Add to ORKGDivergence-time estimation based on molecular phylogenies and the fossil record has provided insights into fundamental questions of evolutionary biology. In Bayesian node dating, phylogenies are commonly time calibrated through the specification of calibration densities on nodes representing clades with known fossil occurrences. Unfortunately, the optimal shape of these calibration densities is usually unknown and they are therefore often chosen arbitrarily, which directly impacts the reliability of the resulting age estimates. As possible solutions to this problem, two nonexclusive alternative approaches have recently been developed, the "fossilized birth-death” (FBD) model and "total-evidence dating.” While these approaches have been show...
Cichlid fishes are a key model system in the study of adaptive radiation, speciation and evolutionar...
The importance of palaeontological data in divergence time estimation has increased with the introdu...
The total-evidence approach to divergence time dating uses molecular and morphological data from ext...
Divergence-time estimation based on molecular phylogenies and the fossil record has provided insight...
Divergence-time estimation based on molecular phylogenies and the fossil record has provided insight...
Fossil information is essential for estimating species divergence times, and can be integrated into ...
Time-calibrated phylogenies based on molecular data provide a framework for comparative studies. Cal...
Time calibrated trees are challenging to estimate for many extinct groups of species due to the inco...
Evolutionary timescales can be inferred by molecular-clock analyses of genetic data and fossil evide...
Molecular divergence time analyses often rely on the age of fossil lineages to calibrate node age es...
Molecular divergence time analyses often rely on the age of fossil lineages to calibrate node age es...
Timescales are of fundamental importance to evolutionary biology as they facilitate hypothesis tests...
Cichlid fishes are a key model system in the study of adaptive radiation, speciation and evolutionar...
The fossilized birth–death (FBD) model allows the estimation of species divergence times from molecu...
Estimating divergence times on phylogenies is critical in paleontological and neontological studies....
Cichlid fishes are a key model system in the study of adaptive radiation, speciation and evolutionar...
The importance of palaeontological data in divergence time estimation has increased with the introdu...
The total-evidence approach to divergence time dating uses molecular and morphological data from ext...
Divergence-time estimation based on molecular phylogenies and the fossil record has provided insight...
Divergence-time estimation based on molecular phylogenies and the fossil record has provided insight...
Fossil information is essential for estimating species divergence times, and can be integrated into ...
Time-calibrated phylogenies based on molecular data provide a framework for comparative studies. Cal...
Time calibrated trees are challenging to estimate for many extinct groups of species due to the inco...
Evolutionary timescales can be inferred by molecular-clock analyses of genetic data and fossil evide...
Molecular divergence time analyses often rely on the age of fossil lineages to calibrate node age es...
Molecular divergence time analyses often rely on the age of fossil lineages to calibrate node age es...
Timescales are of fundamental importance to evolutionary biology as they facilitate hypothesis tests...
Cichlid fishes are a key model system in the study of adaptive radiation, speciation and evolutionar...
The fossilized birth–death (FBD) model allows the estimation of species divergence times from molecu...
Estimating divergence times on phylogenies is critical in paleontological and neontological studies....
Cichlid fishes are a key model system in the study of adaptive radiation, speciation and evolutionar...
The importance of palaeontological data in divergence time estimation has increased with the introdu...
The total-evidence approach to divergence time dating uses molecular and morphological data from ext...