In recent years, ancient DNA has increasingly been used for estimating molecular timescales, particularly in studies of substitution rates and demographic histories. Molecular clocks can be calibrated using temporal information from ancient DNA sequences. This information comes from the ages of the ancient samples, which can be estimated by radiocarbon dating the source material or by dating the layers in which the material was deposited. Both methods involve sources of uncertainty. The performance of Bayesian phylogenetic inference depends on the information content of the data set, which includes variation in the DNA sequences and the structure of the sample ages. Various sources of estimation error can reduce our ability to estimate rate...
Molecular sequence data provide information about relative times only, and fossil-based age constrai...
Evolutionary timescales can be inferred by molecular-clock analyses of genetic data and fossil evide...
Radiocarbon dating is the gold standard in archeology to estimate the age of skeletons, a key to stu...
This work aims to explore the use of genetic sequences sampled serially through time (heterochronous...
BACKGROUND: Phylogenetic analysis of DNA from modern and ancient samples allows the reconstruction o...
Heterochronous data sets comprise molecular sequences sampled at different points in time. If the te...
Ancient DNA sequences are able to offer valuable insights into molecular evolutionary processes, whi...
Heterochronous data sets comprise molecular sequences sampled at different points in time. If the te...
Ancient DNA sequences are able to offer valuable insights into molecular evolutionary processes, whi...
The increasing ability to extract and sequence DNA from non-contemporaneous tissue offers biologists...
Molecular dating of phylogenetic trees is a growing discipline using sequence data to co-estimate th...
Molecular dating analyses allow evolutionary timescales to be estimated from genetic data, offering ...
Phylogenetic estimates of evolutionary timescales can be obtained from nucleotide sequence data usin...
Molecular sequence data provide information about relative times only, and fossil-based age constrai...
Molecular sequence data provide information about relative times only, and fossil-based age constrai...
Molecular sequence data provide information about relative times only, and fossil-based age constrai...
Evolutionary timescales can be inferred by molecular-clock analyses of genetic data and fossil evide...
Radiocarbon dating is the gold standard in archeology to estimate the age of skeletons, a key to stu...
This work aims to explore the use of genetic sequences sampled serially through time (heterochronous...
BACKGROUND: Phylogenetic analysis of DNA from modern and ancient samples allows the reconstruction o...
Heterochronous data sets comprise molecular sequences sampled at different points in time. If the te...
Ancient DNA sequences are able to offer valuable insights into molecular evolutionary processes, whi...
Heterochronous data sets comprise molecular sequences sampled at different points in time. If the te...
Ancient DNA sequences are able to offer valuable insights into molecular evolutionary processes, whi...
The increasing ability to extract and sequence DNA from non-contemporaneous tissue offers biologists...
Molecular dating of phylogenetic trees is a growing discipline using sequence data to co-estimate th...
Molecular dating analyses allow evolutionary timescales to be estimated from genetic data, offering ...
Phylogenetic estimates of evolutionary timescales can be obtained from nucleotide sequence data usin...
Molecular sequence data provide information about relative times only, and fossil-based age constrai...
Molecular sequence data provide information about relative times only, and fossil-based age constrai...
Molecular sequence data provide information about relative times only, and fossil-based age constrai...
Evolutionary timescales can be inferred by molecular-clock analyses of genetic data and fossil evide...
Radiocarbon dating is the gold standard in archeology to estimate the age of skeletons, a key to stu...