@ARTICLE{TreeBASE2Ref17268,
author = {Carl J. Rothfels and Michael D Windham and A. L. Grusz and Gerald J. Gastony and Kathleen M. Pryer},
title = {Toward a monophyletic Notholaena (Pteridaceae): Resolving patterns of evolutionary convergence in xeric-adapted ferns},
year = {2008},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Taxon},
volume = {57},
number = {3},
pages = {712--724},
abstract = {Cheilanthoid ferns (Pteridaceae) are a diverse and ecologically important clade, unusual among ferns for their ability to colonize and diversify within xeric habitats. These extreme habitats are thought to drive the extensive evolutionary convergence, and thus morphological homoplasy, that has long thwarted a natural classification of cheilanthoid ferns. Here we present the first multigene phylogeny to focus on taxa traditionally assigned to the large genus Notholaena. New World taxa (Notholaena sensu Tryon) are only distantly related to species occurring in the Old World (Notholaena sensu Pichi-Sermolli). The circumscription of Notholaena adopted in recent American floras is shown to be paraphyletic, with species usually assigned to Cheilanthes and Cheiloplecton nested within it. The position of Cheiloplecton is particularly surprisinggiven its well-developed false indusium and non-farinose blade, it is morphologically anomalous within the notholaenoids. In addition to clarifying natural relationships, the phylogenetic hypothesis presented here helps to resolve outstanding nomenclatural issues and provides a basis for examining character evolution within this diverse, desert-adapted clade.}
}
Citation for Study 2153
Citation title:
"Toward a monophyletic Notholaena (Pteridaceae): Resolving patterns of evolutionary convergence in xeric-adapted ferns".
This study was previously identified under the legacy study ID S1925
(Status: Published).
Citation
Rothfels C., Windham M., Grusz A., Gastony G., & Pryer K. 2008. Toward a monophyletic Notholaena (Pteridaceae): Resolving patterns of evolutionary convergence in xeric-adapted ferns. Taxon, 57(3): 712-724.
Authors
-
Rothfels C.
-
Windham M.
-
Grusz A.
-
Gastony G.
-
Pryer K.
Abstract
Cheilanthoid ferns (Pteridaceae) are a diverse and ecologically important clade, unusual among ferns for their ability to colonize and diversify within xeric habitats. These extreme habitats are thought to drive the extensive evolutionary convergence, and thus morphological homoplasy, that has long thwarted a natural classification of cheilanthoid ferns. Here we present the first multigene phylogeny to focus on taxa traditionally assigned to the large genus Notholaena. New World taxa (Notholaena sensu Tryon) are only distantly related to species occurring in the Old World (Notholaena sensu Pichi-Sermolli). The circumscription of Notholaena adopted in recent American floras is shown to be paraphyletic, with species usually assigned to Cheilanthes and Cheiloplecton nested within it. The position of Cheiloplecton is particularly surprisinggiven its well-developed false indusium and non-farinose blade, it is morphologically anomalous within the notholaenoids. In addition to clarifying natural relationships, the phylogenetic hypothesis presented here helps to resolve outstanding nomenclatural issues and provides a basis for examining character evolution within this diverse, desert-adapted clade.
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S2153
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Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref17268,
author = {Carl J. Rothfels and Michael D Windham and A. L. Grusz and Gerald J. Gastony and Kathleen M. Pryer},
title = {Toward a monophyletic Notholaena (Pteridaceae): Resolving patterns of evolutionary convergence in xeric-adapted ferns},
year = {2008},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Taxon},
volume = {57},
number = {3},
pages = {712--724},
abstract = {Cheilanthoid ferns (Pteridaceae) are a diverse and ecologically important clade, unusual among ferns for their ability to colonize and diversify within xeric habitats. These extreme habitats are thought to drive the extensive evolutionary convergence, and thus morphological homoplasy, that has long thwarted a natural classification of cheilanthoid ferns. Here we present the first multigene phylogeny to focus on taxa traditionally assigned to the large genus Notholaena. New World taxa (Notholaena sensu Tryon) are only distantly related to species occurring in the Old World (Notholaena sensu Pichi-Sermolli). The circumscription of Notholaena adopted in recent American floras is shown to be paraphyletic, with species usually assigned to Cheilanthes and Cheiloplecton nested within it. The position of Cheiloplecton is particularly surprisinggiven its well-developed false indusium and non-farinose blade, it is morphologically anomalous within the notholaenoids. In addition to clarifying natural relationships, the phylogenetic hypothesis presented here helps to resolve outstanding nomenclatural issues and provides a basis for examining character evolution within this diverse, desert-adapted clade.}
}
- Show RIS reference
TY - JOUR
ID - 17268
AU - Rothfels,Carl J.
AU - Windham,Michael D
AU - Grusz,A. L.
AU - Gastony,Gerald J.
AU - Pryer,Kathleen M.
T1 - Toward a monophyletic Notholaena (Pteridaceae): Resolving patterns of evolutionary convergence in xeric-adapted ferns
PY - 2008
UR -
N2 - Cheilanthoid ferns (Pteridaceae) are a diverse and ecologically important clade, unusual among ferns for their ability to colonize and diversify within xeric habitats. These extreme habitats are thought to drive the extensive evolutionary convergence, and thus morphological homoplasy, that has long thwarted a natural classification of cheilanthoid ferns. Here we present the first multigene phylogeny to focus on taxa traditionally assigned to the large genus Notholaena. New World taxa (Notholaena sensu Tryon) are only distantly related to species occurring in the Old World (Notholaena sensu Pichi-Sermolli). The circumscription of Notholaena adopted in recent American floras is shown to be paraphyletic, with species usually assigned to Cheilanthes and Cheiloplecton nested within it. The position of Cheiloplecton is particularly surprisinggiven its well-developed false indusium and non-farinose blade, it is morphologically anomalous within the notholaenoids. In addition to clarifying natural relationships, the phylogenetic hypothesis presented here helps to resolve outstanding nomenclatural issues and provides a basis for examining character evolution within this diverse, desert-adapted clade.
L3 -
JF - Taxon
VL - 57
IS - 3
SP - 712
EP - 724
ER -