taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03C38794FFEF080D53E4FAEFBF2DFB19.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038688/files/figure.png	http://doi.org/10.5281/zenodo.5038688	FIGURE 10. Isolated tooth (ML 939) of Richardoestesia aff. R. gilmorei in lingual (A), distal (B), labial (C), mesial (D), apical (F) and basal (G) views. Mid-crown denticles of the distal carina in labial (E, I) views, and enamel texture in lingual (H) view. Abbreviations: cs, concave surface; dca, distal carina; ent, enamel texture; esp, enamel spalling; ids, interdenticular sulcus; lad, labial depression; lgr, longitudinal groove.	FIGURE 10. Isolated tooth (ML 939) of Richardoestesia aff. R. gilmorei in lingual (A), distal (B), labial (C), mesial (D), apical (F) and basal (G) views. Mid-crown denticles of the distal carina in labial (E, I) views, and enamel texture in lingual (H) view. Abbreviations: cs, concave surface; dca, distal carina; ent, enamel texture; esp, enamel spalling; ids, interdenticular sulcus; lad, labial depression; lgr, longitudinal groove.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFEF080D53E4FAEFBF2DFB19.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038672/files/figure.png	http://doi.org/10.5281/zenodo.5038672	FIGURE 3. Isolated tooth (ML 327) of an Abelisauridae in lingual (A), mesial (B), labial (C), distal (D), apical (F), basal (G) and mesio-lingual (H) and labio-distal views. Apical denticles of the distal carina in labial view (E). Abbreviations: dca, distal carina; esp, enamel spalling; ids, interdenticular sulcus; idsp, interdenticular space; lgr, longitudinal groove; mca, mesial carina; tun, transversal undulation; wfa, wear facet.	FIGURE 3. Isolated tooth (ML 327) of an Abelisauridae in lingual (A), mesial (B), labial (C), distal (D), apical (F), basal (G) and mesio-lingual (H) and labio-distal views. Apical denticles of the distal carina in labial view (E). Abbreviations: dca, distal carina; esp, enamel spalling; ids, interdenticular sulcus; idsp, interdenticular space; lgr, longitudinal groove; mca, mesial carina; tun, transversal undulation; wfa, wear facet.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFEF080D53E4FAEFBF2DFB19.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038668/files/figure.png	http://doi.org/10.5281/zenodo.5038668	FIGURE 1. Strict consensus cladogram of seven most parsimonious trees recovered from analysis of dentition based characters. Initial analysis was a New Technology Search using TNT v.1.1 of a data matrix comprising 141 dentition-based characters for one outgroup (Eoraptor), 59 nonavian theropod taxa, as well as ML 327, ML 939, ML 962 and ML 966. Tree length = 703 steps; CI = 0.331; RI = 0.564. Bremer support values are in bold and bootstrap values are in italic. For silhouette attribution, see Appendix.	FIGURE 1. Strict consensus cladogram of seven most parsimonious trees recovered from analysis of dentition based characters. Initial analysis was a New Technology Search using TNT v.1.1 of a data matrix comprising 141 dentition-based characters for one outgroup (Eoraptor), 59 nonavian theropod taxa, as well as ML 327, ML 939, ML 962 and ML 966. Tree length = 703 steps; CI = 0.331; RI = 0.564. Bremer support values are in bold and bootstrap values are in italic. For silhouette attribution, see Appendix.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFEF080D53E4FAEFBF2DFB19.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038670/files/figure.png	http://doi.org/10.5281/zenodo.5038670	FIGURE 2. Strict consensus cladogram of 49 most parsimonious trees recovered from analysis of a supermatrix of 1972 discrete characters after the deletion of the two wildcard taxa Erectopus and Piatnitzkysaurus. The supermatrix includes a dentition-based datamatrix of 141 discrete characters and six recent datasets based on whole theropod skeleton (Xu et al. 2009; Brusatte et al. 2010; Martinez et al. 2011; Senter 2011; Pol and Rauhut 2012; Carrano et al. 2012). Initial analysis was a New Technology Search using TNT v.1.1 for one outgroup (Eoraptor), 57 non-avian theropod taxa and ML 327, ML 966, ML 939 (coded as lateral teeth), and ML 962 (coded as a mesialmost tooth). Tree length = 3552 steps; CI = 0.563; RI = 0.628. For silhouette attribution, see Appendix.	FIGURE 2. Strict consensus cladogram of 49 most parsimonious trees recovered from analysis of a supermatrix of 1972 discrete characters after the deletion of the two wildcard taxa Erectopus and Piatnitzkysaurus. The supermatrix includes a dentition-based datamatrix of 141 discrete characters and six recent datasets based on whole theropod skeleton (Xu et al. 2009; Brusatte et al. 2010; Martinez et al. 2011; Senter 2011; Pol and Rauhut 2012; Carrano et al. 2012). Initial analysis was a New Technology Search using TNT v.1.1 for one outgroup (Eoraptor), 57 non-avian theropod taxa and ML 327, ML 966, ML 939 (coded as lateral teeth), and ML 962 (coded as a mesialmost tooth). Tree length = 3552 steps; CI = 0.563; RI = 0.628. For silhouette attribution, see Appendix.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038672/files/figure.png	http://doi.org/10.5281/zenodo.5038672	FIGURE 3. Isolated tooth (ML 327) of an Abelisauridae in lingual (A), mesial (B), labial (C), distal (D), apical (F), basal (G) and mesio-lingual (H) and labio-distal views. Apical denticles of the distal carina in labial view (E). Abbreviations: dca, distal carina; esp, enamel spalling; ids, interdenticular sulcus; idsp, interdenticular space; lgr, longitudinal groove; mca, mesial carina; tun, transversal undulation; wfa, wear facet.	FIGURE 3. Isolated tooth (ML 327) of an Abelisauridae in lingual (A), mesial (B), labial (C), distal (D), apical (F), basal (G) and mesio-lingual (H) and labio-distal views. Apical denticles of the distal carina in labial view (E). Abbreviations: dca, distal carina; esp, enamel spalling; ids, interdenticular sulcus; idsp, interdenticular space; lgr, longitudinal groove; mca, mesial carina; tun, transversal undulation; wfa, wear facet.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038674/files/figure.png	http://doi.org/10.5281/zenodo.5038674	FIGURE 4. Isolated tooth (ML 966) of an Abelisauridae in lingual (A), mesial (B), labial (C), distal (D), apical (F), basal (G) and linguo-distal (H) views. Mid-crown denticles of the distal carina in lingual view (E, I). Abbreviations: dca, distal carina; esp, enamel spalling; ids, interdenticular sulcus; idsp, interdenticular space; lgr, longitudinal groove; mca, mesial carina; mun, marginal undulation; tun, transversal undulation.	FIGURE 4. Isolated tooth (ML 966) of an Abelisauridae in lingual (A), mesial (B), labial (C), distal (D), apical (F), basal (G) and linguo-distal (H) views. Mid-crown denticles of the distal carina in lingual view (E, I). Abbreviations: dca, distal carina; esp, enamel spalling; ids, interdenticular sulcus; idsp, interdenticular space; lgr, longitudinal groove; mca, mesial carina; mun, marginal undulation; tun, transversal undulation.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038676/files/figure.png	http://doi.org/10.5281/zenodo.5038676	FIGURE 5. Plots of CBR versus CHR of ML 962, ML 327, ML 966 and 23 theropod taxa comprising the data set. For reasons of clarity, only taxa with CBR of less than 1 were considered.	FIGURE 5. Plots of CBR versus CHR of ML 962, ML 327, ML 966 and 23 theropod taxa comprising the data set. For reasons of clarity, only taxa with CBR of less than 1 were considered.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038678/files/figure.png	http://doi.org/10.5281/zenodo.5038678	FIGURE 6. Plots of CHR versus DAVG of ML 962, ML 327, ML 966 and 21 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 20 denticles were considered.	FIGURE 6. Plots of CHR versus DAVG of ML 962, ML 327, ML 966 and 21 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 20 denticles were considered.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038680/files/figure.png	http://doi.org/10.5281/zenodo.5038680	FIGURE 7. Plots of MAVG versus DAVG of ML 962, ML 327, ML 966 and 19 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 20 denticles were considered.	FIGURE 7. Plots of MAVG versus DAVG of ML 962, ML 327, ML 966 and 19 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 20 denticles were considered.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038682/files/figure.png	http://doi.org/10.5281/zenodo.5038682	FIGURE 8. Plots of CBR versus DAVG of ML 962, ML 327, ML 966 and 21 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 22 denticles were considered.	FIGURE 8. Plots of CBR versus DAVG of ML 962, ML 327, ML 966 and 21 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 22 denticles were considered.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038668/files/figure.png	http://doi.org/10.5281/zenodo.5038668	FIGURE 1. Strict consensus cladogram of seven most parsimonious trees recovered from analysis of dentition based characters. Initial analysis was a New Technology Search using TNT v.1.1 of a data matrix comprising 141 dentition-based characters for one outgroup (Eoraptor), 59 nonavian theropod taxa, as well as ML 327, ML 939, ML 962 and ML 966. Tree length = 703 steps; CI = 0.331; RI = 0.564. Bremer support values are in bold and bootstrap values are in italic. For silhouette attribution, see Appendix.	FIGURE 1. Strict consensus cladogram of seven most parsimonious trees recovered from analysis of dentition based characters. Initial analysis was a New Technology Search using TNT v.1.1 of a data matrix comprising 141 dentition-based characters for one outgroup (Eoraptor), 59 nonavian theropod taxa, as well as ML 327, ML 939, ML 962 and ML 966. Tree length = 703 steps; CI = 0.331; RI = 0.564. Bremer support values are in bold and bootstrap values are in italic. For silhouette attribution, see Appendix.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038688/files/figure.png	http://doi.org/10.5281/zenodo.5038688	FIGURE 10. Isolated tooth (ML 939) of Richardoestesia aff. R. gilmorei in lingual (A), distal (B), labial (C), mesial (D), apical (F) and basal (G) views. Mid-crown denticles of the distal carina in labial (E, I) views, and enamel texture in lingual (H) view. Abbreviations: cs, concave surface; dca, distal carina; ent, enamel texture; esp, enamel spalling; ids, interdenticular sulcus; lad, labial depression; lgr, longitudinal groove.	FIGURE 10. Isolated tooth (ML 939) of Richardoestesia aff. R. gilmorei in lingual (A), distal (B), labial (C), mesial (D), apical (F) and basal (G) views. Mid-crown denticles of the distal carina in labial (E, I) views, and enamel texture in lingual (H) view. Abbreviations: cs, concave surface; dca, distal carina; ent, enamel texture; esp, enamel spalling; ids, interdenticular sulcus; lad, labial depression; lgr, longitudinal groove.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFFA080653E4FE8ABDAFF89D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038670/files/figure.png	http://doi.org/10.5281/zenodo.5038670	FIGURE 2. Strict consensus cladogram of 49 most parsimonious trees recovered from analysis of a supermatrix of 1972 discrete characters after the deletion of the two wildcard taxa Erectopus and Piatnitzkysaurus. The supermatrix includes a dentition-based datamatrix of 141 discrete characters and six recent datasets based on whole theropod skeleton (Xu et al. 2009; Brusatte et al. 2010; Martinez et al. 2011; Senter 2011; Pol and Rauhut 2012; Carrano et al. 2012). Initial analysis was a New Technology Search using TNT v.1.1 for one outgroup (Eoraptor), 57 non-avian theropod taxa and ML 327, ML 966, ML 939 (coded as lateral teeth), and ML 962 (coded as a mesialmost tooth). Tree length = 3552 steps; CI = 0.563; RI = 0.628. For silhouette attribution, see Appendix.	FIGURE 2. Strict consensus cladogram of 49 most parsimonious trees recovered from analysis of a supermatrix of 1972 discrete characters after the deletion of the two wildcard taxa Erectopus and Piatnitzkysaurus. The supermatrix includes a dentition-based datamatrix of 141 discrete characters and six recent datasets based on whole theropod skeleton (Xu et al. 2009; Brusatte et al. 2010; Martinez et al. 2011; Senter 2011; Pol and Rauhut 2012; Carrano et al. 2012). Initial analysis was a New Technology Search using TNT v.1.1 for one outgroup (Eoraptor), 57 non-avian theropod taxa and ML 327, ML 966, ML 939 (coded as lateral teeth), and ML 962 (coded as a mesialmost tooth). Tree length = 3552 steps; CI = 0.563; RI = 0.628. For silhouette attribution, see Appendix.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFE2080A53E4FE8AB978FC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038684/files/figure.png	http://doi.org/10.5281/zenodo.5038684	FIGURE 9. Isolated tooth of Torvosaurus tanneri (ML 962) in labial (A), distal (B), lingual (C), mesial (D) and basal (F) views. Apical denticles of the distal carina in labial view (E). Abbreviations: ce, cervix; dca, distal carina; idsp, interdenticular space; mca, mesial carina.	FIGURE 9. Isolated tooth of Torvosaurus tanneri (ML 962) in labial (A), distal (B), lingual (C), mesial (D) and basal (F) views. Apical denticles of the distal carina in labial view (E). Abbreviations: ce, cervix; dca, distal carina; idsp, interdenticular space; mca, mesial carina.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFE2080A53E4FE8AB978FC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038680/files/figure.png	http://doi.org/10.5281/zenodo.5038680	FIGURE 7. Plots of MAVG versus DAVG of ML 962, ML 327, ML 966 and 19 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 20 denticles were considered.	FIGURE 7. Plots of MAVG versus DAVG of ML 962, ML 327, ML 966 and 19 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 20 denticles were considered.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFE2080A53E4FE8AB978FC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038678/files/figure.png	http://doi.org/10.5281/zenodo.5038678	FIGURE 6. Plots of CHR versus DAVG of ML 962, ML 327, ML 966 and 21 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 20 denticles were considered.	FIGURE 6. Plots of CHR versus DAVG of ML 962, ML 327, ML 966 and 21 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 20 denticles were considered.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFE2080A53E4FE8AB978FC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038676/files/figure.png	http://doi.org/10.5281/zenodo.5038676	FIGURE 5. Plots of CBR versus CHR of ML 962, ML 327, ML 966 and 23 theropod taxa comprising the data set. For reasons of clarity, only taxa with CBR of less than 1 were considered.	FIGURE 5. Plots of CBR versus CHR of ML 962, ML 327, ML 966 and 23 theropod taxa comprising the data set. For reasons of clarity, only taxa with CBR of less than 1 were considered.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFE2080A53E4FE8AB978FC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038682/files/figure.png	http://doi.org/10.5281/zenodo.5038682	FIGURE 8. Plots of CBR versus DAVG of ML 962, ML 327, ML 966 and 21 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 22 denticles were considered.	FIGURE 8. Plots of CBR versus DAVG of ML 962, ML 327, ML 966 and 21 theropod taxa comprising the data set. For reasons of clarity, only taxa with serration of less than 22 denticles were considered.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFE2080A53E4FE8AB978FC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038668/files/figure.png	http://doi.org/10.5281/zenodo.5038668	FIGURE 1. Strict consensus cladogram of seven most parsimonious trees recovered from analysis of dentition based characters. Initial analysis was a New Technology Search using TNT v.1.1 of a data matrix comprising 141 dentition-based characters for one outgroup (Eoraptor), 59 nonavian theropod taxa, as well as ML 327, ML 939, ML 962 and ML 966. Tree length = 703 steps; CI = 0.331; RI = 0.564. Bremer support values are in bold and bootstrap values are in italic. For silhouette attribution, see Appendix.	FIGURE 1. Strict consensus cladogram of seven most parsimonious trees recovered from analysis of dentition based characters. Initial analysis was a New Technology Search using TNT v.1.1 of a data matrix comprising 141 dentition-based characters for one outgroup (Eoraptor), 59 nonavian theropod taxa, as well as ML 327, ML 939, ML 962 and ML 966. Tree length = 703 steps; CI = 0.331; RI = 0.564. Bremer support values are in bold and bootstrap values are in italic. For silhouette attribution, see Appendix.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFE2080A53E4FE8AB978FC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038670/files/figure.png	http://doi.org/10.5281/zenodo.5038670	FIGURE 2. Strict consensus cladogram of 49 most parsimonious trees recovered from analysis of a supermatrix of 1972 discrete characters after the deletion of the two wildcard taxa Erectopus and Piatnitzkysaurus. The supermatrix includes a dentition-based datamatrix of 141 discrete characters and six recent datasets based on whole theropod skeleton (Xu et al. 2009; Brusatte et al. 2010; Martinez et al. 2011; Senter 2011; Pol and Rauhut 2012; Carrano et al. 2012). Initial analysis was a New Technology Search using TNT v.1.1 for one outgroup (Eoraptor), 57 non-avian theropod taxa and ML 327, ML 966, ML 939 (coded as lateral teeth), and ML 962 (coded as a mesialmost tooth). Tree length = 3552 steps; CI = 0.563; RI = 0.628. For silhouette attribution, see Appendix.	FIGURE 2. Strict consensus cladogram of 49 most parsimonious trees recovered from analysis of a supermatrix of 1972 discrete characters after the deletion of the two wildcard taxa Erectopus and Piatnitzkysaurus. The supermatrix includes a dentition-based datamatrix of 141 discrete characters and six recent datasets based on whole theropod skeleton (Xu et al. 2009; Brusatte et al. 2010; Martinez et al. 2011; Senter 2011; Pol and Rauhut 2012; Carrano et al. 2012). Initial analysis was a New Technology Search using TNT v.1.1 for one outgroup (Eoraptor), 57 non-avian theropod taxa and ML 327, ML 966, ML 939 (coded as lateral teeth), and ML 962 (coded as a mesialmost tooth). Tree length = 3552 steps; CI = 0.563; RI = 0.628. For silhouette attribution, see Appendix.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
03C38794FFE2080A53E4FE8AB978FC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5038688/files/figure.png	http://doi.org/10.5281/zenodo.5038688	FIGURE 10. Isolated tooth (ML 939) of Richardoestesia aff. R. gilmorei in lingual (A), distal (B), labial (C), mesial (D), apical (F) and basal (G) views. Mid-crown denticles of the distal carina in labial (E, I) views, and enamel texture in lingual (H) view. Abbreviations: cs, concave surface; dca, distal carina; ent, enamel texture; esp, enamel spalling; ids, interdenticular sulcus; lad, labial depression; lgr, longitudinal groove.	FIGURE 10. Isolated tooth (ML 939) of Richardoestesia aff. R. gilmorei in lingual (A), distal (B), labial (C), mesial (D), apical (F) and basal (G) views. Mid-crown denticles of the distal carina in labial (E, I) views, and enamel texture in lingual (H) view. Abbreviations: cs, concave surface; dca, distal carina; ent, enamel texture; esp, enamel spalling; ids, interdenticular sulcus; lad, labial depression; lgr, longitudinal groove.	2014-01-30	Hendrickx, Christophe;Mateus, Octávio		Zenodo	biologists	Hendrickx, Christophe;Mateus, Octávio			
