Figure S14. Ancestral state reconstruction of viviparity for Phrynosomatidae from HiSSE model-averaged across all tested models. Colored circles at tips and nodes indicate the states of species and probability that ancestors were oviparous (black) or viviparous (white). The legend in the lower left shows the range of rates, as well as the distribution of rates across the tree (upper histogram) and the frequency of tips in each state (lower bars)
<p>Ancestral states were estimated from a phylogenetic mixed model for each node and then plotted as...
To understand evolutionary transformations it is necessary to identify the character states of extin...
Fig. 18. Bayesian ancestral state reconstruction (ASR) of the sphragis in Pteronymia conducted in BE...
Figure S10. Ancestral state reconstruction of viviparity for Scincoidea from HiSSE model-averaged ac...
Figure S12. Ancestral state reconstruction of viviparity for Viperidae from HiSSE model-averaged acr...
Figure S9. Ancestral state reconstruction of viviparity for Squamata with from HiSSE model-averaged ...
Figure S11. Ancestral state reconstruction of viviparity for Serpentes from HiSSE model-averaged acr...
Figure S13. Ancestral state reconstruction of viviparity for Anguimorpha from HiSSE model-averaged a...
Figure S15. Ancestral state reconstruction of viviparity for Liolaemidae using the corrected samplin...
Figure S2. Ancestral state reconstruction of viviparity for Liolaemidae using the uncorrected sample...
Figure S7. Ancestral state reconstruction of gekkotan toepads from HiSSE using the BiSSE-like model....
Figure S8. Ancestral state reconstruction of gekkotan toepads from HiSSE model-averaged across all t...
<p>Ancestral states were estimated from the phylogenetic mixed model for each node and then plotted ...
FIG. S18. Ancestral state reconstruction for the character: “Relation between the width of the appen...
The binary-state speciation and extinction (BiSSE) model has been used in many instances to identify...
<p>Ancestral states were estimated from a phylogenetic mixed model for each node and then plotted as...
To understand evolutionary transformations it is necessary to identify the character states of extin...
Fig. 18. Bayesian ancestral state reconstruction (ASR) of the sphragis in Pteronymia conducted in BE...
Figure S10. Ancestral state reconstruction of viviparity for Scincoidea from HiSSE model-averaged ac...
Figure S12. Ancestral state reconstruction of viviparity for Viperidae from HiSSE model-averaged acr...
Figure S9. Ancestral state reconstruction of viviparity for Squamata with from HiSSE model-averaged ...
Figure S11. Ancestral state reconstruction of viviparity for Serpentes from HiSSE model-averaged acr...
Figure S13. Ancestral state reconstruction of viviparity for Anguimorpha from HiSSE model-averaged a...
Figure S15. Ancestral state reconstruction of viviparity for Liolaemidae using the corrected samplin...
Figure S2. Ancestral state reconstruction of viviparity for Liolaemidae using the uncorrected sample...
Figure S7. Ancestral state reconstruction of gekkotan toepads from HiSSE using the BiSSE-like model....
Figure S8. Ancestral state reconstruction of gekkotan toepads from HiSSE model-averaged across all t...
<p>Ancestral states were estimated from the phylogenetic mixed model for each node and then plotted ...
FIG. S18. Ancestral state reconstruction for the character: “Relation between the width of the appen...
The binary-state speciation and extinction (BiSSE) model has been used in many instances to identify...
<p>Ancestral states were estimated from a phylogenetic mixed model for each node and then plotted as...
To understand evolutionary transformations it is necessary to identify the character states of extin...
Fig. 18. Bayesian ancestral state reconstruction (ASR) of the sphragis in Pteronymia conducted in BE...
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