taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03A3878BFFB13F16FEE9008E5395F8A8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7846323/files/figure.png	https://doi.org/10.5281/zenodo.7846323	Figure 5. Neighbour-joining tree constructed based on maximum likelihood distances from 1503 alignable nucleotide sites (the HKY model and transition/transversion ratio of 3.48). The tree was rooted with Chamaeleo africanus as an outgroup. Bootstrap probabilities are shown for neighbour joining, maximum likelihood and maximum parsimony analyses (from left to right). Underlined values mean that the branch was not reconstructed in the best tree topology by the corresponding analyses. Note that two distinct sequence haplotypes are included for Uromastyx acanthinura and U. ocellata. See Material and methods for more details on the analytical conditions. The nucleotide sequences taken from the database are: Chamaeleo africanus (accession No., AF448743), Chlamydosaurus kingii (AF128469), Physignathus lesueurii (AF128463), Acanthosoura capra (AF128498), Salea horsfieldii (AF128490), Trapelus savignii (AF128512), Leiolepis guentherpetersi (AF128461), Leiolepis belliana (U82689), Laudakia caucasia (AF028681) and Laudakia lehmanni (AF028677).	Figure 5. Neighbour-joining tree constructed based on maximum likelihood distances from 1503 alignable nucleotide sites (the HKY model and transition/transversion ratio of 3.48). The tree was rooted with Chamaeleo africanus as an outgroup. Bootstrap probabilities are shown for neighbour joining, maximum likelihood and maximum parsimony analyses (from left to right). Underlined values mean that the branch was not reconstructed in the best tree topology by the corresponding analyses. Note that two distinct sequence haplotypes are included for Uromastyx acanthinura and U. ocellata. See Material and methods for more details on the analytical conditions. The nucleotide sequences taken from the database are: Chamaeleo africanus (accession No., AF448743), Chlamydosaurus kingii (AF128469), Physignathus lesueurii (AF128463), Acanthosoura capra (AF128498), Salea horsfieldii (AF128490), Trapelus savignii (AF128512), Leiolepis guentherpetersi (AF128461), Leiolepis belliana (U82689), Laudakia caucasia (AF028681) and Laudakia lehmanni (AF028677).	2004-08-16	Amer, Sayed A. M.;Kumazawa, Yoshinori		Zenodo	biologists	Amer, Sayed A. M.;Kumazawa, Yoshinori			
03A3878BFFB13F16FEE9008E5395F8A8.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7846325/files/figure.png	https://doi.org/10.5281/zenodo.7846325	Figure 6. Hypothetical radiation schemes for Uromastyx and possibly relevant geological events. Approximate distribution range for each taxon (Wilms, 2001) is shown with its abbreviated name: Hard (Uromastyx hardwickii), Aca (U. acanthinura), Mali (U. d. maliensis), Gey (U. geyri), Dis (U. d. dispar), Oce (U. ocellata), Mac (U. macfadyeni), Aeg (U. a. aegyptia), Mic (U. a. microlepis), Orn (U. ornata) and Ben (U. benti).	Figure 6. Hypothetical radiation schemes for Uromastyx and possibly relevant geological events. Approximate distribution range for each taxon (Wilms, 2001) is shown with its abbreviated name: Hard (Uromastyx hardwickii), Aca (U. acanthinura), Mali (U. d. maliensis), Gey (U. geyri), Dis (U. d. dispar), Oce (U. ocellata), Mac (U. macfadyeni), Aeg (U. a. aegyptia), Mic (U. a. microlepis), Orn (U. ornata) and Ben (U. benti).	2004-08-16	Amer, Sayed A. M.;Kumazawa, Yoshinori		Zenodo	biologists	Amer, Sayed A. M.;Kumazawa, Yoshinori			
