Novel soil-inhabiting clades fill gaps in the fungal tree of life

Novel soil-inhabiting clades fill gaps in the fungal tree of life

Abstract Background Fungi are a diverse eukaryotic group of degraders, pathogens, and symbionts, with many lineages known only from DNA sequences in soil, sediments, air, and water. Results We provide rough phylogenetic placement and principal niche analysis for >40 previously unrecognized fungal...

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Bibliographic Details
Main Authors: Leho Tedersoo, Mohammad Bahram, Rasmus Puusepp, R. Henrik Nilsson, Timothy Y. James
Format: Article
Language:English
Published: BMC 2017-04-01
Series:Microbiome
Subjects:
Phylogenetic lineages
Kingdom Fungi
Niche modelling
Random forest
Biogeography
Online Access:http://link.springer.com/article/10.1186/s40168-017-0259-5
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spelling doaj-c33d159d3aca43b2a866fb12969e6a6c2020-11-24T23:58:13ZengBMCMicrobiome2049-26182017-04-015111010.1186/s40168-017-0259-5Novel soil-inhabiting clades fill gaps in the fungal tree of lifeLeho Tedersoo0Mohammad Bahram1Rasmus Puusepp2R. Henrik Nilsson3Timothy Y. James4Natural History Museum, University of TartuInstitute of Ecology and Earth Sciences, University of TartuInstitute of Ecology and Earth Sciences, University of TartuDepartment of Biological and Environmental Sciences, University of GothenburgDepartment of Ecology and Evolutionary Biology, University of MichiganAbstract Background Fungi are a diverse eukaryotic group of degraders, pathogens, and symbionts, with many lineages known only from DNA sequences in soil, sediments, air, and water. Results We provide rough phylogenetic placement and principal niche analysis for >40 previously unrecognized fungal groups at the order and class level from global soil samples based on combined 18S (nSSU) and 28S (nLSU) rRNA gene sequences. Especially, Rozellomycota (Cryptomycota), Zygomycota s.lat, Ascomycota, and Basidiomycota are rich in novel fungal lineages, most of which exhibit distinct preferences for climate and soil pH. Conclusions This study uncovers the great phylogenetic richness of previously unrecognized order- to phylum-level fungal lineages. Most of these rare groups are distributed in different ecosystems of the world but exhibit distinct ecological preferences for climate or soil pH. Across the fungal kingdom, tropical and non-tropical habitats are equally likely to harbor novel groups. We advocate that a combination of traditional and high-throughput sequencing methods enable efficient recovery and phylogenetic placement of such unknown taxonomic groups.http://link.springer.com/article/10.1186/s40168-017-0259-5Phylogenetic lineagesKingdom FungiNiche modellingRandom forestBiogeography
collection DOAJ
language English
format Article
sources DOAJ
author Leho Tedersoo
Mohammad Bahram
Rasmus Puusepp
R. Henrik Nilsson
Timothy Y. James
spellingShingle Leho Tedersoo
Mohammad Bahram
Rasmus Puusepp
R. Henrik Nilsson
Timothy Y. James
Novel soil-inhabiting clades fill gaps in the fungal tree of life
Microbiome
Phylogenetic lineages
Kingdom Fungi
Niche modelling
Random forest
Biogeography
author_facet Leho Tedersoo
Mohammad Bahram
Rasmus Puusepp
R. Henrik Nilsson
Timothy Y. James
author_sort Leho Tedersoo
title Novel soil-inhabiting clades fill gaps in the fungal tree of life
title_short Novel soil-inhabiting clades fill gaps in the fungal tree of life
title_full Novel soil-inhabiting clades fill gaps in the fungal tree of life
title_fullStr Novel soil-inhabiting clades fill gaps in the fungal tree of life
title_full_unstemmed Novel soil-inhabiting clades fill gaps in the fungal tree of life
title_sort novel soil-inhabiting clades fill gaps in the fungal tree of life
publisher BMC
series Microbiome
issn 2049-2618
publishDate 2017-04-01
description Abstract Background Fungi are a diverse eukaryotic group of degraders, pathogens, and symbionts, with many lineages known only from DNA sequences in soil, sediments, air, and water. Results We provide rough phylogenetic placement and principal niche analysis for >40 previously unrecognized fungal groups at the order and class level from global soil samples based on combined 18S (nSSU) and 28S (nLSU) rRNA gene sequences. Especially, Rozellomycota (Cryptomycota), Zygomycota s.lat, Ascomycota, and Basidiomycota are rich in novel fungal lineages, most of which exhibit distinct preferences for climate and soil pH. Conclusions This study uncovers the great phylogenetic richness of previously unrecognized order- to phylum-level fungal lineages. Most of these rare groups are distributed in different ecosystems of the world but exhibit distinct ecological preferences for climate or soil pH. Across the fungal kingdom, tropical and non-tropical habitats are equally likely to harbor novel groups. We advocate that a combination of traditional and high-throughput sequencing methods enable efficient recovery and phylogenetic placement of such unknown taxonomic groups.
topic Phylogenetic lineages
Kingdom Fungi
Niche modelling
Random forest
Biogeography
url http://link.springer.com/article/10.1186/s40168-017-0259-5
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AT rasmuspuusepp novelsoilinhabitingcladesfillgapsinthefungaltreeoflife
AT rhenriknilsson novelsoilinhabitingcladesfillgapsinthefungaltreeoflife
AT timothyyjames novelsoilinhabitingcladesfillgapsinthefungaltreeoflife
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