taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
E4F6BA83076F5F0F8892DFF8EF66EE97.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489814		Figure 3. Bayesian phylogenetic tree (16 S) of 16 S haplotypes from Mexican Scincella species. In bold, the new individuals from this study; the geographic provenience of each individual is reported in brackets.	Figure 3. Bayesian phylogenetic tree (16 S) of 16 S haplotypes from Mexican Scincella species. In bold, the new individuals from this study; the geographic provenience of each individual is reported in brackets.	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
57E57C57EE355FA8894430EBCE22BC73.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489815		Figure 4. TCS network of MT-CYTB haplotypes of Phyllodactylus tuberculosus species group. The colors refer to the 11 lineages reported by Blair et al. (2015) for this species complex. The lineage " A 11 " and the new specimens here analysed are indicated (see text for further explanation).	Figure 4. TCS network of MT-CYTB haplotypes of Phyllodactylus tuberculosus species group. The colors refer to the 11 lineages reported by Blair et al. (2015) for this species complex. The lineage " A 11 " and the new specimens here analysed are indicated (see text for further explanation).	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
57E57C57EE355FA8894430EBCE22BC73.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489816		Figure 5. Karyotypes of A Phyllodactylus sp. 3 (2 n = 38, RCMX 69 male) B Holcosus festivus (2 n = 50, RCMX 224 female) C Holcosus undulatus parvus (2 n = 50, RCMX 77 female) D Aspidoscelis deppii (2 n = 52, RCMX 76 female).	Figure 5. Karyotypes of A Phyllodactylus sp. 3 (2 n = 38, RCMX 69 male) B Holcosus festivus (2 n = 50, RCMX 224 female) C Holcosus undulatus parvus (2 n = 50, RCMX 77 female) D Aspidoscelis deppii (2 n = 52, RCMX 76 female).	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
5FD2D56549CA520A8893A256103BB18E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489817		Figure 6. Bayesian phylogenetic tree (A) and TCS network (B) of 16 S haplotypes belonging to Lepidophyma flavimaculatum. The colors refer to the geographic provenience of individuals. In bold, the new specimens from this study.	Figure 6. Bayesian phylogenetic tree (A) and TCS network (B) of 16 S haplotypes belonging to Lepidophyma flavimaculatum. The colors refer to the geographic provenience of individuals. In bold, the new specimens from this study.	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
5FD2D56549CA520A8893A256103BB18E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489818		Figure 7. The karyotype of Lepidophyma flavimaculatum (2 n = 38, RCMX 208 male).	Figure 7. The karyotype of Lepidophyma flavimaculatum (2 n = 38, RCMX 208 male).	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
29B057ABB74B5E95B291DD8EF1196893.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489816		Figure 5. Karyotypes of A Phyllodactylus sp. 3 (2 n = 38, RCMX 69 male) B Holcosus festivus (2 n = 50, RCMX 224 female) C Holcosus undulatus parvus (2 n = 50, RCMX 77 female) D Aspidoscelis deppii (2 n = 52, RCMX 76 female).	Figure 5. Karyotypes of A Phyllodactylus sp. 3 (2 n = 38, RCMX 69 male) B Holcosus festivus (2 n = 50, RCMX 224 female) C Holcosus undulatus parvus (2 n = 50, RCMX 77 female) D Aspidoscelis deppii (2 n = 52, RCMX 76 female).	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
57DE0A77BA6E54F6977B312D7FD880C4.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489816		Figure 5. Karyotypes of A Phyllodactylus sp. 3 (2 n = 38, RCMX 69 male) B Holcosus festivus (2 n = 50, RCMX 224 female) C Holcosus undulatus parvus (2 n = 50, RCMX 77 female) D Aspidoscelis deppii (2 n = 52, RCMX 76 female).	Figure 5. Karyotypes of A Phyllodactylus sp. 3 (2 n = 38, RCMX 69 male) B Holcosus festivus (2 n = 50, RCMX 224 female) C Holcosus undulatus parvus (2 n = 50, RCMX 77 female) D Aspidoscelis deppii (2 n = 52, RCMX 76 female).	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
DC7459736A68510DBC36981770173E98.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489816		Figure 5. Karyotypes of A Phyllodactylus sp. 3 (2 n = 38, RCMX 69 male) B Holcosus festivus (2 n = 50, RCMX 224 female) C Holcosus undulatus parvus (2 n = 50, RCMX 77 female) D Aspidoscelis deppii (2 n = 52, RCMX 76 female).	Figure 5. Karyotypes of A Phyllodactylus sp. 3 (2 n = 38, RCMX 69 male) B Holcosus festivus (2 n = 50, RCMX 224 female) C Holcosus undulatus parvus (2 n = 50, RCMX 77 female) D Aspidoscelis deppii (2 n = 52, RCMX 76 female).	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
1B49C98707F85979A9C0F3C8470037CE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489817		Figure 6. Bayesian phylogenetic tree (A) and TCS network (B) of 16 S haplotypes belonging to Lepidophyma flavimaculatum. The colors refer to the geographic provenience of individuals. In bold, the new specimens from this study.	Figure 6. Bayesian phylogenetic tree (A) and TCS network (B) of 16 S haplotypes belonging to Lepidophyma flavimaculatum. The colors refer to the geographic provenience of individuals. In bold, the new specimens from this study.	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
E6EB7EE3D6EA5011A01C0105A36A2ABE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489819		Figure 8. Karyotypes of A Anolis capito (2 n = 40, RCMX 218 female) B Anolis lemurinus (2 n = 40, RCMX 214 male) and C Anolis uniformis (2 n = 50, RCMX 210 male) with YX 1 X 2 sex chromosomes; in the box the X 1 X 1 X 2 X 2 (RCMX 206 female) sex chromosomes.	Figure 8. Karyotypes of A Anolis capito (2 n = 40, RCMX 218 female) B Anolis lemurinus (2 n = 40, RCMX 214 male) and C Anolis uniformis (2 n = 50, RCMX 210 male) with YX 1 X 2 sex chromosomes; in the box the X 1 X 1 X 2 X 2 (RCMX 206 female) sex chromosomes.	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
3067A92E261E5C7FBDCFD2F37C86D53F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/489819		Figure 8. Karyotypes of A Anolis capito (2 n = 40, RCMX 218 female) B Anolis lemurinus (2 n = 40, RCMX 214 male) and C Anolis uniformis (2 n = 50, RCMX 210 male) with YX 1 X 2 sex chromosomes; in the box the X 1 X 1 X 2 X 2 (RCMX 206 female) sex chromosomes.	Figure 8. Karyotypes of A Anolis capito (2 n = 40, RCMX 218 female) B Anolis lemurinus (2 n = 40, RCMX 214 male) and C Anolis uniformis (2 n = 50, RCMX 210 male) with YX 1 X 2 sex chromosomes; in the box the X 1 X 1 X 2 X 2 (RCMX 206 female) sex chromosomes.	2020-12-22	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela		Zenodo	biologists	Castiglia, Riccardo;Flores-Villela, Oscar Alberto;Bezerra, Alexandra M. R.;Gornung, Ekaterina;Annesi, Flavia;Munoz-Alonso, Luis Antonio;Solano, Emanuela			
