Establishing an accurate evolutionary timescale for green plants (Viridiplantae) is essential to understanding their interaction and coevolution with the Earth’s climate and the many organisms that rely on green plants. Despite being the focus of numerous studies, the timing of the origin of green plants and the divergence of major clades within this group remain highly controversial. Here, we infer the evolutionary timescale of green plants by analysing 81 protein-coding genes from 99 chloroplast genomes, using a core set of 21 fossil calibrations. We test the sensitivity of our divergence-time estimates to various components of Bayesian molecular dating, including the tree topology, clock models, clock-partitioning schemes, rate priors, a...
Gaps between molecular ages and fossils undermine the validity of time-calibrated molecular phylogen...
Age estimation from molecular sequences has emerged as a powerful tool for inferring when a plant li...
Gaps between molecular ages and fossils undermine the validity of time-calibrated molecular phylogen...
Establishing an accurate evolutionary timescale for green plants (Viridiplantae) is essential to und...
The evolutionary timescale of angiosperms has long been a key question in biology. Molecular estimat...
ORCiD: 0000-0002-3626-5460Establishing the timescale of early land plant evolution is essential for ...
The establishment of modern terrestrial life is indissociable from angiosperm evolution. While avail...
Gaps between molecular ages and fossils undermine the validity of time-calibrated molecular phylogen...
Although temporal calibration is widely recognized as critical for obtaining accurate divergence-tim...
Many questions in evolutionary biology require an estimate of divergence times but, for groups with ...
Establishing the timescale of early land plant evolution is essential for testing hypotheses on the ...
Although temporal calibration is widely recognized as critical for obtaining accurate divergence-tim...
A major concern in molecular clock dating is how to use information from the fossil record to calibr...
Although temporal calibration is widely recognized as critical for obtaining accurate divergence-tim...
Through the lens of the fossil record, angiosperm diversification precipitated a Cretaceous Terrestr...
Gaps between molecular ages and fossils undermine the validity of time-calibrated molecular phylogen...
Age estimation from molecular sequences has emerged as a powerful tool for inferring when a plant li...
Gaps between molecular ages and fossils undermine the validity of time-calibrated molecular phylogen...
Establishing an accurate evolutionary timescale for green plants (Viridiplantae) is essential to und...
The evolutionary timescale of angiosperms has long been a key question in biology. Molecular estimat...
ORCiD: 0000-0002-3626-5460Establishing the timescale of early land plant evolution is essential for ...
The establishment of modern terrestrial life is indissociable from angiosperm evolution. While avail...
Gaps between molecular ages and fossils undermine the validity of time-calibrated molecular phylogen...
Although temporal calibration is widely recognized as critical for obtaining accurate divergence-tim...
Many questions in evolutionary biology require an estimate of divergence times but, for groups with ...
Establishing the timescale of early land plant evolution is essential for testing hypotheses on the ...
Although temporal calibration is widely recognized as critical for obtaining accurate divergence-tim...
A major concern in molecular clock dating is how to use information from the fossil record to calibr...
Although temporal calibration is widely recognized as critical for obtaining accurate divergence-tim...
Through the lens of the fossil record, angiosperm diversification precipitated a Cretaceous Terrestr...
Gaps between molecular ages and fossils undermine the validity of time-calibrated molecular phylogen...
Age estimation from molecular sequences has emerged as a powerful tool for inferring when a plant li...
Gaps between molecular ages and fossils undermine the validity of time-calibrated molecular phylogen...