taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03B68780CF55102A18C3EEA7FB2FF882.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915068/files/figure.png	http://doi.org/10.5281/zenodo.4915068	FIGURE 2. Dorsal and ventral view of the holotype of Testudo subrufa Bonnaterre, 1789 (MNHN 7970, straight carapacial length 13.67 cm). Scale bar, 3 cm. Photos: M.D. Hofmeyr.	FIGURE 2. Dorsal and ventral view of the holotype of Testudo subrufa Bonnaterre, 1789 (MNHN 7970, straight carapacial length 13.67 cm). Scale bar, 3 cm. Photos: M.D. Hofmeyr.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF55102A18C3EEA7FB2FF882.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF56102418C3EC51FDFFF842.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915070/files/figure.png	http://doi.org/10.5281/zenodo.4915070	FIGURE 3. Top, left: Folio from Schoepff’s legacy (Museum für Naturkunde zu Berlin, Historische Bild- und Schriftgutsammlungen, SI, Nachl. Schoepff II) consisting of the drawings provided by Retzius and an imprint of the resultant etching. Retzius’ hand-written German text reads:	FIGURE 3. Top, left: Folio from Schoepff’s legacy (Museum für Naturkunde zu Berlin, Historische Bild- und Schriftgutsammlungen, SI, Nachl. Schoepff II) consisting of the drawings provided by Retzius and an imprint of the resultant etching. Retzius’ hand-written German text reads:	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF56102418C3EC51FDFFF842.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF59102518C3EBA1FD87FCDD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF59102518C3E8EBFEDAF9D1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915072/files/figure.png	http://doi.org/10.5281/zenodo.4915072	FIGURE 4. Dorsal and ventral view of the lectotype of Pentonyx capensis Duméril & Bibron, 1835 (MNHN 9506, male, straight carapacial length 23.45 cm). Scale bar, 3 cm. Photos: M.D. Hofmeyr.	FIGURE 4. Dorsal and ventral view of the lectotype of Pentonyx capensis Duméril & Bibron, 1835 (MNHN 9506, male, straight carapacial length 23.45 cm). Scale bar, 3 cm. Photos: M.D. Hofmeyr.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF59102518C3E8EBFEDAF9D1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF59102018C3EDFCFBBFFB03.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915074/files/figure.png	http://doi.org/10.5281/zenodo.4915074	FIGURE 5. Dorsal and ventral views of the lectotype of Pentonyx gehafie Rüppell, 1835 (SMF 7947, subadult female, straight carapacial length 11.42 cm; top) and of one of the paralectotypes in the Natural History Museum, London (BMNH 1947.3.5.78, adult male, straight carapacial length 16.70 cm; bottom). Scale bars, 3 cm. Photos: E. Morawa, P. Campbell.	FIGURE 5. Dorsal and ventral views of the lectotype of Pentonyx gehafie Rüppell, 1835 (SMF 7947, subadult female, straight carapacial length 11.42 cm; top) and of one of the paralectotypes in the Natural History Museum, London (BMNH 1947.3.5.78, adult male, straight carapacial length 16.70 cm; bottom). Scale bars, 3 cm. Photos: E. Morawa, P. Campbell.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF59102018C3EDFCFBBFFB03.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF5C102118C3EC72FEE6FD26.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915076/files/figure.png	http://doi.org/10.5281/zenodo.4915076	FIGURE 6. Dorsal and ventral views of the lectotype of Pelomedusa nigra Gray, 1863 (BMNH 1849.1.30.27, adult male, straight carapacial length 16.19 cm; top) and of the neotype of Pelomedusa gasconi Rochebrune, 1884 (ZFMK 17076, subadult female, straight carapacial length 11.18 cm; bottom). Scale bars, 3 cm. Photos: P. Campbell, A. Petzold.	FIGURE 6. Dorsal and ventral views of the lectotype of Pelomedusa nigra Gray, 1863 (BMNH 1849.1.30.27, adult male, straight carapacial length 16.19 cm; top) and of the neotype of Pelomedusa gasconi Rochebrune, 1884 (ZFMK 17076, subadult female, straight carapacial length 11.18 cm; bottom). Scale bars, 3 cm. Photos: P. Campbell, A. Petzold.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF5C102118C3EC72FEE6FD26.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF5D102118C3E9E1FEE6FAF0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915076/files/figure.png	http://doi.org/10.5281/zenodo.4915076	FIGURE 6. Dorsal and ventral views of the lectotype of Pelomedusa nigra Gray, 1863 (BMNH 1849.1.30.27, adult male, straight carapacial length 16.19 cm; top) and of the neotype of Pelomedusa gasconi Rochebrune, 1884 (ZFMK 17076, subadult female, straight carapacial length 11.18 cm; bottom). Scale bars, 3 cm. Photos: P. Campbell, A. Petzold.	FIGURE 6. Dorsal and ventral views of the lectotype of Pelomedusa nigra Gray, 1863 (BMNH 1849.1.30.27, adult male, straight carapacial length 16.19 cm; top) and of the neotype of Pelomedusa gasconi Rochebrune, 1884 (ZFMK 17076, subadult female, straight carapacial length 11.18 cm; bottom). Scale bars, 3 cm. Photos: P. Campbell, A. Petzold.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF5D102118C3E9E1FEE6FAF0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF5E102218C3E81AFBDFFA61.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915078/files/figure.png	http://doi.org/10.5281/zenodo.4915078	FIGURE 7. Dorsal and ventral views of the lectotype of Pelomedusa galeata damarensis Hewitt, 1935 (PEM R14953, adult male, straight carapacial length 14.0 cm; top) and of the holotype of Pelomedusa galeata devilliersi Hewitt, 1935 (PEM R14962, adult female, straight carapacial length 19.24 cm; bottom). Scale bars, 3 cm. Photos: W.R. Branch.	FIGURE 7. Dorsal and ventral views of the lectotype of Pelomedusa galeata damarensis Hewitt, 1935 (PEM R14953, adult male, straight carapacial length 14.0 cm; top) and of the holotype of Pelomedusa galeata devilliersi Hewitt, 1935 (PEM R14962, adult female, straight carapacial length 19.24 cm; bottom). Scale bars, 3 cm. Photos: W.R. Branch.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF5E102218C3E81AFBDFFA61.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF5E102218C3ED32FA5AF80D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915078/files/figure.png	http://doi.org/10.5281/zenodo.4915078	FIGURE 7. Dorsal and ventral views of the lectotype of Pelomedusa galeata damarensis Hewitt, 1935 (PEM R14953, adult male, straight carapacial length 14.0 cm; top) and of the holotype of Pelomedusa galeata devilliersi Hewitt, 1935 (PEM R14962, adult female, straight carapacial length 19.24 cm; bottom). Scale bars, 3 cm. Photos: W.R. Branch.	FIGURE 7. Dorsal and ventral views of the lectotype of Pelomedusa galeata damarensis Hewitt, 1935 (PEM R14953, adult male, straight carapacial length 14.0 cm; top) and of the holotype of Pelomedusa galeata devilliersi Hewitt, 1935 (PEM R14962, adult female, straight carapacial length 19.24 cm; bottom). Scale bars, 3 cm. Photos: W.R. Branch.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF5E102218C3ED32FA5AF80D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF42103E18C3EBA1FD66FD95.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915080/files/figure.png	http://doi.org/10.5281/zenodo.4915080	FIGURE 8. Dorsal and ventral view of the holotype of Pelomedusa subrufa wettsteini Mertens, 1937 (SMF 7958, adult male, straight carapacial length 12.26 cm). Scale bar, 3 cm. Photos: E. Morawa.	FIGURE 8. Dorsal and ventral view of the holotype of Pelomedusa subrufa wettsteini Mertens, 1937 (SMF 7958, adult male, straight carapacial length 12.26 cm). Scale bar, 3 cm. Photos: E. Morawa.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
03B68780CF42103E18C3EBA1FD66FD95.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4915066/files/figure.png	http://doi.org/10.5281/zenodo.4915066	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	FIGURE 1. Maximum Likelihood tree for Pelomedusa, based on 1848 bp of mitochondrial DNA (12S, cyt b, ND4+tRNAs), rooted with Pelusios sinuatus. The tree topology completely matches the one inferred by Bayesian analyses. Numbers along nodes indicate bootstrap support and Bayesian posterior probabilities greater than 50 or 0.95, respectively (not shown for some terminal clades with short branches). Sample codes are voucher numbers; see Table S1 for explanation. Name-bearing types (red) and paralectotypes or topotypic samples (blue) highlighted. On the right, mitochondrial lineages of Vargas-Ramírez et al. (2010) indicated. No topotypic material of Pelomedusa galeata orangensis Hewitt, 1935 could be sequenced. However, the lost holotype is thought to come from the vicinity of Kimberley (South Africa) and all South African samples belong to lineage IX, so it can be concluded that Pelomedusa galeata orangensis represents the same lineage. Inset: Helmeted terrapin from the Addo Elephant National Park, South Africa. Photo: M. Gregorič.	2014-05-15	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.		Zenodo	biologists	Fritz, Uwe;Petzold, Alice;Kehlmaier, Christian;Kindler, Carolin;Campbell, Patrick;Hofmeyr, Margaretha D.;Branch, William R.			
