@ARTICLE{TreeBASE2Ref24288,
author = {Timothy Andrew Hammer},
title = {A molecular framework phylogeny for Ptilotus (Amaranthaceae): Evidence for the rapid diversification of an arid Australian genus},
year = {2015},
keywords = {Amaranthaceae; Australia; ITS; matK; Ptilotus; rapid diversification},
doi = {10.12705/642.6},
url = {http://},
pmid = {},
journal = {Taxon},
volume = {},
number = {},
pages = {},
abstract = {Ptilotus (Amaranthaceae) is an Australian genus with over 100 species, most of which occur in arid Western Australia.
Ptilotus has been a taxonomically difficult genus; despite rigorous morphological studies into the genus over many years,
previous workers have found it difficult to delimit infrageneric groups due to inconsistent morphological variation. With the
goal to establish a phylogenetic framework for the genus, 100 taxa were sampled, including 87 Ptilotus spp., and the ITS nrDNA
and matK cpDNA were sequenced. The phylogeny was reconstructed using Bayesian, maximum likelihood and maximum
parsimony analyses on separate and concatenated datasets. Morphological characters were assessed and compared to clades on
the phylogeny to identify synapomorphies and aid in the construction of an infrageneric classification. A diversification rate
analysis was used to identify rate shifts in speciation across the phylogeny. Four major clades of the monophyletic Ptilotus were
resolved, three small clades together comprising 27% of sampled taxa and a large, diverse clade comprising the remaining 73%.
Four floral synapomorphies were identified as uniquely occurring within the latter, although none were common to all taxa in
the clade. The diversification rate analysis identified a probable rate shift at the base of Ptilotus, indicating that the genus may
have undergone a rapid diversification early in its evolution. This rapid diversification provides a plausible explanation for the
lack of consistent variation in morphology among the major clades.}
}
Citation for Study 17221
Citation title:
"A molecular framework phylogeny for Ptilotus (Amaranthaceae): Evidence for the rapid diversification of an arid Australian genus".
Study name:
"A molecular framework phylogeny for Ptilotus (Amaranthaceae): Evidence for the rapid diversification of an arid Australian genus".
This study is part of submission 17221
(Status: Published).
Citation
Hammer T.A. 2015. A molecular framework phylogeny for Ptilotus (Amaranthaceae): Evidence for the rapid diversification of an arid Australian genus. Taxon, .
Authors
-
Hammer T.A.
(submitter)
+61 0455 362 566
Abstract
Ptilotus (Amaranthaceae) is an Australian genus with over 100 species, most of which occur in arid Western Australia.
Ptilotus has been a taxonomically difficult genus; despite rigorous morphological studies into the genus over many years,
previous workers have found it difficult to delimit infrageneric groups due to inconsistent morphological variation. With the
goal to establish a phylogenetic framework for the genus, 100 taxa were sampled, including 87 Ptilotus spp., and the ITS nrDNA
and matK cpDNA were sequenced. The phylogeny was reconstructed using Bayesian, maximum likelihood and maximum
parsimony analyses on separate and concatenated datasets. Morphological characters were assessed and compared to clades on
the phylogeny to identify synapomorphies and aid in the construction of an infrageneric classification. A diversification rate
analysis was used to identify rate shifts in speciation across the phylogeny. Four major clades of the monophyletic Ptilotus were
resolved, three small clades together comprising 27% of sampled taxa and a large, diverse clade comprising the remaining 73%.
Four floral synapomorphies were identified as uniquely occurring within the latter, although none were common to all taxa in
the clade. The diversification rate analysis identified a probable rate shift at the base of Ptilotus, indicating that the genus may
have undergone a rapid diversification early in its evolution. This rapid diversification provides a plausible explanation for the
lack of consistent variation in morphology among the major clades.
Keywords
Amaranthaceae; Australia; ITS; matK; Ptilotus; rapid diversification
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S17221
- Other versions:
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref24288,
author = {Timothy Andrew Hammer},
title = {A molecular framework phylogeny for Ptilotus (Amaranthaceae): Evidence for the rapid diversification of an arid Australian genus},
year = {2015},
keywords = {Amaranthaceae; Australia; ITS; matK; Ptilotus; rapid diversification},
doi = {10.12705/642.6},
url = {http://},
pmid = {},
journal = {Taxon},
volume = {},
number = {},
pages = {},
abstract = {Ptilotus (Amaranthaceae) is an Australian genus with over 100 species, most of which occur in arid Western Australia.
Ptilotus has been a taxonomically difficult genus; despite rigorous morphological studies into the genus over many years,
previous workers have found it difficult to delimit infrageneric groups due to inconsistent morphological variation. With the
goal to establish a phylogenetic framework for the genus, 100 taxa were sampled, including 87 Ptilotus spp., and the ITS nrDNA
and matK cpDNA were sequenced. The phylogeny was reconstructed using Bayesian, maximum likelihood and maximum
parsimony analyses on separate and concatenated datasets. Morphological characters were assessed and compared to clades on
the phylogeny to identify synapomorphies and aid in the construction of an infrageneric classification. A diversification rate
analysis was used to identify rate shifts in speciation across the phylogeny. Four major clades of the monophyletic Ptilotus were
resolved, three small clades together comprising 27% of sampled taxa and a large, diverse clade comprising the remaining 73%.
Four floral synapomorphies were identified as uniquely occurring within the latter, although none were common to all taxa in
the clade. The diversification rate analysis identified a probable rate shift at the base of Ptilotus, indicating that the genus may
have undergone a rapid diversification early in its evolution. This rapid diversification provides a plausible explanation for the
lack of consistent variation in morphology among the major clades.}
}
- Show RIS reference
TY - JOUR
ID - 24288
AU - Hammer,Timothy Andrew
T1 - A molecular framework phylogeny for Ptilotus (Amaranthaceae): Evidence for the rapid diversification of an arid Australian genus
PY - 2015
KW - Amaranthaceae; Australia; ITS; matK; Ptilotus; rapid diversification
UR - http://dx.doi.org/10.12705/642.6
N2 - Ptilotus (Amaranthaceae) is an Australian genus with over 100 species, most of which occur in arid Western Australia.
Ptilotus has been a taxonomically difficult genus; despite rigorous morphological studies into the genus over many years,
previous workers have found it difficult to delimit infrageneric groups due to inconsistent morphological variation. With the
goal to establish a phylogenetic framework for the genus, 100 taxa were sampled, including 87 Ptilotus spp., and the ITS nrDNA
and matK cpDNA were sequenced. The phylogeny was reconstructed using Bayesian, maximum likelihood and maximum
parsimony analyses on separate and concatenated datasets. Morphological characters were assessed and compared to clades on
the phylogeny to identify synapomorphies and aid in the construction of an infrageneric classification. A diversification rate
analysis was used to identify rate shifts in speciation across the phylogeny. Four major clades of the monophyletic Ptilotus were
resolved, three small clades together comprising 27% of sampled taxa and a large, diverse clade comprising the remaining 73%.
Four floral synapomorphies were identified as uniquely occurring within the latter, although none were common to all taxa in
the clade. The diversification rate analysis identified a probable rate shift at the base of Ptilotus, indicating that the genus may
have undergone a rapid diversification early in its evolution. This rapid diversification provides a plausible explanation for the
lack of consistent variation in morphology among the major clades.
L3 - 10.12705/642.6
JF - Taxon
VL -
IS -
ER -