Zheng Wang, Lingyu Liang, Huimin Wang, Cony Decock, Quan Lu
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引用次数: 0
Abstract
Ips is a genus of bark beetles found throughout the Northern Hemisphere, many of which are highly destructive to coniferous forests and plantations. Fungal symbionts, especially ophiostomatoid fungi, have contributed to the success of Ips bark beetles. Recently, climate change accelerated tree mortality caused by bark beetles and their fungal symbionts. However, the knowledge of ophiostomatoid fungi associated with Ips bark beetles is inadequate in China. Therefore, this study investigated the ophiostomatoid fungal communities associated with different Ips bark beetles from various coniferous forest areas of China. A total of 14,512 ophiostomatoid fungal strains were isolated from 1265 vigorous adult beetles and 826 fresh galleries belonging to 11 Ips species infesting 16 coniferous tree species, including pines, spruces, and larches, from 42 sampling sites in nine provinces or autonomous regions in northeast, northwest and southwest China. Based on a combination of morphological features and phylogenetic analysis, 71 taxa belonging to eight genera were identified (Ceratocystiopsis, Graphilbum, Grosmannia, Leptographium, Masuyamyces, and Ophiostoma in Ophiostomatales; Endoconidiophora and Graphium in Microascales), of which 38 species were described as new. Comparing patterns of fungal assemblages indicated that fungal symbionts genetically co-differentiated with their vectors. Host trees possibly reinforce the coarse species-specific association between ophiostomatoid fungi and Ips bark beetles. This study further demonstrates the high diversity of ophiostomatoid fungi associated with Ips bark beetles and provides insights into their symbiotic associations.
Ips是一种遍布北半球的树皮甲虫属,其中许多对针叶林和种植园具有高度破坏性。真菌共生体,特别是类蛇口真菌,对Ips树皮甲虫的成功做出了贡献。最近,气候变化加速了由树皮甲虫及其真菌共生体引起的树木死亡。然而,国内对与Ips树皮甲虫相关的类蛇口真菌的认识还不充分。因此,本研究调查了中国不同针叶林地区不同Ips树皮甲虫相关的类蛇口真菌群落。在东北、西北和西南9个省(自治区)的42个采样点,从11种成虫1265株和826株鲜虫中分离出14512株类蛇口真菌,侵染松树、云杉、落叶松等16种针叶树。基于形态学特征和系统发育分析,鉴定出8属71个类群(蛇鼻藿属中的Ceratocystiopsis、Graphilbum、Grosmannia、Leptographium、Masuyamyces和Ophiostoma);微鳞片内内生孢子虫属(Endoconidiophora)和石墨属(grapum in microas鳞片),其中38种为新种。真菌组合模式的比较表明,真菌共生体与其载体存在共分化。寄主树可能加强了类蛇口真菌和Ips树皮甲虫之间的粗略的物种特异性联系。该研究进一步证明了与Ips树皮甲虫相关的类蛇口真菌的高度多样性,并为它们的共生关系提供了见解。
期刊介绍:
Fungal Diversity, the official journal of the Kunming Institute of Botany of the Chinese Academy of Sciences, is an international, peer-reviewed journal covering all aspects of mycology. It prioritizes papers on biodiversity, systematic, and molecular phylogeny. While it welcomes novel research and review articles, authors aiming to publish checklists are advised to seek regional journals, and the introduction of new species and genera should generally be supported by molecular data.
Published articles undergo peer review and are accessible online first with a permanent DOI, making them citable as the official Version of Record according to NISO RP-8-2008 standards. Any necessary corrections after online publication require the publication of an Erratum.
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