Sun Y-F, Xing J-H, He X-L, Wu D-M, Song C-G, Liu S, Vlasák J, Gates G, Gibertoni T B, Cui B-K
Institute of Microbiology, School of Ecology and Nature Conservation, Beijing Forestry University, Beijing 100083, China.
Sichuan Institute of Edible Fungi, Sichuan Academy of Agricultural Sciences, Chengdu, Sichuan 610066, China.
Stud Mycol. 2022 Jul;101:287-415. doi: 10.3114/sim.2022.101.05. Epub 2022 May 20.
is one of the main families of macrofungi since species in the family are both ecologically and economically important. The double-walled basidiospores with ornamented endospore walls are the characteristic features of . It is a large and complex family; although many studies have focused on , the global diversity, geographic distribution, taxonomy and molecular phylogeny of still remained incompletely understood. In this work, taxonomic and phylogenetic studies on worldwide species of were carried out by morphological examination and molecular phylogenetic analyses inferred from six gene loci including the internal transcribed spacer regions (ITS), the large subunit of nuclear ribosomal RNA gene (nLSU), the second largest subunit of RNA polymerase II gene (), the translation elongation factor 1-α gene (), the small subunit mitochondrial rRNA gene (mtSSU) and the small subunit nuclear ribosomal RNA gene (nSSU). A total of 1 382 sequences were used in the phylogenetic analyses, of which 817 were newly generated, including 132 sequences of ITS, 139 sequences of nLSU, 83 sequences of , 124 sequences of , 150 sequences of mtSSU and 189 sequences of nSSU. The combined six-gene dataset included sequences from 391 specimens representing 146 taxa from . Based on morphological and phylogenetic analyses, 14 genera were confirmed in : , , , , , , , , , , , , and . Among these genera, is proposed for ; is proposed for ; is proposed to include taxa previously belonging to since is a homonym of a plant genus in the ; is proposed to include since is a homonym of a lichen genus in the . Twenty-three new species, ., , , , , , , , , , , , , , , , , , , , , , and are described. In addition, another 33 known species are also described in detail for comparison. Scanning electron micrographs of basidiospores of 10 genera in are provided. A key to the accepted genera of and keys to the accepted species of , , , , and are also provided. In total, 278 species are accepted as members of including 59 species distributed in China. B.K. Cui & Y.F. Sun, B.K. Cui & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun and B.K. Cui & Y.F. Sun; B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Vlasák, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Vlasák, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, J.H. Xing & Y.F. Sun, B.K. Cui, Vlasák & Y.F. Sun, B.K. Cui & Y.F. Sun, B.K. Cui & Y.F. Sun, B.K. Cui & Y.F. Sun, B.K. Cui & Y.F. Sun, B.K. Cui & Y.F. Sun and B.K. Cui & Y.F. Sun; : (Costa-Rezende ) B.K. Cui & Y.F. Sun, (Singer) B.K. Cui & Y.F. Sun, (Gulaid & Ryvarden) B.K. Cui & Y.F. Sun, (J.S. Furtado) B.K. Cui & Y.F. Sun, (J.D. Zhao & L.W. Xu) B.K. Cui, J.H. Xing & Y.F. Sun and (Yasuda ex Lloyd) B.K. Cui & Y.F. Sun. Sun Y-F, Xing J-H, He X-L, Wu D-M, Song C-G, Liu S, Vlasák J, Gates G, Gibertoni TB, Cui B-K (2022). Species diversity, systematic revision and molecular phylogeny of (, ) with an emphasis on Chinese collections. : 287-415. doi: 10.3114/sim.2022.101.05.
是大型真菌的主要类群之一,因为该科中的物种在生态和经济方面都很重要。具装饰性内壁的双壁担子孢子是其特征。它是一个庞大而复杂的科;尽管许多研究都集中在该科,但对于其全球多样性、地理分布、分类学和分子系统发育仍未完全了解。在这项工作中,通过形态学检查以及从包括内转录间隔区(ITS)、核糖体RNA基因大亚基(nLSU)、RNA聚合酶II基因第二大亚基()、翻译延伸因子1-α基因()、线粒体小亚基rRNA基因(mtSSU)和核糖体RNA基因小亚基(nSSU)在内的六个基因位点推断的分子系统发育分析,对全球范围内的该科物种进行了分类学和系统发育研究。系统发育分析共使用了1382个序列,其中817个是新生成的,包括132个ITS序列、139个nLSU序列、83个序列、124个序列、150个mtSSU序列和189个nSSU序列。合并的六基因数据集包括来自391个标本的序列,这些标本代表了该科的146个分类单元。基于形态学和系统发育分析,在该科中确认了14个属:、、、、、、、、、、、、和。在这些属中,为提议的属;为提议的属;提议包括以前属于的分类单元,因为在中是一个植物属的同名异物;提议包括,因为在中是一个地衣属的同名异物。描述了23个新物种,即、、、、、、、、、、、、、、、、、、、、、和。此外,还详细描述了另外33个已知物种以作比较。提供了该科10个属的担子孢子的扫描电子显微镜照片。还提供了该科公认属的检索表以及、、、、和的公认物种的检索表。总共278个物种被接受为该科的成员,其中59种分布在中国。B.K.崔 & Y.F.孙,B.K.崔 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙和B.K.崔 & Y.F.孙;B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Vlasák,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔\、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Vlasák,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、J.H.邢 & Y.F.孙,B.K.崔、Vlasák & Y.F.孙,B.K.崔 & Y.F.孙 B.K.崔 & Y.F.孙,B.K.崔 & Y.F.孙,B.K.崔 & Y.F.孙,B.K.崔 & Y.F.孙,B.K.崔 & Y.F.孙和B.K.崔 & Y.F.孙;:(科斯塔 - 雷曾德)B.K.崔 & Y.F.孙,(辛格)B.K.崔 & Y.F.孙,(古拉伊德 & 里瓦尔登)B.K.崔 & Y.F.孙,(J.S. 富尔塔多)B.K.崔 & Y.F.孙,(J.D. 赵 & L.W. 徐)B.K.崔、J.H.邢 & Y.F.孙和(安田 前劳埃德)B.K.崔 & Y.F.孙。孙Y - F,邢J - H,何X - L,吴D - M,宋C - G,刘S,弗拉萨克J,盖茨G,吉贝托尼TB,崔B - K(2022)。(,)的物种多样性、系统修订和分子系统发育,重点是中国的标本。:287 - 415。doi:10.3114/sim.2022.101.05。
