@ARTICLE{TreeBASE2Ref21968,
author = {Kate M Halpin and Mark Fishbein},
title = {A Chloroplast Phylogeny of Agavaceae subfamily Chlorogaloideae: Implications for the Tempo of Evolution on Serpentine Soils},
year = {2013},
keywords = {Bimodal karyotype, Camassia, Chlorogalum, edaphic endemism, Hastingsia, Hesperocallis, Schoenolirion.},
doi = {},
url = {http://},
pmid = {},
journal = {Systematic Botany},
volume = {},
number = {},
pages = {},
abstract = {Agavaceae subfamily Chlorogaloideae is composed of the North American genera Camassia, Chlorogalum, Hastingsia, and Schoenolirion, with many species occupying serpentine soils or other poor soils with unusual chemistries. The monophyly and intergeneric relationships of this group have not been rigorously assessed. We estimated the phylogeny of Chlorogaloideae using four chloroplast DNA regions: rpl16 intron and trnD?trnY?trnE?trnT, psbJ?petA, and trnS?trnfM spacers, with the goals of evaluating 1) the monophyly of Chlorogaloideae, 2) the monophyly of each genus and generic interrelationships, 3) the placement of Chlorogaloideae in Agavaceae, and 4) the history of adaptation onto serpentine soils. Maximum parsimony, maximum likelihood, and Bayesian analyses provided concordant estimates of the phylogeny supporting the monophyly of a clade consisting of Camassia, Chlorogalum, and Hastingsia, but suggest that Schoenolirion may be more closely related to Hesperoyucca and Hesperaloe. Each genus of Chlorogaloideae was found to be monophyletic except Chlorogalum, with C. parviflorum and C. purpureum forming a paraphyletic grade to other Chlorogalum, Camassia, and Hastingia. Ancestral character reconstructions employing parsimony, likelihood, and stochastic mapping suggest that serpentine tolerance evolved multiple times in Chlorogaloideae. We discuss the significance of the estimated phylogeny for the evolution of the distinctive bimodal karyotype of Agavaceae.}
}
Citation for Study 13668
Citation title:
"A Chloroplast Phylogeny of Agavaceae subfamily Chlorogaloideae: Implications for the Tempo of Evolution on Serpentine Soils".
Study name:
"A Chloroplast Phylogeny of Agavaceae subfamily Chlorogaloideae: Implications for the Tempo of Evolution on Serpentine Soils".
This study is part of submission 13668
(Status: Published).
Citation
Halpin K.M., & Fishbein M. 2013. A Chloroplast Phylogeny of Agavaceae subfamily Chlorogaloideae: Implications for the Tempo of Evolution on Serpentine Soils. Systematic Botany, .
Authors
-
Halpin K.M.
(submitter)
9079520921
-
Fishbein M.
405-744-4757
Abstract
Agavaceae subfamily Chlorogaloideae is composed of the North American genera Camassia, Chlorogalum, Hastingsia, and Schoenolirion, with many species occupying serpentine soils or other poor soils with unusual chemistries. The monophyly and intergeneric relationships of this group have not been rigorously assessed. We estimated the phylogeny of Chlorogaloideae using four chloroplast DNA regions: rpl16 intron and trnD?trnY?trnE?trnT, psbJ?petA, and trnS?trnfM spacers, with the goals of evaluating 1) the monophyly of Chlorogaloideae, 2) the monophyly of each genus and generic interrelationships, 3) the placement of Chlorogaloideae in Agavaceae, and 4) the history of adaptation onto serpentine soils. Maximum parsimony, maximum likelihood, and Bayesian analyses provided concordant estimates of the phylogeny supporting the monophyly of a clade consisting of Camassia, Chlorogalum, and Hastingsia, but suggest that Schoenolirion may be more closely related to Hesperoyucca and Hesperaloe. Each genus of Chlorogaloideae was found to be monophyletic except Chlorogalum, with C. parviflorum and C. purpureum forming a paraphyletic grade to other Chlorogalum, Camassia, and Hastingia. Ancestral character reconstructions employing parsimony, likelihood, and stochastic mapping suggest that serpentine tolerance evolved multiple times in Chlorogaloideae. We discuss the significance of the estimated phylogeny for the evolution of the distinctive bimodal karyotype of Agavaceae.
Keywords
Bimodal karyotype, Camassia, Chlorogalum, edaphic endemism, Hastingsia, Hesperocallis, Schoenolirion.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S13668
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref21968,
author = {Kate M Halpin and Mark Fishbein},
title = {A Chloroplast Phylogeny of Agavaceae subfamily Chlorogaloideae: Implications for the Tempo of Evolution on Serpentine Soils},
year = {2013},
keywords = {Bimodal karyotype, Camassia, Chlorogalum, edaphic endemism, Hastingsia, Hesperocallis, Schoenolirion.},
doi = {},
url = {http://},
pmid = {},
journal = {Systematic Botany},
volume = {},
number = {},
pages = {},
abstract = {Agavaceae subfamily Chlorogaloideae is composed of the North American genera Camassia, Chlorogalum, Hastingsia, and Schoenolirion, with many species occupying serpentine soils or other poor soils with unusual chemistries. The monophyly and intergeneric relationships of this group have not been rigorously assessed. We estimated the phylogeny of Chlorogaloideae using four chloroplast DNA regions: rpl16 intron and trnD?trnY?trnE?trnT, psbJ?petA, and trnS?trnfM spacers, with the goals of evaluating 1) the monophyly of Chlorogaloideae, 2) the monophyly of each genus and generic interrelationships, 3) the placement of Chlorogaloideae in Agavaceae, and 4) the history of adaptation onto serpentine soils. Maximum parsimony, maximum likelihood, and Bayesian analyses provided concordant estimates of the phylogeny supporting the monophyly of a clade consisting of Camassia, Chlorogalum, and Hastingsia, but suggest that Schoenolirion may be more closely related to Hesperoyucca and Hesperaloe. Each genus of Chlorogaloideae was found to be monophyletic except Chlorogalum, with C. parviflorum and C. purpureum forming a paraphyletic grade to other Chlorogalum, Camassia, and Hastingia. Ancestral character reconstructions employing parsimony, likelihood, and stochastic mapping suggest that serpentine tolerance evolved multiple times in Chlorogaloideae. We discuss the significance of the estimated phylogeny for the evolution of the distinctive bimodal karyotype of Agavaceae.}
}
- Show RIS reference
TY - JOUR
ID - 21968
AU - Halpin,Kate M
AU - Fishbein,Mark
T1 - A Chloroplast Phylogeny of Agavaceae subfamily Chlorogaloideae: Implications for the Tempo of Evolution on Serpentine Soils
PY - 2013
KW - Bimodal karyotype
KW - Camassia
KW - Chlorogalum
KW - edaphic endemism
KW - Hastingsia
KW - Hesperocallis
KW - Schoenolirion.
UR - http://dx.doi.org/
N2 - Agavaceae subfamily Chlorogaloideae is composed of the North American genera Camassia, Chlorogalum, Hastingsia, and Schoenolirion, with many species occupying serpentine soils or other poor soils with unusual chemistries. The monophyly and intergeneric relationships of this group have not been rigorously assessed. We estimated the phylogeny of Chlorogaloideae using four chloroplast DNA regions: rpl16 intron and trnD?trnY?trnE?trnT, psbJ?petA, and trnS?trnfM spacers, with the goals of evaluating 1) the monophyly of Chlorogaloideae, 2) the monophyly of each genus and generic interrelationships, 3) the placement of Chlorogaloideae in Agavaceae, and 4) the history of adaptation onto serpentine soils. Maximum parsimony, maximum likelihood, and Bayesian analyses provided concordant estimates of the phylogeny supporting the monophyly of a clade consisting of Camassia, Chlorogalum, and Hastingsia, but suggest that Schoenolirion may be more closely related to Hesperoyucca and Hesperaloe. Each genus of Chlorogaloideae was found to be monophyletic except Chlorogalum, with C. parviflorum and C. purpureum forming a paraphyletic grade to other Chlorogalum, Camassia, and Hastingia. Ancestral character reconstructions employing parsimony, likelihood, and stochastic mapping suggest that serpentine tolerance evolved multiple times in Chlorogaloideae. We discuss the significance of the estimated phylogeny for the evolution of the distinctive bimodal karyotype of Agavaceae.
L3 -
JF - Systematic Botany
VL -
IS -
ER -