Tracking the evolutionary history of Cortinariusspecies in section Calochroi, with transoceanic disjunct distributions

Abstract Background Cortinarius species in section Calochroi display local, clinal and circumboreal patterns of distribution across the Northern Hemisphere where these ectomycorrhizal fungi occur with host trees throughout their geographical range within a continent, or have disjunct intercontinenta...

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Main Authors: Garnica, Sigisfredo, Spahn, Philipp, Oertel, Bernhard, Ammirati, Joseph, Oberwinkler, Franz
Format: Article in Journal/Newspaper
Language:English
Published: BioMed Central Ltd. 2011
Subjects:
Bering Land Bridge
Online Access:http://www.biomedcentral.com/1471-2148/11/213
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spelling ftbiomed:oai:biomedcentral.com:1471-2148-11-213 2023-05-15T15:42:42+02:00 Tracking the evolutionary history of Cortinariusspecies in section Calochroi, with transoceanic disjunct distributions Garnica, Sigisfredo Spahn, Philipp Oertel, Bernhard Ammirati, Joseph Oberwinkler, Franz 2011-07-19 http://www.biomedcentral.com/1471-2148/11/213 en eng BioMed Central Ltd. http://www.biomedcentral.com/1471-2148/11/213 Copyright 2011 Garnica et al; licensee BioMed Central Ltd. Research article 2011 ftbiomed 2011-08-27T23:41:02Z Abstract Background Cortinarius species in section Calochroi display local, clinal and circumboreal patterns of distribution across the Northern Hemisphere where these ectomycorrhizal fungi occur with host trees throughout their geographical range within a continent, or have disjunct intercontinental distributions, the origins of which are not understood. We inferred evolutionary histories of four species, 1) C . arcuatorum , 2) C. aureofulvus , 3) C . elegantior and 4) C. napus , from populations distributed throughout the Old World, and portions of the New World (Central- and North America) based on genetic variation of 154 haplotype internal transcribed spacer (ITS) sequences from 83 population samples. By describing the population structure of these species across their geographical distribution, we attempt to identify their historical migration and patterns of diversification. Results Models of population structure from nested clade, demographic and coalescent-based analyses revealed genetically differentiated and geographically structured haplotypes in C . arcuatorum and C . elegantior , while C . aureofulvus showed considerably less population structure and C. napus lacked sufficient genetic differentiation to resolve any population structure. Disjunct populations within C . arcuatorum, C. aureofulvus and C . elegantior show little or no morphological differentiation, whereas in C. napus there is a high level of homoplasy and phenotypic plasticity for veil and lamellae colour. The ITS sequences of the type specimens of C. albobrunnoides and C. albobrunnoides var. violaceovelatus were identical to one another and are treated as one species with a wider range of geographic distribution under C. napus . Conclusions Our results indicate that each of the Calochroi species has undergone a relatively independent evolutionary history, hypothesised as follows: 1) a widely distributed ancestral population of C . arcuatorum diverged into distinctive sympatric populations in the New World; 2) two divergent lineages in C . elegantior gave rise to the New World and Old World haplotypes, respectively; and 3) the low levels of genetic divergence within C . aureofulvus and C . napus may be the result of more recent demographic population expansions. The scenario of migration via the Bering Land Bridge provides the most probable explanation for contemporaneous disjunct geographic distributions of these species, but it does not offer an explanation for the low degree of genetic divergence between populations of C. aureofulvus and C. napus . Our findings are mostly consistent with the designation of New World allopatric populations as separate species from the European counterpart species C. arcuatorum and C. elegantior . We propose the synonymy of C. albobrunnoides , C. albobrunnoides var. violaceovelatus and C. subpurpureophyllus var. sulphureovelatus with C. napus . The results also reinforce previous . Article in Journal/Newspaper Bering Land Bridge BioMed Central
institution Open Polar
collection BioMed Central
op_collection_id ftbiomed
language English
description Abstract Background Cortinarius species in section Calochroi display local, clinal and circumboreal patterns of distribution across the Northern Hemisphere where these ectomycorrhizal fungi occur with host trees throughout their geographical range within a continent, or have disjunct intercontinental distributions, the origins of which are not understood. We inferred evolutionary histories of four species, 1) C . arcuatorum , 2) C. aureofulvus , 3) C . elegantior and 4) C. napus , from populations distributed throughout the Old World, and portions of the New World (Central- and North America) based on genetic variation of 154 haplotype internal transcribed spacer (ITS) sequences from 83 population samples. By describing the population structure of these species across their geographical distribution, we attempt to identify their historical migration and patterns of diversification. Results Models of population structure from nested clade, demographic and coalescent-based analyses revealed genetically differentiated and geographically structured haplotypes in C . arcuatorum and C . elegantior , while C . aureofulvus showed considerably less population structure and C. napus lacked sufficient genetic differentiation to resolve any population structure. Disjunct populations within C . arcuatorum, C. aureofulvus and C . elegantior show little or no morphological differentiation, whereas in C. napus there is a high level of homoplasy and phenotypic plasticity for veil and lamellae colour. The ITS sequences of the type specimens of C. albobrunnoides and C. albobrunnoides var. violaceovelatus were identical to one another and are treated as one species with a wider range of geographic distribution under C. napus . Conclusions Our results indicate that each of the Calochroi species has undergone a relatively independent evolutionary history, hypothesised as follows: 1) a widely distributed ancestral population of C . arcuatorum diverged into distinctive sympatric populations in the New World; 2) two divergent lineages in C . elegantior gave rise to the New World and Old World haplotypes, respectively; and 3) the low levels of genetic divergence within C . aureofulvus and C . napus may be the result of more recent demographic population expansions. The scenario of migration via the Bering Land Bridge provides the most probable explanation for contemporaneous disjunct geographic distributions of these species, but it does not offer an explanation for the low degree of genetic divergence between populations of C. aureofulvus and C. napus . Our findings are mostly consistent with the designation of New World allopatric populations as separate species from the European counterpart species C. arcuatorum and C. elegantior . We propose the synonymy of C. albobrunnoides , C. albobrunnoides var. violaceovelatus and C. subpurpureophyllus var. sulphureovelatus with C. napus . The results also reinforce previous .
format Article in Journal/Newspaper
author Garnica, Sigisfredo
Spahn, Philipp
Oertel, Bernhard
Ammirati, Joseph
Oberwinkler, Franz
spellingShingle Garnica, Sigisfredo
Spahn, Philipp
Oertel, Bernhard
Ammirati, Joseph
Oberwinkler, Franz
Tracking the evolutionary history of Cortinariusspecies in section Calochroi, with transoceanic disjunct distributions
author_facet Garnica, Sigisfredo
Spahn, Philipp
Oertel, Bernhard
Ammirati, Joseph
Oberwinkler, Franz
author_sort Garnica, Sigisfredo
title Tracking the evolutionary history of Cortinariusspecies in section Calochroi, with transoceanic disjunct distributions
title_short Tracking the evolutionary history of Cortinariusspecies in section Calochroi, with transoceanic disjunct distributions
title_full Tracking the evolutionary history of Cortinariusspecies in section Calochroi, with transoceanic disjunct distributions
title_fullStr Tracking the evolutionary history of Cortinariusspecies in section Calochroi, with transoceanic disjunct distributions
title_full_unstemmed Tracking the evolutionary history of Cortinariusspecies in section Calochroi, with transoceanic disjunct distributions
title_sort tracking the evolutionary history of cortinariusspecies in section calochroi, with transoceanic disjunct distributions
publisher BioMed Central Ltd.
publishDate 2011
url http://www.biomedcentral.com/1471-2148/11/213
genre Bering Land Bridge
genre_facet Bering Land Bridge
op_relation http://www.biomedcentral.com/1471-2148/11/213
op_rights Copyright 2011 Garnica et al; licensee BioMed Central Ltd.
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