@ARTICLE{TreeBASE2Ref18634,
author = {Soili Stenroos and Tomi Laukka and Seppo Huhtinen and Peter D?bbeler and Leena Myllys and Kimmo Syrj?nen and Jaakko Hyv?nen},
title = {Multiple origins of symbioses between ascomycetes and bryophytes suggested by a five-gene phylogeny},
year = {2009},
keywords = {},
doi = {10.1111/j.1096-0031.2009.00299.x},
url = {},
pmid = {},
journal = {Cladistics},
volume = {25},
number = {},
pages = {1--15},
abstract = {Numerous species of microscopic fungi inhabit mosses and hepatics. They are severely overlooked and their identity and nutritional strategies are mostly unknown. Most of these bryosymbiotic fungi belong to the Ascomycota. Their fruit-bodies are extremely small, often reduced and simply structured, which is why they cannot be reliably identified and classified by their morphological and anatomical characters. A phylogenetic hypothesis of bryosymbiotic ascomycetes is presented. New sequences of 78 samples, including 61 bryosymbionts, were produced, the total amount of terminals being 206. Of these, 202 are Ascomycetes. Sequences from the following five gene loci were used: rDNA SSU, rDNA LSU, RPB2, mitochondrial rDNA SSU, and rDNA 5.8S. The program TNT was used for tree search and support value estimation. We show that bryosymbiotic fungi occur in numerous lineages, one of which represents a newly discovered lineage among the Ascomycota and exhibits a tripartite association with cyanobacteria and sphagna. A new genus Trizodia is proposed for this basal clade. Our results demonstrate that even highly specialized life strategies can be adopted multiple times during evolution, and that in many cases bryosymbionts appear to have evolved from saprobic ancestors.}
}
Citation for Study 10143
Citation title:
"Multiple origins of symbioses between ascomycetes and bryophytes suggested by a five-gene phylogeny".
This study was previously identified under the legacy study ID S2486
(Status: Published).
Citation
Stenroos S., Laukka T., Huhtinen S., D?bbeler P., Myllys L., Syrj?nen K., & Hyv?nen J. 2009. Multiple origins of symbioses between ascomycetes and bryophytes suggested by a five-gene phylogeny. Cladistics, 25: 1-15.
Authors
-
Stenroos S.
-
Laukka T.
-
Huhtinen S.
-
D?bbeler P.
-
Myllys L.
-
Syrj?nen K.
-
Hyv?nen J.
Abstract
Numerous species of microscopic fungi inhabit mosses and hepatics. They are severely overlooked and their identity and nutritional strategies are mostly unknown. Most of these bryosymbiotic fungi belong to the Ascomycota. Their fruit-bodies are extremely small, often reduced and simply structured, which is why they cannot be reliably identified and classified by their morphological and anatomical characters. A phylogenetic hypothesis of bryosymbiotic ascomycetes is presented. New sequences of 78 samples, including 61 bryosymbionts, were produced, the total amount of terminals being 206. Of these, 202 are Ascomycetes. Sequences from the following five gene loci were used: rDNA SSU, rDNA LSU, RPB2, mitochondrial rDNA SSU, and rDNA 5.8S. The program TNT was used for tree search and support value estimation. We show that bryosymbiotic fungi occur in numerous lineages, one of which represents a newly discovered lineage among the Ascomycota and exhibits a tripartite association with cyanobacteria and sphagna. A new genus Trizodia is proposed for this basal clade. Our results demonstrate that even highly specialized life strategies can be adopted multiple times during evolution, and that in many cases bryosymbionts appear to have evolved from saprobic ancestors.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S10143
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref18634,
author = {Soili Stenroos and Tomi Laukka and Seppo Huhtinen and Peter D?bbeler and Leena Myllys and Kimmo Syrj?nen and Jaakko Hyv?nen},
title = {Multiple origins of symbioses between ascomycetes and bryophytes suggested by a five-gene phylogeny},
year = {2009},
keywords = {},
doi = {10.1111/j.1096-0031.2009.00299.x},
url = {},
pmid = {},
journal = {Cladistics},
volume = {25},
number = {},
pages = {1--15},
abstract = {Numerous species of microscopic fungi inhabit mosses and hepatics. They are severely overlooked and their identity and nutritional strategies are mostly unknown. Most of these bryosymbiotic fungi belong to the Ascomycota. Their fruit-bodies are extremely small, often reduced and simply structured, which is why they cannot be reliably identified and classified by their morphological and anatomical characters. A phylogenetic hypothesis of bryosymbiotic ascomycetes is presented. New sequences of 78 samples, including 61 bryosymbionts, were produced, the total amount of terminals being 206. Of these, 202 are Ascomycetes. Sequences from the following five gene loci were used: rDNA SSU, rDNA LSU, RPB2, mitochondrial rDNA SSU, and rDNA 5.8S. The program TNT was used for tree search and support value estimation. We show that bryosymbiotic fungi occur in numerous lineages, one of which represents a newly discovered lineage among the Ascomycota and exhibits a tripartite association with cyanobacteria and sphagna. A new genus Trizodia is proposed for this basal clade. Our results demonstrate that even highly specialized life strategies can be adopted multiple times during evolution, and that in many cases bryosymbionts appear to have evolved from saprobic ancestors.}
}
- Show RIS reference
TY - JOUR
ID - 18634
AU - Stenroos,Soili
AU - Laukka,Tomi
AU - Huhtinen,Seppo
AU - D?bbeler,Peter
AU - Myllys,Leena
AU - Syrj?nen,Kimmo
AU - Hyv?nen,Jaakko
T1 - Multiple origins of symbioses between ascomycetes and bryophytes suggested by a five-gene phylogeny
PY - 2009
UR - http://dx.doi.org/10.1111/j.1096-0031.2009.00299.x
N2 - Numerous species of microscopic fungi inhabit mosses and hepatics. They are severely overlooked and their identity and nutritional strategies are mostly unknown. Most of these bryosymbiotic fungi belong to the Ascomycota. Their fruit-bodies are extremely small, often reduced and simply structured, which is why they cannot be reliably identified and classified by their morphological and anatomical characters. A phylogenetic hypothesis of bryosymbiotic ascomycetes is presented. New sequences of 78 samples, including 61 bryosymbionts, were produced, the total amount of terminals being 206. Of these, 202 are Ascomycetes. Sequences from the following five gene loci were used: rDNA SSU, rDNA LSU, RPB2, mitochondrial rDNA SSU, and rDNA 5.8S. The program TNT was used for tree search and support value estimation. We show that bryosymbiotic fungi occur in numerous lineages, one of which represents a newly discovered lineage among the Ascomycota and exhibits a tripartite association with cyanobacteria and sphagna. A new genus Trizodia is proposed for this basal clade. Our results demonstrate that even highly specialized life strategies can be adopted multiple times during evolution, and that in many cases bryosymbionts appear to have evolved from saprobic ancestors.
L3 - 10.1111/j.1096-0031.2009.00299.x
JF - Cladistics
VL - 25
IS -
SP - 1
EP - 15
ER -