@ARTICLE{TreeBASE2Ref25538,
author = {Carol A. Wilson and Justin Padiernos and Yuval Sapir},
title = {The royal irises (Iris subg. Iris sect. Oncocyclus): Plastid and low-copy nuclear data contribute to an understanding of their phylogenetic relationships},
year = {2016},
keywords = {biogeography; Caucasus; Iris; Mediterranean; Oncocyclus; phylogenetics},
doi = {},
url = {http://},
pmid = {},
journal = {Taxon},
volume = {65},
number = {1},
pages = {35--46},
abstract = {Iris sect. Oncocyclus species generally occur in small populations or locally scattered over rocky hillsides, steppes, and deserts from the north Caucasus to the eastern Mediterranean. Species of this section are easily recognized by their inflorescences of a single, large, spherical flower and sepals with a dark signal spot and adjacent beard of multicellular hairs. We present here results of the first phylogenetic study of sect. Oncocyclus based on one low-copy nuclear and six plastid markers from 33 of approximately 42 species and infraspecific taxa. Gene trees are congruent and nuclear markers are more potentially parsimony informative than plastid markers. We identify clades that do not correspond to previously described species groups based on size, color, and shape of perianth parts and show that hypotheses of species monophyly are not supported. In general, diversification is greatest along terminal branches suggesting that species diversified in isolation. The Caucasus is suggested as the ancestral area for sect. Oncocyclus and the eastern Mediterranean as an important area of diversification.}
}
Citation for Study 18846
Citation title:
"The royal irises (Iris subg. Iris sect. Oncocyclus): Plastid and low-copy nuclear data contribute to an understanding of their phylogenetic relationships".
Study name:
"The royal irises (Iris subg. Iris sect. Oncocyclus): Plastid and low-copy nuclear data contribute to an understanding of their phylogenetic relationships".
This study is part of submission 18846
(Status: Published).
Citation
Wilson C.A., Padiernos J., & Sapir Y. 2016. The royal irises (Iris subg. Iris sect. Oncocyclus): Plastid and low-copy nuclear data contribute to an understanding of their phylogenetic relationships. Taxon, 65(1): 35-46.
Authors
-
Wilson C.A.
(submitter)
503-724-0834
-
Padiernos J.
-
Sapir Y.
Abstract
Iris sect. Oncocyclus species generally occur in small populations or locally scattered over rocky hillsides, steppes, and deserts from the north Caucasus to the eastern Mediterranean. Species of this section are easily recognized by their inflorescences of a single, large, spherical flower and sepals with a dark signal spot and adjacent beard of multicellular hairs. We present here results of the first phylogenetic study of sect. Oncocyclus based on one low-copy nuclear and six plastid markers from 33 of approximately 42 species and infraspecific taxa. Gene trees are congruent and nuclear markers are more potentially parsimony informative than plastid markers. We identify clades that do not correspond to previously described species groups based on size, color, and shape of perianth parts and show that hypotheses of species monophyly are not supported. In general, diversification is greatest along terminal branches suggesting that species diversified in isolation. The Caucasus is suggested as the ancestral area for sect. Oncocyclus and the eastern Mediterranean as an important area of diversification.
Keywords
biogeography; Caucasus; Iris; Mediterranean; Oncocyclus; phylogenetics
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S18846
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref25538,
author = {Carol A. Wilson and Justin Padiernos and Yuval Sapir},
title = {The royal irises (Iris subg. Iris sect. Oncocyclus): Plastid and low-copy nuclear data contribute to an understanding of their phylogenetic relationships},
year = {2016},
keywords = {biogeography; Caucasus; Iris; Mediterranean; Oncocyclus; phylogenetics},
doi = {},
url = {http://},
pmid = {},
journal = {Taxon},
volume = {65},
number = {1},
pages = {35--46},
abstract = {Iris sect. Oncocyclus species generally occur in small populations or locally scattered over rocky hillsides, steppes, and deserts from the north Caucasus to the eastern Mediterranean. Species of this section are easily recognized by their inflorescences of a single, large, spherical flower and sepals with a dark signal spot and adjacent beard of multicellular hairs. We present here results of the first phylogenetic study of sect. Oncocyclus based on one low-copy nuclear and six plastid markers from 33 of approximately 42 species and infraspecific taxa. Gene trees are congruent and nuclear markers are more potentially parsimony informative than plastid markers. We identify clades that do not correspond to previously described species groups based on size, color, and shape of perianth parts and show that hypotheses of species monophyly are not supported. In general, diversification is greatest along terminal branches suggesting that species diversified in isolation. The Caucasus is suggested as the ancestral area for sect. Oncocyclus and the eastern Mediterranean as an important area of diversification.}
}
- Show RIS reference
TY - JOUR
ID - 25538
AU - Wilson,Carol A.
AU - Padiernos,Justin
AU - Sapir,Yuval
T1 - The royal irises (Iris subg. Iris sect. Oncocyclus): Plastid and low-copy nuclear data contribute to an understanding of their phylogenetic relationships
PY - 2016
KW - biogeography; Caucasus; Iris; Mediterranean; Oncocyclus; phylogenetics
UR - http://dx.doi.org/
N2 - Iris sect. Oncocyclus species generally occur in small populations or locally scattered over rocky hillsides, steppes, and deserts from the north Caucasus to the eastern Mediterranean. Species of this section are easily recognized by their inflorescences of a single, large, spherical flower and sepals with a dark signal spot and adjacent beard of multicellular hairs. We present here results of the first phylogenetic study of sect. Oncocyclus based on one low-copy nuclear and six plastid markers from 33 of approximately 42 species and infraspecific taxa. Gene trees are congruent and nuclear markers are more potentially parsimony informative than plastid markers. We identify clades that do not correspond to previously described species groups based on size, color, and shape of perianth parts and show that hypotheses of species monophyly are not supported. In general, diversification is greatest along terminal branches suggesting that species diversified in isolation. The Caucasus is suggested as the ancestral area for sect. Oncocyclus and the eastern Mediterranean as an important area of diversification.
L3 -
JF - Taxon
VL - 65
IS - 1
SP - 35
EP - 46
ER -