Mission impossible completed:unlocking the nomenclature of the largest and most complicated subgenus of Cortinarius,Telamonia  被引量：6

作　　者：Kare Liimatainen Tuula Niskanen Bálint Dima Joseph F.Ammirati Paul M.Kirk Ilkka Kytövuori 

机构地区：[1]Jodrell Laboratory,Royal Botanic Gardens,Kew,Surrey TW93AB,UK [2]Botanical Museum,University of Helsinki,P.O.Box 7,00014 Helsinki,Finland [3]Department of Plant Anatomy,Institute of Biology,Eötvös Loránd University,Pázmány Péter sétány 1/C,1117 Budapest,Hungary [4]Department of Biology,University of Washington,Box 351800,Seattle,WA 98195-1800,USA

出　　处：《Fungal Diversity》2020年第5期291-331,共41页真菌多样性（英文）

基　　金：the Ministry of Environment,Finland(YM38/5512/2009);The Finnish Cultural Foundation,Daniel E.Stuntz Memorial Foundation(Univ.of Washington,USA),Swedish taxonomy Initiative-project(University of Gothenburg),Kone Foundation(FinBOL project)and the ELTE Insti-tutional Excellence Program by the National Research,Development and Innovation Office of Hungary(NKFIH-1157-8/2019-DT)。

摘　　要：So far approximately 144,000 species of fungi have been named but sequences of the majority of them do not exist in the public databases.Therefore,the quality and coverage of public barcode databases is a bottleneck that hinders the study of fungi.Cortinarius is the largest genus of Agaricales with thousands of species world-wide.The most diverse subgenus in Cortinarius is Telamonia and its species have been considered one of the most taxonomically challenging in the Agaricales.Its high diversity combined with convergent,similar appearing taxa have earned it a reputation of being an impossible group to study.In this study a total of 746 specimens,including 482 type specimens representing 184 species were sequenced.Also,a significant number of old types were successfully sequenced,105 type specimens were over 50 years old and 18 type specimens over 100 years old.Altogether,20 epi-or neotypes are proposed for recently commonly used older names.Our study doubles the number of reliable DNA-barcodes of species of C.subgenus Telamonia in the public sequence data-bases.This is also the first extensive phylogenetic study of the subgenus.A majority of the sections and species are shown in a phylogenetic context for the first time.Our study shows that nomenclatural problems,even in difficult groups like C.subgenus Telamonia,can be solved and consequently identification of species based on ITS barcodes becomes an easy task even for non-experts of the genus.

关 键 词：ITS Type study BARCODE NEOTYPE Phylogeny Section 

分 类 号：Q94[生物学—植物学]