Species diversity of Basidiomycota

IF 24.5 1区 生物学 Q1 MYCOLOGY
Mao-Qiang He, Rui-Lin Zhao, Dong-Mei Liu, Teodor T. Denchev, Dominik Begerow, Andrey Yurkov, Martin Kemler, Ana M. Millanes, Mats Wedin, A. R. McTaggart, Roger G. Shivas, Bart Buyck, Jie Chen, Alfredo Vizzini, Viktor Papp, Ivan V. Zmitrovich, Naveed Davoodian, Kevin D. Hyde
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引用次数: 18

Abstract

Fungi are eukaryotes that play essential roles in ecosystems. Among fungi, Basidiomycota is one of the major phyla with more than 40,000 described species. We review species diversity of Basidiomycota from five groups with different lifestyles or habitats: saprobic in grass/forest litter, wood-decaying, yeast-like, ectomycorrhizal, and plant parasitic. Case studies of Agaricus, Cantharellus, Ganoderma, Gyroporus, Russula, Tricholoma, and groups of lichenicolous yeast-like fungi, rust fungi, and smut fungi are used to determine trends in discovery of biodiversity. In each case study, the number of new species published during 2009–2020 is analysed to determine the rate of discovery. Publication rates differ between taxa and reflect different states of progress for species discovery in different genera. The results showed that lichenicolous yeast-like taxa had the highest publication rate for new species in the past two decades, and it is likely this trend will continue in the next decade. The species discovery rate of plant parasitic basidiomycetes was low in the past ten years, and remained constant in the past 50 years. We also found that the establishment of comprehensive and robust taxonomic systems based on a joint global initiative by mycologists could promote and standardize the recognition of taxa. We estimated that more than 54,000 species of Basidiomycota will be discovered by 2030, and estimate a total of 1.4–4.2 million species of Basidiomycota globally. These numbers illustrate a huge gap between the described and yet unknown diversity in Basidiomycota.

担子菌属的物种多样性
真菌是在生态系统中起重要作用的真核生物。担子菌门是真菌的主要门之一,目前已有4万余种。摘要对不同生活方式和生境的担子菌属进行了分类,分别为:腐植草/森林凋落物、腐植木、酵母样、外生菌根和植物寄生。对蘑菇、Cantharellus、灵芝、Gyroporus、Russula、Tricholoma以及地衣酵母样真菌、锈菌和黑穗病真菌的案例研究用于确定生物多样性发现的趋势。在每个案例研究中,都会分析2009-2020年期间发表的新物种数量,以确定发现的速度。不同分类群的发表率不同,反映了不同属的物种发现的不同进展状态。结果表明,地衣酵母样分类群在过去20年的新种发表率最高,并有可能在未来10年继续保持这一趋势。植物寄生担子菌的物种发现率在近10年较低,在近50年基本保持不变。我们还发现,在真菌学家的共同倡议下,建立全面而健全的分类系统可以促进和规范分类群的识别。我们估计,到2030年,全球将发现超过54,000种担子菌,估计总共有140 - 420万种担子菌。这些数字说明了担子菌的描述和未知的多样性之间的巨大差距。
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
Fungal Diversity
Fungal Diversity 生物-真菌学
CiteScore
44.80
自引率
9.90%
发文量
17
审稿时长
6 months
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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