@ARTICLE{TreeBASE2Ref18495,
author = {Amanda E. Fisher and J. K. Triplett and C. S. Ho and Alicia D. Schiller and Kimberly A. Oltrogge and Eric S. Schroder and Scot A. Kelchner and L. G. Clark},
title = {Paraphyly in the bamboo subtribe Chusqueinae (Poaceae: Bambusoideae) and a revised infrageneric classification for Chusquea},
year = {2009},
keywords = {},
doi = {10.1600/036364409790139790},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {34},
number = {4},
pages = {673--683},
abstract = {A phylogenetic analysis of five coding and non-coding chloroplast loci, totaling 6.6 kilobases of aligned nucleotide and indel characters, suggests that the large neotropical bamboo genus Chusquea is embedded within the much smaller Andean genus Neurolepis. Monophyly of each taxon was anticipated due to the unique occurrence of dimorphic multiple buds in Chusquea and the lack of aerial branching in Neurolepis. We tested whether the unexpected placement of Chusquea might be the result of a biased analysis. Both Neurolepis and the outgroup taxa have long branches that could influence rooting and inferred ingroup relationships. A number of methods were employed to test for long-branch attraction and sampling effects in our topology. Alternative hypothesis testing using a conservative form of the Shimodaira-Hasegawa test indicated that paraphyly of Neurolepis is a significantly better explanation of the data than monophyly, even when models of character evolution are changed. Given the robustness of the topology, high support measures for clades on the tree, and the results of the Shimodaira-Hasegawa tests, we conclude that chloroplast genomes indicate probable paraphyly of Neurolepis with respect to Chusquea. The species of Neurolepis are therefore transferred to Chusquea, resulting in the following new combinations and names: Chusquea acuminatissima, C. angusta, C. asymmetrica, C. cylindrica, C. diversiglumis, C. elata, C. fimbriligulata, C. laegaardii, C. magnifolia, C. mollis, C. nana, C. nobilis, C. petiolata, C. rigida, C. silverstonei, C. spectabilis, C. steyermarkii, C. stuebelii, C. tovari and C. villosa. The names Neurolepis elata, N. stuebelii, N. weberbaueri, Planotia ingens, and P. tessellata are lectotypified.}
}
Citation for Study 10004
Citation title:
"Paraphyly in the bamboo subtribe Chusqueinae (Poaceae: Bambusoideae) and a revised infrageneric classification for Chusquea".
This study was previously identified under the legacy study ID S2340
(Status: Published).
Citation
Fisher A., Triplett J., Ho C., Schiller A., Oltrogge K., Schroder E., Kelchner S., & Clark L. 2009. Paraphyly in the bamboo subtribe Chusqueinae (Poaceae: Bambusoideae) and a revised infrageneric classification for Chusquea. Systematic Botany, 34(4): 673-683.
Authors
-
Fisher A.
-
Triplett J.
-
Ho C.
-
Schiller A.
-
Oltrogge K.
-
Schroder E.
-
Kelchner S.
-
Clark L.
Abstract
A phylogenetic analysis of five coding and non-coding chloroplast loci, totaling 6.6 kilobases of aligned nucleotide and indel characters, suggests that the large neotropical bamboo genus Chusquea is embedded within the much smaller Andean genus Neurolepis. Monophyly of each taxon was anticipated due to the unique occurrence of dimorphic multiple buds in Chusquea and the lack of aerial branching in Neurolepis. We tested whether the unexpected placement of Chusquea might be the result of a biased analysis. Both Neurolepis and the outgroup taxa have long branches that could influence rooting and inferred ingroup relationships. A number of methods were employed to test for long-branch attraction and sampling effects in our topology. Alternative hypothesis testing using a conservative form of the Shimodaira-Hasegawa test indicated that paraphyly of Neurolepis is a significantly better explanation of the data than monophyly, even when models of character evolution are changed. Given the robustness of the topology, high support measures for clades on the tree, and the results of the Shimodaira-Hasegawa tests, we conclude that chloroplast genomes indicate probable paraphyly of Neurolepis with respect to Chusquea. The species of Neurolepis are therefore transferred to Chusquea, resulting in the following new combinations and names: Chusquea acuminatissima, C. angusta, C. asymmetrica, C. cylindrica, C. diversiglumis, C. elata, C. fimbriligulata, C. laegaardii, C. magnifolia, C. mollis, C. nana, C. nobilis, C. petiolata, C. rigida, C. silverstonei, C. spectabilis, C. steyermarkii, C. stuebelii, C. tovari and C. villosa. The names Neurolepis elata, N. stuebelii, N. weberbaueri, Planotia ingens, and P. tessellata are lectotypified.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S10004
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref18495,
author = {Amanda E. Fisher and J. K. Triplett and C. S. Ho and Alicia D. Schiller and Kimberly A. Oltrogge and Eric S. Schroder and Scot A. Kelchner and L. G. Clark},
title = {Paraphyly in the bamboo subtribe Chusqueinae (Poaceae: Bambusoideae) and a revised infrageneric classification for Chusquea},
year = {2009},
keywords = {},
doi = {10.1600/036364409790139790},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {34},
number = {4},
pages = {673--683},
abstract = {A phylogenetic analysis of five coding and non-coding chloroplast loci, totaling 6.6 kilobases of aligned nucleotide and indel characters, suggests that the large neotropical bamboo genus Chusquea is embedded within the much smaller Andean genus Neurolepis. Monophyly of each taxon was anticipated due to the unique occurrence of dimorphic multiple buds in Chusquea and the lack of aerial branching in Neurolepis. We tested whether the unexpected placement of Chusquea might be the result of a biased analysis. Both Neurolepis and the outgroup taxa have long branches that could influence rooting and inferred ingroup relationships. A number of methods were employed to test for long-branch attraction and sampling effects in our topology. Alternative hypothesis testing using a conservative form of the Shimodaira-Hasegawa test indicated that paraphyly of Neurolepis is a significantly better explanation of the data than monophyly, even when models of character evolution are changed. Given the robustness of the topology, high support measures for clades on the tree, and the results of the Shimodaira-Hasegawa tests, we conclude that chloroplast genomes indicate probable paraphyly of Neurolepis with respect to Chusquea. The species of Neurolepis are therefore transferred to Chusquea, resulting in the following new combinations and names: Chusquea acuminatissima, C. angusta, C. asymmetrica, C. cylindrica, C. diversiglumis, C. elata, C. fimbriligulata, C. laegaardii, C. magnifolia, C. mollis, C. nana, C. nobilis, C. petiolata, C. rigida, C. silverstonei, C. spectabilis, C. steyermarkii, C. stuebelii, C. tovari and C. villosa. The names Neurolepis elata, N. stuebelii, N. weberbaueri, Planotia ingens, and P. tessellata are lectotypified.}
}
- Show RIS reference
TY - JOUR
ID - 18495
AU - Fisher,Amanda E.
AU - Triplett,J. K.
AU - Ho,C. S.
AU - Schiller,Alicia D.
AU - Oltrogge,Kimberly A.
AU - Schroder,Eric S.
AU - Kelchner,Scot A.
AU - Clark,L. G.
T1 - Paraphyly in the bamboo subtribe Chusqueinae (Poaceae: Bambusoideae) and a revised infrageneric classification for Chusquea
PY - 2009
KW -
UR - http://dx.doi.org/10.1600/036364409790139790
N2 - A phylogenetic analysis of five coding and non-coding chloroplast loci, totaling 6.6 kilobases of aligned nucleotide and indel characters, suggests that the large neotropical bamboo genus Chusquea is embedded within the much smaller Andean genus Neurolepis. Monophyly of each taxon was anticipated due to the unique occurrence of dimorphic multiple buds in Chusquea and the lack of aerial branching in Neurolepis. We tested whether the unexpected placement of Chusquea might be the result of a biased analysis. Both Neurolepis and the outgroup taxa have long branches that could influence rooting and inferred ingroup relationships. A number of methods were employed to test for long-branch attraction and sampling effects in our topology. Alternative hypothesis testing using a conservative form of the Shimodaira-Hasegawa test indicated that paraphyly of Neurolepis is a significantly better explanation of the data than monophyly, even when models of character evolution are changed. Given the robustness of the topology, high support measures for clades on the tree, and the results of the Shimodaira-Hasegawa tests, we conclude that chloroplast genomes indicate probable paraphyly of Neurolepis with respect to Chusquea. The species of Neurolepis are therefore transferred to Chusquea, resulting in the following new combinations and names: Chusquea acuminatissima, C. angusta, C. asymmetrica, C. cylindrica, C. diversiglumis, C. elata, C. fimbriligulata, C. laegaardii, C. magnifolia, C. mollis, C. nana, C. nobilis, C. petiolata, C. rigida, C. silverstonei, C. spectabilis, C. steyermarkii, C. stuebelii, C. tovari and C. villosa. The names Neurolepis elata, N. stuebelii, N. weberbaueri, Planotia ingens, and P. tessellata are lectotypified.
L3 - 10.1600/036364409790139790
JF - Systematic Botany
VL - 34
IS - 4
SP - 673
EP - 683
ER -