<p>Tree topology, estimated likelihood, log-likelihood differences and <i>P</i>-values for alternative topologies tested (χ<sup>2</sup>-test). L<sub>max</sub>: Maximum likelihood topology; L<sub>α</sub>: Likelihood of topology α.</p
<p>Tree topologies are ordered by decreasing likelihoods (shown as Rank).−Ln, negative log-likelihoo...
The Swofford–Olsen–Waddell–Hillis (SOWH) test evaluates statistical support for incongruent phylogen...
The most frequent measure of phylogenetic uncertainty for splits is bootstrap support. Although larg...
Abstract.—Likelihood-based statistical tests of competing evolutionary hypotheses (tree topolo-gies)...
<p>Significant differences (<i>p</i><0.05) between the best unconstrained and constrained topologies...
<p>The p-values denote the probability that the best ML topology is equivalent to the alternative to...
†<p>Comparisons are based on the trees inferred by the maximum likelihood (ML) and Bayesian inferenc...
<p>Tree topologies are ordered by decreasing likelihoods (shown as Rank).−Ln, negative log-likelihoo...
<p>Tree topologies are ordered by decreasing likelihoods (shown as Rank).−Ln, negative log-likelihoo...
<p>Results of tests comparing tree topologies presented in <a href="http://www.plosone.org/article/i...
Abstract.—The Swofford–Olsen–Waddell–Hillis (SOWH) test evaluates statistical support for incongruen...
Results of Bayesian tests of topology carried out in MrBayes. Subfolder names correspond to alternat...
Abstract.—Probabilistic tests of topology offer apowerfulmeansof evaluating competing phylogenetic h...
Abstract.—The Swofford–Olsen–Waddell–Hillis (SOWH) test evaluates statistical support for incongruen...
<p>Values are the likelihood score (-ln L) of a given data set across its own ML tree (boldface), as...
<p>Tree topologies are ordered by decreasing likelihoods (shown as Rank).−Ln, negative log-likelihoo...
The Swofford–Olsen–Waddell–Hillis (SOWH) test evaluates statistical support for incongruent phylogen...
The most frequent measure of phylogenetic uncertainty for splits is bootstrap support. Although larg...
Abstract.—Likelihood-based statistical tests of competing evolutionary hypotheses (tree topolo-gies)...
<p>Significant differences (<i>p</i><0.05) between the best unconstrained and constrained topologies...
<p>The p-values denote the probability that the best ML topology is equivalent to the alternative to...
†<p>Comparisons are based on the trees inferred by the maximum likelihood (ML) and Bayesian inferenc...
<p>Tree topologies are ordered by decreasing likelihoods (shown as Rank).−Ln, negative log-likelihoo...
<p>Tree topologies are ordered by decreasing likelihoods (shown as Rank).−Ln, negative log-likelihoo...
<p>Results of tests comparing tree topologies presented in <a href="http://www.plosone.org/article/i...
Abstract.—The Swofford–Olsen–Waddell–Hillis (SOWH) test evaluates statistical support for incongruen...
Results of Bayesian tests of topology carried out in MrBayes. Subfolder names correspond to alternat...
Abstract.—Probabilistic tests of topology offer apowerfulmeansof evaluating competing phylogenetic h...
Abstract.—The Swofford–Olsen–Waddell–Hillis (SOWH) test evaluates statistical support for incongruen...
<p>Values are the likelihood score (-ln L) of a given data set across its own ML tree (boldface), as...
<p>Tree topologies are ordered by decreasing likelihoods (shown as Rank).−Ln, negative log-likelihoo...
The Swofford–Olsen–Waddell–Hillis (SOWH) test evaluates statistical support for incongruent phylogen...
The most frequent measure of phylogenetic uncertainty for splits is bootstrap support. Although larg...
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