A simple method for estimating informative node age priors for the fossil calibration of molecular divergence time analyses
about
Biogeographic calibrations for the molecular clockEcological opportunity and the evolution of habitat preferences in an arid-zone bird: implications for speciation in a climate-modified landscapeThe Antarctic Circumpolar Current as a diversification trigger for deep-sea octocoralsReorganization of sea urchin gene regulatory networks at least 268 million years ago as revealed by oldest fossil cidaroid echinoidDynamic evolutionary change in post-Paleozoic echinoids and the importance of scale when interpreting changes in rates of evolutionBayesian estimation of speciation and extinction from incomplete fossil occurrence dataThe fossilized birth-death process for coherent calibration of divergence-time estimatesBeyond fossil calibrations: realities of molecular clock practices in evolutionary biologyRecently evolved diversity and convergent radiations of rainforest mahoganies (Meliaceae) shed new light on the origins of rainforest hyperdiversity.Molecular-clock methods for estimating evolutionary rates and timescales.Bayesian Phylogenetic Estimation of Clade Ages Supports Trans-Atlantic Dispersal of Cichlid Fishes.Taxonomy and Phylogeny Can Yield Comparable Results in Comparative Paleontological Analyses.Deflating trees: improving Bayesian branch-length estimates using informed priors.Geomolecular Dating and the Origin of Placental Mammals.Puzzling rocks and complicated clocks: how to optimize molecular dating approaches in historical phytogeography.Testing the molecular clock using mechanistic models of fossil preservation and molecular evolution.
P2860
Q26786387-CA98EE47-C60E-4157-88AA-C9C6640D33C4Q28602030-455F49CD-39DD-46B0-9656-A5ED3C502BE7Q28603253-2BDAFC94-5F30-459B-82F8-8CFE24DA6E04Q28608646-FB94285C-0A7A-47D1-8F57-D1CEE0620402Q28651088-0F3EA156-1106-4967-9F03-BACA16F66D9FQ28652301-999F0785-3DF3-42FF-9644-47F57CFF99BAQ28655088-ACA879BE-CA4C-4509-A08D-AA8201CB94BBQ28659294-714BADA0-18EF-4617-8180-A0AF79E9A2E5Q34670477-27ACF89D-BE22-4A8C-8D87-22A8A558B847Q38257608-20BB1CAB-E78B-459F-BA34-B89243F05EF5Q38973779-8DC3292D-2EAF-40E5-82A6-6BCC60F279A7Q41169033-F44DDCB5-33F6-4650-AA3E-2E31D7E63CBFQ41572657-CDDF9E2B-62C0-45D2-B225-03071BEB932FQ46625043-C4F03719-3FED-4BDF-B2A2-DE41BC7C1C71Q46671923-B34C35C1-189D-4C20-B644-68A5BDF94168Q51198151-DE04D076-A3CB-40E2-A854-C03B6B583DA9
P2860
A simple method for estimating informative node age priors for the fossil calibration of molecular divergence time analyses
description
2013 nî lūn-bûn
@nan
2013 թուականին հրատարակուած գիտական յօդուած
@hyw
2013 թվականին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
A simple method for estimating ...... cular divergence time analyses
@ast
A simple method for estimating ...... cular divergence time analyses
@en
A simple method for estimating ...... cular divergence time analyses
@nl
type
label
A simple method for estimating ...... cular divergence time analyses
@ast
A simple method for estimating ...... cular divergence time analyses
@en
A simple method for estimating ...... cular divergence time analyses
@nl
prefLabel
A simple method for estimating ...... cular divergence time analyses
@ast
A simple method for estimating ...... cular divergence time analyses
@en
A simple method for estimating ...... cular divergence time analyses
@nl
P2860
P1433
P1476
A simple method for estimating ...... cular divergence time analyses
@en
P2093
Andrew B Smith
Derrick J Zwickl
P2860
P304
P356
10.1371/JOURNAL.PONE.0066245
P407
P577
2013-06-05T00:00:00Z