@ARTICLE{TreeBASE2Ref17370,
author = {Takeshi Sasaki and Yuichirou Yasukawa and Kazuhiko Takahashi and Seiko Miura and Norihiro Okada},
title = {Extensive Morphological Convergence and Rapid Radiation in the Evolutionary History of the family Geoemydidae (Old World Pond Turtles) Revealed by SINE Insertion Analysis.},
year = {2006},
keywords = {},
doi = {10.1080/10635150601058014},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {55},
number = {6},
pages = {912--927},
abstract = {The family Geoemydidae is one of three in the superfamily Testudinoidea and is the most diversified family of extant turtle species. The phylogenetic relationships in this family and among related families have been vigorously investigated from both morphological and molecular viewpoints. The evolutionary history of Geoemydidae, however, remains controversial. Therefore, to elucidate the phylogenetic relationships of Geoemydidae and related species, we applied the SINE insertion method to investigate 49 informative SINE loci in 28 species. We detected four major evolutionary lineages (Testudinidae, Batagur group, Siebenrockiella group and Geoemyda group) in the clade Testuguria (a clade of Geoemydidae + Testudinidae). All five specimens of Testudinidae form a monophyletic clade. The Batagur group comprises five batagurines. The Siebenrockiella group has one species, Siebenrockiella crassicollis. The Geoemyda group comprises 15 geoemydines (including three former batagurines, Mauremys reevesii, Mauremys sinensis and Heosemys annandalii). Among these four groups, the SINE insertion patterns were inconsistent at four loci, suggesting that an ancestral species of Testuguria radiated and rapidly diverged into the four lineages during the initial stage of its evolution. Furthermore, within the Geoemyda group we identified three evolutionary lineages, namely Mauremys, Cuora and Heosemys. The Heosemys lineage comprises Heosemys, Sacalia, Notochelys and Melanochelys species, and its monophyly is a novel assemblage in Geoemydidae. Our SINE phylogenetic tree demonstrates extensive convergent morphological evolution between the Batagur group and the three species of the Geoemyda group, M. reevesii, M. sinensis and H. annandalii.}
}
Citation for Study 1609
Citation title:
"Extensive Morphological Convergence and Rapid Radiation in the Evolutionary History of the family Geoemydidae (Old World Pond Turtles) Revealed by SINE Insertion Analysis.".
This study was previously identified under the legacy study ID S1558
(Status: Published).
Citation
Sasaki T., Yasukawa Y., Takahashi K., Miura S., & Okada N. 2006. Extensive Morphological Convergence and Rapid Radiation in the Evolutionary History of the family Geoemydidae (Old World Pond Turtles) Revealed by SINE Insertion Analysis. Systematic Biology, 55(6): 912-927.
Authors
-
Sasaki T.
-
Yasukawa Y.
-
Takahashi K.
-
Miura S.
-
Okada N.
Abstract
The family Geoemydidae is one of three in the superfamily Testudinoidea and is the most diversified family of extant turtle species. The phylogenetic relationships in this family and among related families have been vigorously investigated from both morphological and molecular viewpoints. The evolutionary history of Geoemydidae, however, remains controversial. Therefore, to elucidate the phylogenetic relationships of Geoemydidae and related species, we applied the SINE insertion method to investigate 49 informative SINE loci in 28 species. We detected four major evolutionary lineages (Testudinidae, Batagur group, Siebenrockiella group and Geoemyda group) in the clade Testuguria (a clade of Geoemydidae + Testudinidae). All five specimens of Testudinidae form a monophyletic clade. The Batagur group comprises five batagurines. The Siebenrockiella group has one species, Siebenrockiella crassicollis. The Geoemyda group comprises 15 geoemydines (including three former batagurines, Mauremys reevesii, Mauremys sinensis and Heosemys annandalii). Among these four groups, the SINE insertion patterns were inconsistent at four loci, suggesting that an ancestral species of Testuguria radiated and rapidly diverged into the four lineages during the initial stage of its evolution. Furthermore, within the Geoemyda group we identified three evolutionary lineages, namely Mauremys, Cuora and Heosemys. The Heosemys lineage comprises Heosemys, Sacalia, Notochelys and Melanochelys species, and its monophyly is a novel assemblage in Geoemydidae. Our SINE phylogenetic tree demonstrates extensive convergent morphological evolution between the Batagur group and the three species of the Geoemyda group, M. reevesii, M. sinensis and H. annandalii.
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S1609
- Other versions:
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref17370,
author = {Takeshi Sasaki and Yuichirou Yasukawa and Kazuhiko Takahashi and Seiko Miura and Norihiro Okada},
title = {Extensive Morphological Convergence and Rapid Radiation in the Evolutionary History of the family Geoemydidae (Old World Pond Turtles) Revealed by SINE Insertion Analysis.},
year = {2006},
keywords = {},
doi = {10.1080/10635150601058014},
url = {},
pmid = {},
journal = {Systematic Biology},
volume = {55},
number = {6},
pages = {912--927},
abstract = {The family Geoemydidae is one of three in the superfamily Testudinoidea and is the most diversified family of extant turtle species. The phylogenetic relationships in this family and among related families have been vigorously investigated from both morphological and molecular viewpoints. The evolutionary history of Geoemydidae, however, remains controversial. Therefore, to elucidate the phylogenetic relationships of Geoemydidae and related species, we applied the SINE insertion method to investigate 49 informative SINE loci in 28 species. We detected four major evolutionary lineages (Testudinidae, Batagur group, Siebenrockiella group and Geoemyda group) in the clade Testuguria (a clade of Geoemydidae + Testudinidae). All five specimens of Testudinidae form a monophyletic clade. The Batagur group comprises five batagurines. The Siebenrockiella group has one species, Siebenrockiella crassicollis. The Geoemyda group comprises 15 geoemydines (including three former batagurines, Mauremys reevesii, Mauremys sinensis and Heosemys annandalii). Among these four groups, the SINE insertion patterns were inconsistent at four loci, suggesting that an ancestral species of Testuguria radiated and rapidly diverged into the four lineages during the initial stage of its evolution. Furthermore, within the Geoemyda group we identified three evolutionary lineages, namely Mauremys, Cuora and Heosemys. The Heosemys lineage comprises Heosemys, Sacalia, Notochelys and Melanochelys species, and its monophyly is a novel assemblage in Geoemydidae. Our SINE phylogenetic tree demonstrates extensive convergent morphological evolution between the Batagur group and the three species of the Geoemyda group, M. reevesii, M. sinensis and H. annandalii.}
}
- Show RIS reference
TY - JOUR
ID - 17370
AU - Sasaki,Takeshi
AU - Yasukawa,Yuichirou
AU - Takahashi,Kazuhiko
AU - Miura,Seiko
AU - Okada,Norihiro
T1 - Extensive Morphological Convergence and Rapid Radiation in the Evolutionary History of the family Geoemydidae (Old World Pond Turtles) Revealed by SINE Insertion Analysis.
PY - 2006
KW -
UR - http://dx.doi.org/10.1080/10635150601058014
N2 - The family Geoemydidae is one of three in the superfamily Testudinoidea and is the most diversified family of extant turtle species. The phylogenetic relationships in this family and among related families have been vigorously investigated from both morphological and molecular viewpoints. The evolutionary history of Geoemydidae, however, remains controversial. Therefore, to elucidate the phylogenetic relationships of Geoemydidae and related species, we applied the SINE insertion method to investigate 49 informative SINE loci in 28 species. We detected four major evolutionary lineages (Testudinidae, Batagur group, Siebenrockiella group and Geoemyda group) in the clade Testuguria (a clade of Geoemydidae + Testudinidae). All five specimens of Testudinidae form a monophyletic clade. The Batagur group comprises five batagurines. The Siebenrockiella group has one species, Siebenrockiella crassicollis. The Geoemyda group comprises 15 geoemydines (including three former batagurines, Mauremys reevesii, Mauremys sinensis and Heosemys annandalii). Among these four groups, the SINE insertion patterns were inconsistent at four loci, suggesting that an ancestral species of Testuguria radiated and rapidly diverged into the four lineages during the initial stage of its evolution. Furthermore, within the Geoemyda group we identified three evolutionary lineages, namely Mauremys, Cuora and Heosemys. The Heosemys lineage comprises Heosemys, Sacalia, Notochelys and Melanochelys species, and its monophyly is a novel assemblage in Geoemydidae. Our SINE phylogenetic tree demonstrates extensive convergent morphological evolution between the Batagur group and the three species of the Geoemyda group, M. reevesii, M. sinensis and H. annandalii.
L3 - 10.1080/10635150601058014
JF - Systematic Biology
VL - 55
IS - 6
SP - 912
EP - 927
ER -