taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
4D5AAC6FFF83FFE2BD5D71E5786EF82D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17187274/files/figure.png	https://doi.org/10.5281/zenodo.17187274	Figure 1. Phylogenetic relationships of the subfamily Ecpleopodinae inferred from a concatenated dataset of six genes (four mtDNA and two nuDNA genes; 3112 bp) using Bayesian inference.Statistical supports for both BI (PP) and ML (BP) analyses are provided in % at nodes (see key, upper left inset). Photograph by PJRK (Yanomamia testigensis).	Figure 1. Phylogenetic relationships of the subfamily Ecpleopodinae inferred from a concatenated dataset of six genes (four mtDNA and two nuDNA genes; 3112 bp) using Bayesian inference.Statistical supports for both BI (PP) and ML (BP) analyses are provided in % at nodes (see key, upper left inset). Photograph by PJRK (Yanomamia testigensis).	2025-06-14	Kok, Philippe J. R.;Fouquet, Antoine;Carvajal, Omar Torres;Means, D. Bruce;Rodrigues, Miguel Trefaut		Zenodo	biologists	Kok, Philippe J. R.;Fouquet, Antoine;Carvajal, Omar Torres;Means, D. Bruce;Rodrigues, Miguel Trefaut			
4D5AAC6FFF83FFE2BD5D71E5786EF82D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17187276/files/figure.png	https://doi.org/10.5281/zenodo.17187276	Figure 2. Spatial distribution of Yanomamia testigensis (left), and phylogenetic relationships of the genus inferred from a concatenated dataset of six genes (four mtDNA and two nuDNA genes; 3112 bp) using Bayesian inference (right). Statistical supports for both BI (PP) and ML (BP) analyses are provided in % at nodes (see key, lower left inset). Photograph by PJRK (Yanomamia testigensis).	Figure 2. Spatial distribution of Yanomamia testigensis (left), and phylogenetic relationships of the genus inferred from a concatenated dataset of six genes (four mtDNA and two nuDNA genes; 3112 bp) using Bayesian inference (right). Statistical supports for both BI (PP) and ML (BP) analyses are provided in % at nodes (see key, lower left inset). Photograph by PJRK (Yanomamia testigensis).	2025-06-14	Kok, Philippe J. R.;Fouquet, Antoine;Carvajal, Omar Torres;Means, D. Bruce;Rodrigues, Miguel Trefaut		Zenodo	biologists	Kok, Philippe J. R.;Fouquet, Antoine;Carvajal, Omar Torres;Means, D. Bruce;Rodrigues, Miguel Trefaut			
4D5AAC6FFF83FFE2BD5D71E5786EF82D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17187282/files/figure.png	https://doi.org/10.5281/zenodo.17187282	Figure 3. Phylogenetic relationships of the genus Arthrosaura s.s. (i.e. excluding Ar.kockii) inferred from a concatenated dataset of six genes (four mtDNA and two nuDNA genes; 3112 bp) using Bayesian inference (reduced dataset, see text). Statistical supports for both BI (PP) and ML (BP) analyses are provided in % at nodes (see key, lower left inset).Photograph by PJRK (Arthrosaura montigena).	Figure 3. Phylogenetic relationships of the genus Arthrosaura s.s. (i.e. excluding Ar.kockii) inferred from a concatenated dataset of six genes (four mtDNA and two nuDNA genes; 3112 bp) using Bayesian inference (reduced dataset, see text). Statistical supports for both BI (PP) and ML (BP) analyses are provided in % at nodes (see key, lower left inset).Photograph by PJRK (Arthrosaura montigena).	2025-06-14	Kok, Philippe J. R.;Fouquet, Antoine;Carvajal, Omar Torres;Means, D. Bruce;Rodrigues, Miguel Trefaut		Zenodo	biologists	Kok, Philippe J. R.;Fouquet, Antoine;Carvajal, Omar Torres;Means, D. Bruce;Rodrigues, Miguel Trefaut			
4D5AAC6FFF83FFE2BD5D71E5786EF82D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17187286/files/figure.png	https://doi.org/10.5281/zenodo.17187286	Figure 4. Spatial distribution of our molecular sampling and recovered clades in the genus Arthrosaura. No molecular data are available for Ar. synaptolepis and Ar.tyleri (depicted by red and blue triangles, respectively), and we report them in the map for clarity (geographical distributions are based on: Burt and Burt 1931, Donnelly et al. 1992, Kok 2008). The yellow-shaded area depicts the distribution of ‘Arthrosaura’ kockii (Doan and Ouboter 2019); the dark-grey line depicts the distribution of Ar. reticulata as reported before our study (Calderón et al.2019); the dark-blue lines outlined by white highlight major watercourses that seemingly impact the geographical distribution of the clades; and the dotted dark-red line corresponds to the Guiana Shield limits according to Gibbs and Barron (1993).	Figure 4. Spatial distribution of our molecular sampling and recovered clades in the genus Arthrosaura. No molecular data are available for Ar. synaptolepis and Ar.tyleri (depicted by red and blue triangles, respectively), and we report them in the map for clarity (geographical distributions are based on: Burt and Burt 1931, Donnelly et al. 1992, Kok 2008). The yellow-shaded area depicts the distribution of ‘Arthrosaura’ kockii (Doan and Ouboter 2019); the dark-grey line depicts the distribution of Ar. reticulata as reported before our study (Calderón et al.2019); the dark-blue lines outlined by white highlight major watercourses that seemingly impact the geographical distribution of the clades; and the dotted dark-red line corresponds to the Guiana Shield limits according to Gibbs and Barron (1993).	2025-06-14	Kok, Philippe J. R.;Fouquet, Antoine;Carvajal, Omar Torres;Means, D. Bruce;Rodrigues, Miguel Trefaut		Zenodo	biologists	Kok, Philippe J. R.;Fouquet, Antoine;Carvajal, Omar Torres;Means, D. Bruce;Rodrigues, Miguel Trefaut			
