@ARTICLE{TreeBASE2Ref18230,
author = {Anne D Yoder and Ziheng Yang},
title = {Divergence dates for Malagasy lemurs estimated from multiple gene loci: geological and evolutionary context.},
year = {2004},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Molecular Ecology},
volume = {13},
number = {},
pages = {757--773},
abstract = {The lemurs of Madagascar are a unique radiation of primates that show an extraordinary diversity of lifestyles, morphologies, and behaviors. Yet, very little is known about the relative antiquity of lemuriform clades due to the lack of terrestrial fossils for the Tertiary of Madagascar. Here, we employ a Bayesian method to estimate divergence dates within the lemuriform radiation, using several unlinked gene loci and multiple fossil calibrations outside of the lemuriform clade. Two mitochondrial genes (cytochrome oxidase II and cytochrome b), two nuclear introns (transthyretin intron 1 and von Willebrand factor gene intron 11), and one nuclear exon (interphotoreceptor retinoid binding protein, exon 1) are used in separate and combined analyses. The genes differ in taxon sampling and evolutionary characteristics but produce congruent date estimates. Credibility intervals narrow considerably in combined analyses relative to separate analyses due to the increased amount of data. We also test the relative effects of multiple versus single calibration points, finding that when only single calibration points are employed, divergence dates are systematically underestimated. For the mtDNA data set, we investigate the effects of sampling density within the mouse lemur radiation (genus Microcebus). When only two representative species are included, estimated dates throughout the phylogeny are more recent than with the complete-species sample, with basal nodes less affected than recent nodes. The difference appears to be due to the manner in which priors on node ages are constructed in the two analyses. In nearly all analyses, the age of the lemuriform clade is estimated to be approximately 62 - 65 Ma, with initial radiation of mouse lemurs and true lemurs (genus Eulemur) occurring approximately 8 ? 12 Ma. The antiquity of the mouse lemur radiation is surprising given the near uniform morphology among species. Moreover, the observation that mouse lemurs and true lemurs are of similar ages suggests discrepancies in rates of morphological, behavioral, and physiological evolution in the two clades, particularly with regard to characteristics of sexual signaling. These differences appear to correlate with the nocturnal versus diurnal lifestyles, respectively, of these two primate groups.}
}
Citation for Study 1153
Citation title:
"Divergence dates for Malagasy lemurs estimated from multiple gene loci: geological and evolutionary context.".
This study was previously identified under the legacy study ID S1060
(Status: Published).
Citation
Yoder A.D., & Yang Z. 2004. Divergence dates for Malagasy lemurs estimated from multiple gene loci: geological and evolutionary context. Molecular Ecology, 13: 757-773.
Authors
Abstract
The lemurs of Madagascar are a unique radiation of primates that show an extraordinary diversity of lifestyles, morphologies, and behaviors. Yet, very little is known about the relative antiquity of lemuriform clades due to the lack of terrestrial fossils for the Tertiary of Madagascar. Here, we employ a Bayesian method to estimate divergence dates within the lemuriform radiation, using several unlinked gene loci and multiple fossil calibrations outside of the lemuriform clade. Two mitochondrial genes (cytochrome oxidase II and cytochrome b), two nuclear introns (transthyretin intron 1 and von Willebrand factor gene intron 11), and one nuclear exon (interphotoreceptor retinoid binding protein, exon 1) are used in separate and combined analyses. The genes differ in taxon sampling and evolutionary characteristics but produce congruent date estimates. Credibility intervals narrow considerably in combined analyses relative to separate analyses due to the increased amount of data. We also test the relative effects of multiple versus single calibration points, finding that when only single calibration points are employed, divergence dates are systematically underestimated. For the mtDNA data set, we investigate the effects of sampling density within the mouse lemur radiation (genus Microcebus). When only two representative species are included, estimated dates throughout the phylogeny are more recent than with the complete-species sample, with basal nodes less affected than recent nodes. The difference appears to be due to the manner in which priors on node ages are constructed in the two analyses. In nearly all analyses, the age of the lemuriform clade is estimated to be approximately 62 - 65 Ma, with initial radiation of mouse lemurs and true lemurs (genus Eulemur) occurring approximately 8 ? 12 Ma. The antiquity of the mouse lemur radiation is surprising given the near uniform morphology among species. Moreover, the observation that mouse lemurs and true lemurs are of similar ages suggests discrepancies in rates of morphological, behavioral, and physiological evolution in the two clades, particularly with regard to characteristics of sexual signaling. These differences appear to correlate with the nocturnal versus diurnal lifestyles, respectively, of these two primate groups.
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S1153
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref18230,
author = {Anne D Yoder and Ziheng Yang},
title = {Divergence dates for Malagasy lemurs estimated from multiple gene loci: geological and evolutionary context.},
year = {2004},
keywords = {},
doi = {},
url = {},
pmid = {},
journal = {Molecular Ecology},
volume = {13},
number = {},
pages = {757--773},
abstract = {The lemurs of Madagascar are a unique radiation of primates that show an extraordinary diversity of lifestyles, morphologies, and behaviors. Yet, very little is known about the relative antiquity of lemuriform clades due to the lack of terrestrial fossils for the Tertiary of Madagascar. Here, we employ a Bayesian method to estimate divergence dates within the lemuriform radiation, using several unlinked gene loci and multiple fossil calibrations outside of the lemuriform clade. Two mitochondrial genes (cytochrome oxidase II and cytochrome b), two nuclear introns (transthyretin intron 1 and von Willebrand factor gene intron 11), and one nuclear exon (interphotoreceptor retinoid binding protein, exon 1) are used in separate and combined analyses. The genes differ in taxon sampling and evolutionary characteristics but produce congruent date estimates. Credibility intervals narrow considerably in combined analyses relative to separate analyses due to the increased amount of data. We also test the relative effects of multiple versus single calibration points, finding that when only single calibration points are employed, divergence dates are systematically underestimated. For the mtDNA data set, we investigate the effects of sampling density within the mouse lemur radiation (genus Microcebus). When only two representative species are included, estimated dates throughout the phylogeny are more recent than with the complete-species sample, with basal nodes less affected than recent nodes. The difference appears to be due to the manner in which priors on node ages are constructed in the two analyses. In nearly all analyses, the age of the lemuriform clade is estimated to be approximately 62 - 65 Ma, with initial radiation of mouse lemurs and true lemurs (genus Eulemur) occurring approximately 8 ? 12 Ma. The antiquity of the mouse lemur radiation is surprising given the near uniform morphology among species. Moreover, the observation that mouse lemurs and true lemurs are of similar ages suggests discrepancies in rates of morphological, behavioral, and physiological evolution in the two clades, particularly with regard to characteristics of sexual signaling. These differences appear to correlate with the nocturnal versus diurnal lifestyles, respectively, of these two primate groups.}
}
- Show RIS reference
TY - JOUR
ID - 18230
AU - Yoder,Anne D
AU - Yang,Ziheng
T1 - Divergence dates for Malagasy lemurs estimated from multiple gene loci: geological and evolutionary context.
PY - 2004
UR -
N2 - The lemurs of Madagascar are a unique radiation of primates that show an extraordinary diversity of lifestyles, morphologies, and behaviors. Yet, very little is known about the relative antiquity of lemuriform clades due to the lack of terrestrial fossils for the Tertiary of Madagascar. Here, we employ a Bayesian method to estimate divergence dates within the lemuriform radiation, using several unlinked gene loci and multiple fossil calibrations outside of the lemuriform clade. Two mitochondrial genes (cytochrome oxidase II and cytochrome b), two nuclear introns (transthyretin intron 1 and von Willebrand factor gene intron 11), and one nuclear exon (interphotoreceptor retinoid binding protein, exon 1) are used in separate and combined analyses. The genes differ in taxon sampling and evolutionary characteristics but produce congruent date estimates. Credibility intervals narrow considerably in combined analyses relative to separate analyses due to the increased amount of data. We also test the relative effects of multiple versus single calibration points, finding that when only single calibration points are employed, divergence dates are systematically underestimated. For the mtDNA data set, we investigate the effects of sampling density within the mouse lemur radiation (genus Microcebus). When only two representative species are included, estimated dates throughout the phylogeny are more recent than with the complete-species sample, with basal nodes less affected than recent nodes. The difference appears to be due to the manner in which priors on node ages are constructed in the two analyses. In nearly all analyses, the age of the lemuriform clade is estimated to be approximately 62 - 65 Ma, with initial radiation of mouse lemurs and true lemurs (genus Eulemur) occurring approximately 8 ? 12 Ma. The antiquity of the mouse lemur radiation is surprising given the near uniform morphology among species. Moreover, the observation that mouse lemurs and true lemurs are of similar ages suggests discrepancies in rates of morphological, behavioral, and physiological evolution in the two clades, particularly with regard to characteristics of sexual signaling. These differences appear to correlate with the nocturnal versus diurnal lifestyles, respectively, of these two primate groups.
L3 -
JF - Molecular Ecology
VL - 13
IS -
SP - 757
EP - 773
ER -