@ARTICLE{TreeBASE2Ref16690,
author = {Steven L Miller and Terry M. McClean and John F. Walker and Bart Buyck},
title = {A molecular phylogeny of the Russulales including agaricoid, gasteroid and pleurotoid taxa.},
year = {2001},
keywords = {Basidiomycetes; large subunit rDNA; Russuloid lineage},
doi = {},
url = {http://www.jstor.org/stable/3761656},
pmid = {},
journal = {Mycologia},
volume = {93},
number = {2},
pages = {344--354},
abstract = {The Russulales consists of agaricoid, gasteroid and hypogeous gasteroid taxa of basidiomycetes closely related to Russula and Lactarius. Because there have been no molecular phylogenetic studies of the Russulales, attempts at formulating a natural classification for these taxa have met with difficulty. In this study, nuclear large subunit rDNA (n-LSU) was used to infer phylogenetic relationships among members of the Russulales including agaricoid, tropical pleurotoid and annulate taxa, and gasteroid and hypogeous gasteroid genera. Analysis of the n-LSU region indicated that Russula sensu strictu (excluding gasteroid and hypogeous gasteroid taxa) can be considered polyphyletic with two well supported groups, one group arising separately from the main body of the tree and one group basal to Lactarius. Russula sensu lato can be considered paraphyletic with gasteroid and hypogeous gasteroid forms nested in the same clades alongside agaricoid taxa. Lactarius sensu lato was found to be a monophyletic group that includes agaricoid, gasteroid and hypogeous gasteroid taxa. Gasteroid and hypogeous gasteroid genera were scattered throughout the order, with Macowanites, Gymnomyces, Cystangium and Martellia nested within Russula, while Zelleromyces and Arcangeliella grouped within Lactarius. Most of the gasteroid and hypogeous gasteroid genera appear to be polyphyletic and their position was supported within established infrageneric taxa of Russula and Lactarius. These results suggested that synonomy of gasteroid genera into Russula and Lactarius is justifiable.}
}
Citation for Study 937
Citation title:
"A molecular phylogeny of the Russulales including agaricoid, gasteroid and pleurotoid taxa.".
This study was previously identified under the legacy study ID S816
(Status: Published).
Citation
Miller S., Mcclean T., Walker J., & Buyck B. 2001. A molecular phylogeny of the Russulales including agaricoid, gasteroid and pleurotoid taxa. Mycologia, 93(2): 344-354.
Authors
-
Miller S.
-
Mcclean T.
-
Walker J.
-
Buyck B.
Abstract
The Russulales consists of agaricoid, gasteroid and hypogeous gasteroid taxa of basidiomycetes closely related to Russula and Lactarius. Because there have been no molecular phylogenetic studies of the Russulales, attempts at formulating a natural classification for these taxa have met with difficulty. In this study, nuclear large subunit rDNA (n-LSU) was used to infer phylogenetic relationships among members of the Russulales including agaricoid, tropical pleurotoid and annulate taxa, and gasteroid and hypogeous gasteroid genera. Analysis of the n-LSU region indicated that Russula sensu strictu (excluding gasteroid and hypogeous gasteroid taxa) can be considered polyphyletic with two well supported groups, one group arising separately from the main body of the tree and one group basal to Lactarius. Russula sensu lato can be considered paraphyletic with gasteroid and hypogeous gasteroid forms nested in the same clades alongside agaricoid taxa. Lactarius sensu lato was found to be a monophyletic group that includes agaricoid, gasteroid and hypogeous gasteroid taxa. Gasteroid and hypogeous gasteroid genera were scattered throughout the order, with Macowanites, Gymnomyces, Cystangium and Martellia nested within Russula, while Zelleromyces and Arcangeliella grouped within Lactarius. Most of the gasteroid and hypogeous gasteroid genera appear to be polyphyletic and their position was supported within established infrageneric taxa of Russula and Lactarius. These results suggested that synonomy of gasteroid genera into Russula and Lactarius is justifiable.
Keywords
Basidiomycetes; large subunit rDNA; Russuloid lineage
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S937
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@ARTICLE{TreeBASE2Ref16690,
author = {Steven L Miller and Terry M. McClean and John F. Walker and Bart Buyck},
title = {A molecular phylogeny of the Russulales including agaricoid, gasteroid and pleurotoid taxa.},
year = {2001},
keywords = {Basidiomycetes; large subunit rDNA; Russuloid lineage},
doi = {},
url = {http://www.jstor.org/stable/3761656},
pmid = {},
journal = {Mycologia},
volume = {93},
number = {2},
pages = {344--354},
abstract = {The Russulales consists of agaricoid, gasteroid and hypogeous gasteroid taxa of basidiomycetes closely related to Russula and Lactarius. Because there have been no molecular phylogenetic studies of the Russulales, attempts at formulating a natural classification for these taxa have met with difficulty. In this study, nuclear large subunit rDNA (n-LSU) was used to infer phylogenetic relationships among members of the Russulales including agaricoid, tropical pleurotoid and annulate taxa, and gasteroid and hypogeous gasteroid genera. Analysis of the n-LSU region indicated that Russula sensu strictu (excluding gasteroid and hypogeous gasteroid taxa) can be considered polyphyletic with two well supported groups, one group arising separately from the main body of the tree and one group basal to Lactarius. Russula sensu lato can be considered paraphyletic with gasteroid and hypogeous gasteroid forms nested in the same clades alongside agaricoid taxa. Lactarius sensu lato was found to be a monophyletic group that includes agaricoid, gasteroid and hypogeous gasteroid taxa. Gasteroid and hypogeous gasteroid genera were scattered throughout the order, with Macowanites, Gymnomyces, Cystangium and Martellia nested within Russula, while Zelleromyces and Arcangeliella grouped within Lactarius. Most of the gasteroid and hypogeous gasteroid genera appear to be polyphyletic and their position was supported within established infrageneric taxa of Russula and Lactarius. These results suggested that synonomy of gasteroid genera into Russula and Lactarius is justifiable.}
}
- Show RIS reference
TY - JOUR
ID - 16690
AU - Miller,Steven L
AU - McClean,Terry M.
AU - Walker,John F.
AU - Buyck,Bart
T1 - A molecular phylogeny of the Russulales including agaricoid, gasteroid and pleurotoid taxa.
PY - 2001
KW - Basidiomycetes; large subunit rDNA; Russuloid lineage
UR - http://www.jstor.org/stable/3761656
N2 - The Russulales consists of agaricoid, gasteroid and hypogeous gasteroid taxa of basidiomycetes closely related to Russula and Lactarius. Because there have been no molecular phylogenetic studies of the Russulales, attempts at formulating a natural classification for these taxa have met with difficulty. In this study, nuclear large subunit rDNA (n-LSU) was used to infer phylogenetic relationships among members of the Russulales including agaricoid, tropical pleurotoid and annulate taxa, and gasteroid and hypogeous gasteroid genera. Analysis of the n-LSU region indicated that Russula sensu strictu (excluding gasteroid and hypogeous gasteroid taxa) can be considered polyphyletic with two well supported groups, one group arising separately from the main body of the tree and one group basal to Lactarius. Russula sensu lato can be considered paraphyletic with gasteroid and hypogeous gasteroid forms nested in the same clades alongside agaricoid taxa. Lactarius sensu lato was found to be a monophyletic group that includes agaricoid, gasteroid and hypogeous gasteroid taxa. Gasteroid and hypogeous gasteroid genera were scattered throughout the order, with Macowanites, Gymnomyces, Cystangium and Martellia nested within Russula, while Zelleromyces and Arcangeliella grouped within Lactarius. Most of the gasteroid and hypogeous gasteroid genera appear to be polyphyletic and their position was supported within established infrageneric taxa of Russula and Lactarius. These results suggested that synonomy of gasteroid genera into Russula and Lactarius is justifiable.
L3 -
JF - Mycologia
VL - 93
IS - 2
SP - 344
EP - 354
ER -