉树人工林以及与桉树相邻生长的杉木、龙眼、银杏、凤凰树等植物中,采集到了与葡萄树科植物相关的病样。此外,两个园林的杉木和杉木的少量样本也被纳入本研究。主要表现为茎溃疡病、茎枯病和枝条枯病。本研究共从6个省份收集了105株植物,其中桉树属植物分离株81株。通过比较其内部转录间隔区和介入5.8S nrRNA基因(ITS)、部分翻译延伸因子1- α (tef1)、β-微管蛋白(tub)、DNA定向RNA聚合酶II亚基(rpb2)和钙调素(cmdA)基因、核糖体大亚基(LSU)和核糖体小亚基(SSU)的DNA序列,并结合其形态特征进行鉴定。结果表明,这些分离物代表了12种植物,包括fusispora Botryosphaeria、Cophinforma atrovirens、Lasiodiplodia brasiliense、pseudotheobrome、l.e obrome和Neofusicoccum parvum,以及6种植物和Neofusicoccum,分别是pseudooramosa sp. nov、b.e qingyuanensis sp. nov、b.s wangensis sp. nov、b.s honggense sp. nov、b.s microconidium sp. nov和n.s sino桉树sp. nov。C. atrovirens和N. hongkongense,以及其他9种botryosphaeriiaceae植物均从中国南方桉树中分离得到。fusispora葡萄球孢菌(占桉树分离株的26%)是优势菌种,其次是假可可菌(占桉树分离株的23%)。除了在桉树上发现的物种外,我们还在血杨上发现了假芽孢杆菌;王氏双歧杆菌寄生于deodara上;D.龙眼;茶屈菌对杉木、龙眼和雪碧的影响;香港野生种和香港野生种。致病性试验表明,12种botryosphaeriiaceae植物对3个桉树无性系均有致病性,其中Lasiodiplodia种对桉树无性系的致病性最强。我们的研究结果表明,在中国仍有更多的蕨类植物有待发现。本研究也证实了球孢菌科植物在不同植物上寄主范围广泛。
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Botryosphaeriaceae from Eucalyptus plantations and adjacent plants in China.

The Botryosphaeriaceae is a species-rich family that includes pathogens of a wide variety of plants, including species of Eucalyptus. Recently, during disease surveys in China, diseased samples associated with species of Botryosphaeriaceae were collected from plantation Eucalyptus and other plants, including Cunninghamina lanceolata, Dimocarpus longan, Melastoma sanguineum and Phoenix hanceana, which were growing adjacent to Eucalyptus. In addition, few samples from Araucaria cunninghamii and Cedrus deodara in two gardens were also included in this study. Disease symptoms observed mainly included stem canker, shoot and twig blight. In this study, 105 isolates of Botryosphaeriaceae were collected from six provinces, of which 81 isolates were from Eucalyptus trees. These isolates were identified based on comparisons of the DNA sequences of the internal transcribed spacer regions and intervening 5.8S nrRNA gene (ITS), and partial translation elongation factor 1-alpha (tef1), β-tubulin (tub), DNA-directed RNA polymerase II subunit (rpb2) and calmodulin (cmdA) genes, the nuclear ribosomal large subunit (LSU) and the nuclear ribosomal small subunit (SSU), and combined with their morphological characteristics. Results showed that these isolates represent 12 species of Botryosphaeriaceae, including Botryosphaeria fusispora, Cophinforma atrovirens, Lasiodiplodia brasiliense, L. pseudotheobromae, L. theobromae and Neofusicoccum parvum, and six previously undescribed species of Botryosphaeria and Neofusicoccum, namely B. pseudoramosa sp. nov., B. qingyuanensis sp. nov., B. wangensis sp. nov., N. hongkongense sp. nov., N. microconidium sp. nov. and N. sinoeucalypti sp. nov. Aside from B. wangensis, C. atrovirens and N. hongkongense, the other nine Botryosphaeriaceae species were isolated from Eucalyptus trees in South China. Botryosphaeria fusispora (26 % of the isolates from Eucalyptus) is the dominant species, followed by L. pseudotheobromae (23 % of the isolates from Eucalyptus). In addition to species found on Eucalyptus trees, we also found B. pseudoramosa on M. sanguineum; B. wangensis on C. deodara; C. atrovirens on D. longan; L. theobromae on C. lanceolata, D. longan and P. hanceana; and N. hongkongense on A. cunninghamii. Pathogenicity tests showed that the 12 species of Botryosphaeriaceae are pathogenic to three Eucalyptus clones and that Lasiodiplodia species are the most aggressive. The results of our study suggest that many more species of the Botryosphaeriaceae remain to be discovered in China. This study also provides confirmation for the wide host range of Botryosphaeriaceae species on different plants.

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来源期刊
Persoonia
Persoonia MYCOLOGY-
CiteScore
17.70
自引率
5.50%
发文量
10
审稿时长
3 months
期刊介绍: Persoonia aspires to publish papers focusing on the molecular systematics and evolution of fungi. Additionally, it seeks to advance fungal taxonomy by employing a polythetic approach to elucidate the genuine phylogeny and relationships within the kingdom Fungi. The journal is dedicated to disseminating high-quality papers that unravel both known and novel fungal taxa at the DNA level. Moreover, it endeavors to provide fresh insights into evolutionary processes and relationships. The scope of papers considered encompasses research articles, along with topical and book reviews.
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