@ARTICLE{TreeBASE2Ref15194,
author = {Thomas F. Daniel and Lucinda A. McDade and Mariette Manktelow and Carrie A. Kiel},
title = {The "Tetramerium Lineage" (Acanthaceae: Acanthoideae: Justicieae): Delimitation and Infra-lineage Relationships Based on cp and nrITS Sequence Data},
year = {2007},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {},
number = {},
pages = {},
abstract = {We used DNA sequence data from five genic regions (nrITS; chloroplast trnL-F, trnT-L, rps16, trnS-G) to study phylogenetic relationships of the Tetramerium lineage (Acanthaceae: Justicieae). From a sample of 70 species (representing 25 genera) previously affiliated with the Tetramerium lineage, 68 are included therein. Our analyses excluded Papuasian Calycacanthus and Neotropical Streblacanthus monospermus from the Tetramerium lineage; however, two species described in Justicia (J. gonzalezii and J. medranoi) and a Malagasy species of uncertain generic affinities are nested within the lineage. A monophyletic Tetramerium lineage consists of 23 currently recognized genera with at least 168 species, more than 70% of which occur in the New World. Old World Chlamydacardia and Clinacanthus are serially sister to all other members of the lineage. Other Old World taxa consist of: Ecbolium clade (all sampled species of Ecbolium plus Malagasy Populina richardii), Megalochlamys clade (Megalochlamys, Trichaulax and the unidentified Malagasy plant), and two isolated taxa (Angkalanthus and Chorisochora). All analyses strongly support monophyly of the New World Tetramerium lineage. The three basal clades of New World plants, all with nototribic flowers, are: the taxonomically heterogeneous but palynologically consistent Mirandea clade, the Pachystachys clade, and the South American Anisacanthus clade. The last two are sister taxa and are together sister to all other New World plants, referred to here as the core Tetramerium lineage. We recognize five clades within the core Tetramerium lineage related as follows: (Henrya clade (Carlowrightia parviflora clade (North American Anisacanthus clade (core Carlowrightia clade + Tetramerium)))). Macromorphological synapomorphies are unknown for the Tetramerium lineage and for many of its constituent clades. However, we propose sternotribic flowers as synapomorphic for the core Tetramerium lineage and flowers with the lower-central lobe of the corolla modified into a keel as synapomorphic for a lineage consisting of Tetramerium and the core Carlowrightia clade. Palynological characters provide putative synapomorphies for some clades (e.g., Ecbolium clade, Mirandea clade) and autapomorphies for several species (e.g., Mexacanthus mcvaughii, Trichaulax mwasumbii). An Old World origin is postulated for the Tetramerium lineage, and we posit a single dispersal event to America and subsequent extensive radiation there, especially in arid zones of Mexico and adjacent regions. Taxonomic implications of our results are extensive. Notably, many traditionally recognized genera (e.g., Anisacanthus, Carlowrightia, Mirandea) are not monophyletic and emphasis on floral form often has been phylogenetically misleading (e.g., floral adaptations to pollination by hummingbirds have evolved at least eight times in the New World Tetramerium lineage).}
}
Citation for Study 1882
Citation title:
"The "Tetramerium Lineage" (Acanthaceae: Acanthoideae: Justicieae): Delimitation and Infra-lineage Relationships Based on cp and nrITS Sequence Data".
This study was previously identified under the legacy study ID S1857
(Status: Published).
Citation
Daniel T., Mcdade L., Manktelow M., & Kiel C. 2007. The "Tetramerium Lineage" (Acanthaceae: Acanthoideae: Justicieae): Delimitation and Infra-lineage Relationships Based on cp and nrITS Sequence Data. Systematic Botany, null.
Authors
-
Daniel T.
-
Mcdade L.
-
Manktelow M.
-
Kiel C.
Abstract
We used DNA sequence data from five genic regions (nrITS; chloroplast trnL-F, trnT-L, rps16, trnS-G) to study phylogenetic relationships of the Tetramerium lineage (Acanthaceae: Justicieae). From a sample of 70 species (representing 25 genera) previously affiliated with the Tetramerium lineage, 68 are included therein. Our analyses excluded Papuasian Calycacanthus and Neotropical Streblacanthus monospermus from the Tetramerium lineage; however, two species described in Justicia (J. gonzalezii and J. medranoi) and a Malagasy species of uncertain generic affinities are nested within the lineage. A monophyletic Tetramerium lineage consists of 23 currently recognized genera with at least 168 species, more than 70% of which occur in the New World. Old World Chlamydacardia and Clinacanthus are serially sister to all other members of the lineage. Other Old World taxa consist of: Ecbolium clade (all sampled species of Ecbolium plus Malagasy Populina richardii), Megalochlamys clade (Megalochlamys, Trichaulax and the unidentified Malagasy plant), and two isolated taxa (Angkalanthus and Chorisochora). All analyses strongly support monophyly of the New World Tetramerium lineage. The three basal clades of New World plants, all with nototribic flowers, are: the taxonomically heterogeneous but palynologically consistent Mirandea clade, the Pachystachys clade, and the South American Anisacanthus clade. The last two are sister taxa and are together sister to all other New World plants, referred to here as the core Tetramerium lineage. We recognize five clades within the core Tetramerium lineage related as follows: (Henrya clade (Carlowrightia parviflora clade (North American Anisacanthus clade (core Carlowrightia clade + Tetramerium)))). Macromorphological synapomorphies are unknown for the Tetramerium lineage and for many of its constituent clades. However, we propose sternotribic flowers as synapomorphic for the core Tetramerium lineage and flowers with the lower-central lobe of the corolla modified into a keel as synapomorphic for a lineage consisting of Tetramerium and the core Carlowrightia clade. Palynological characters provide putative synapomorphies for some clades (e.g., Ecbolium clade, Mirandea clade) and autapomorphies for several species (e.g., Mexacanthus mcvaughii, Trichaulax mwasumbii). An Old World origin is postulated for the Tetramerium lineage, and we posit a single dispersal event to America and subsequent extensive radiation there, especially in arid zones of Mexico and adjacent regions. Taxonomic implications of our results are extensive. Notably, many traditionally recognized genera (e.g., Anisacanthus, Carlowrightia, Mirandea) are not monophyletic and emphasis on floral form often has been phylogenetically misleading (e.g., floral adaptations to pollination by hummingbirds have evolved at least eight times in the New World Tetramerium lineage).
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S1882
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref15194,
author = {Thomas F. Daniel and Lucinda A. McDade and Mariette Manktelow and Carrie A. Kiel},
title = {The "Tetramerium Lineage" (Acanthaceae: Acanthoideae: Justicieae): Delimitation and Infra-lineage Relationships Based on cp and nrITS Sequence Data},
year = {2007},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Systematic Botany},
volume = {},
number = {},
pages = {},
abstract = {We used DNA sequence data from five genic regions (nrITS; chloroplast trnL-F, trnT-L, rps16, trnS-G) to study phylogenetic relationships of the Tetramerium lineage (Acanthaceae: Justicieae). From a sample of 70 species (representing 25 genera) previously affiliated with the Tetramerium lineage, 68 are included therein. Our analyses excluded Papuasian Calycacanthus and Neotropical Streblacanthus monospermus from the Tetramerium lineage; however, two species described in Justicia (J. gonzalezii and J. medranoi) and a Malagasy species of uncertain generic affinities are nested within the lineage. A monophyletic Tetramerium lineage consists of 23 currently recognized genera with at least 168 species, more than 70% of which occur in the New World. Old World Chlamydacardia and Clinacanthus are serially sister to all other members of the lineage. Other Old World taxa consist of: Ecbolium clade (all sampled species of Ecbolium plus Malagasy Populina richardii), Megalochlamys clade (Megalochlamys, Trichaulax and the unidentified Malagasy plant), and two isolated taxa (Angkalanthus and Chorisochora). All analyses strongly support monophyly of the New World Tetramerium lineage. The three basal clades of New World plants, all with nototribic flowers, are: the taxonomically heterogeneous but palynologically consistent Mirandea clade, the Pachystachys clade, and the South American Anisacanthus clade. The last two are sister taxa and are together sister to all other New World plants, referred to here as the core Tetramerium lineage. We recognize five clades within the core Tetramerium lineage related as follows: (Henrya clade (Carlowrightia parviflora clade (North American Anisacanthus clade (core Carlowrightia clade + Tetramerium)))). Macromorphological synapomorphies are unknown for the Tetramerium lineage and for many of its constituent clades. However, we propose sternotribic flowers as synapomorphic for the core Tetramerium lineage and flowers with the lower-central lobe of the corolla modified into a keel as synapomorphic for a lineage consisting of Tetramerium and the core Carlowrightia clade. Palynological characters provide putative synapomorphies for some clades (e.g., Ecbolium clade, Mirandea clade) and autapomorphies for several species (e.g., Mexacanthus mcvaughii, Trichaulax mwasumbii). An Old World origin is postulated for the Tetramerium lineage, and we posit a single dispersal event to America and subsequent extensive radiation there, especially in arid zones of Mexico and adjacent regions. Taxonomic implications of our results are extensive. Notably, many traditionally recognized genera (e.g., Anisacanthus, Carlowrightia, Mirandea) are not monophyletic and emphasis on floral form often has been phylogenetically misleading (e.g., floral adaptations to pollination by hummingbirds have evolved at least eight times in the New World Tetramerium lineage).}
}
- Show RIS reference
TY - JOUR
ID - 15194
AU - Daniel,Thomas F.
AU - McDade,Lucinda A.
AU - Manktelow,Mariette
AU - Kiel,Carrie A.
T1 - The "Tetramerium Lineage" (Acanthaceae: Acanthoideae: Justicieae): Delimitation and Infra-lineage Relationships Based on cp and nrITS Sequence Data
PY - 2007
KW -
UR -
N2 - We used DNA sequence data from five genic regions (nrITS; chloroplast trnL-F, trnT-L, rps16, trnS-G) to study phylogenetic relationships of the Tetramerium lineage (Acanthaceae: Justicieae). From a sample of 70 species (representing 25 genera) previously affiliated with the Tetramerium lineage, 68 are included therein. Our analyses excluded Papuasian Calycacanthus and Neotropical Streblacanthus monospermus from the Tetramerium lineage; however, two species described in Justicia (J. gonzalezii and J. medranoi) and a Malagasy species of uncertain generic affinities are nested within the lineage. A monophyletic Tetramerium lineage consists of 23 currently recognized genera with at least 168 species, more than 70% of which occur in the New World. Old World Chlamydacardia and Clinacanthus are serially sister to all other members of the lineage. Other Old World taxa consist of: Ecbolium clade (all sampled species of Ecbolium plus Malagasy Populina richardii), Megalochlamys clade (Megalochlamys, Trichaulax and the unidentified Malagasy plant), and two isolated taxa (Angkalanthus and Chorisochora). All analyses strongly support monophyly of the New World Tetramerium lineage. The three basal clades of New World plants, all with nototribic flowers, are: the taxonomically heterogeneous but palynologically consistent Mirandea clade, the Pachystachys clade, and the South American Anisacanthus clade. The last two are sister taxa and are together sister to all other New World plants, referred to here as the core Tetramerium lineage. We recognize five clades within the core Tetramerium lineage related as follows: (Henrya clade (Carlowrightia parviflora clade (North American Anisacanthus clade (core Carlowrightia clade + Tetramerium)))). Macromorphological synapomorphies are unknown for the Tetramerium lineage and for many of its constituent clades. However, we propose sternotribic flowers as synapomorphic for the core Tetramerium lineage and flowers with the lower-central lobe of the corolla modified into a keel as synapomorphic for a lineage consisting of Tetramerium and the core Carlowrightia clade. Palynological characters provide putative synapomorphies for some clades (e.g., Ecbolium clade, Mirandea clade) and autapomorphies for several species (e.g., Mexacanthus mcvaughii, Trichaulax mwasumbii). An Old World origin is postulated for the Tetramerium lineage, and we posit a single dispersal event to America and subsequent extensive radiation there, especially in arid zones of Mexico and adjacent regions. Taxonomic implications of our results are extensive. Notably, many traditionally recognized genera (e.g., Anisacanthus, Carlowrightia, Mirandea) are not monophyletic and emphasis on floral form often has been phylogenetically misleading (e.g., floral adaptations to pollination by hummingbirds have evolved at least eight times in the New World Tetramerium lineage).
L3 -
JF - Systematic Botany
VL -
IS -
ER -