taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
D174879BFFDC5F6EF795FE2469A60E41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17185178/files/figure.png	https://doi.org/10.5281/zenodo.17185178	Figure 1. Location of MGUAN-PA548.A, location map of Bentiaba (modified from: Strganac et al.2014; Fernandes et al. 2022). B, aerial view of Bentiaba area (modified from Google Earth Pro—23/01/2023; © 2023 Airbus, TerraMetrics, Data SIO, NOAA, U.S. Navy, NGA, GEBCO). C, stratigraphic section of the Bentiaba locality (modified from:Fernandes et al.2022). D, outcrop photography with car as scale, with numbers indicating bedding sequence.(photo by Octávio Mateus—12/07/2019). E. Hercoglossa sp. fragment—MGUAN-PA 716 in apertural and side views. F, shark teeth fragments: Cretalamna maroccana—MGUAN-PA 716 in lingual and labial views.G, Carcharias heathi—MGUAN-PA 718 in lingual and labial views. H, Chlamydoselachus gracilis—MGUAN-PA 717 in lingual and profile views.	Figure 1. Location of MGUAN-PA548.A, location map of Bentiaba (modified from: Strganac et al.2014; Fernandes et al. 2022). B, aerial view of Bentiaba area (modified from Google Earth Pro—23/01/2023; © 2023 Airbus, TerraMetrics, Data SIO, NOAA, U.S. Navy, NGA, GEBCO). C, stratigraphic section of the Bentiaba locality (modified from:Fernandes et al.2022). D, outcrop photography with car as scale, with numbers indicating bedding sequence.(photo by Octávio Mateus—12/07/2019). E. Hercoglossa sp. fragment—MGUAN-PA 716 in apertural and side views. F, shark teeth fragments: Cretalamna maroccana—MGUAN-PA 716 in lingual and labial views.G, Carcharias heathi—MGUAN-PA 718 in lingual and labial views. H, Chlamydoselachus gracilis—MGUAN-PA 717 in lingual and profile views.	2025-07-15	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio		Zenodo	biologists	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio			
D174879BFFDC5F6EF795FE2469A60E41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17185180/files/figure.png	https://doi.org/10.5281/zenodo.17185180	Figure 2. Cranial remains of MGUAN-PA548:superimposed on skull outline from Jouve et al.(2006) (A); the skull (photography and 3D model views): in posterior view (B), in dorsal view (C), in ventral view (D), in left lateral view (E); tooth in lingual view (F); part of the left ectopterygoid wing (G); (additional views of the specimen are available in the Supporting Information, Material S6, S7). Abbreviations: B, boss; bo, basioccipital; bsp, basisphenoid; cqc, cranioquadrate canal foramen; ect, ectopterygoid; ex, exoccipital; fm, foramen magnum; mef, median eustachian foramen; q, quadrate; qj, quadratojugal; oc, occipital condyle; ot, occipital tuberosity; pa, parietal; pop, paroccipital process; pt, pterygoid; so, supraoccipital; sq, squamosal; stf, supratemporal fenestra; IX, glossopharyngeal nerve; X, vagus nerve; XI, accessory nerve; XII, anterior and posterior bundles of hypoglossal nerve. Scale bar =10cm (A–D) and 1cm (E–G).	Figure 2. Cranial remains of MGUAN-PA548:superimposed on skull outline from Jouve et al.(2006) (A); the skull (photography and 3D model views): in posterior view (B), in dorsal view (C), in ventral view (D), in left lateral view (E); tooth in lingual view (F); part of the left ectopterygoid wing (G); (additional views of the specimen are available in the Supporting Information, Material S6, S7). Abbreviations: B, boss; bo, basioccipital; bsp, basisphenoid; cqc, cranioquadrate canal foramen; ect, ectopterygoid; ex, exoccipital; fm, foramen magnum; mef, median eustachian foramen; q, quadrate; qj, quadratojugal; oc, occipital condyle; ot, occipital tuberosity; pa, parietal; pop, paroccipital process; pt, pterygoid; so, supraoccipital; sq, squamosal; stf, supratemporal fenestra; IX, glossopharyngeal nerve; X, vagus nerve; XI, accessory nerve; XII, anterior and posterior bundles of hypoglossal nerve. Scale bar =10cm (A–D) and 1cm (E–G).	2025-07-15	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio		Zenodo	biologists	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio			
D174879BFFDC5F6EF795FE2469A60E41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17185184/files/figure.png	https://doi.org/10.5281/zenodo.17185184	Figure 3. Strict consensus tree of 336 most parsimonious trees of phylogenetic analysis on TNT (CI=0.385; RI=0.743; L=821.338) of Jouve et al.(2021) matrix with the addition of MGUAN-PA548.Branch supports are Bremer support, absolute bootstrap frequency and GC bootstrap frequency, with negative values between brackets.	Figure 3. Strict consensus tree of 336 most parsimonious trees of phylogenetic analysis on TNT (CI=0.385; RI=0.743; L=821.338) of Jouve et al.(2021) matrix with the addition of MGUAN-PA548.Branch supports are Bremer support, absolute bootstrap frequency and GC bootstrap frequency, with negative values between brackets.	2025-07-15	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio		Zenodo	biologists	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio			
D174879BFFDC5F6EF795FE2469A60E41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17185190/files/figure.png	https://doi.org/10.5281/zenodo.17185190	Figure 4. Tip-dated maximum compatibility tree (MCT) of the Bayesian clock analysis. Silhouette of Guarinisuchus munizi by Nobu Tamura, vectorized by Zimices available on PhyloPic.	Figure 4. Tip-dated maximum compatibility tree (MCT) of the Bayesian clock analysis. Silhouette of Guarinisuchus munizi by Nobu Tamura, vectorized by Zimices available on PhyloPic.	2025-07-15	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio		Zenodo	biologists	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio			
D174879BFFDC5F6EF795FE2469A60E41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17185197/files/figure.png	https://doi.org/10.5281/zenodo.17185197	Figure 5. Visualization of deviations from normality for each diversification parameter in the FBD model for the two time bins base on the Bayesian time-calibrated tree.	Figure 5. Visualization of deviations from normality for each diversification parameter in the FBD model for the two time bins base on the Bayesian time-calibrated tree.	2025-07-15	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio		Zenodo	biologists	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio			
D174879BFFDC5F6EF795FE2469A60E41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17185195/files/figure.png	https://doi.org/10.5281/zenodo.17185195	Figure 6. Visualization of posterior estimates for each diversification parameter in the FBD model for the two time bins base on the Bayesian time-calibrated tree.	Figure 6. Visualization of posterior estimates for each diversification parameter in the FBD model for the two time bins base on the Bayesian time-calibrated tree.	2025-07-15	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio		Zenodo	biologists	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio			
D174879BFFDC5F6EF795FE2469A60E41.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17185203/files/figure.png	https://doi.org/10.5281/zenodo.17185203	Figure 8.Paleogeographic distribution of dyrosaurid fossils localities from the Late Cretaceous. Map corresponds to the Maastrichtian stage (c. 70 Mya), based on Scotese et al.(2025) and modified according to Jouve and Rodríguez-Jiménez (2023).	Figure 8.Paleogeographic distribution of dyrosaurid fossils localities from the Late Cretaceous. Map corresponds to the Maastrichtian stage (c. 70 Mya), based on Scotese et al.(2025) and modified according to Jouve and Rodríguez-Jiménez (2023).	2025-07-15	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio		Zenodo	biologists	Maréchal, Arthur;Rotatori, Filippo Maria;Merella, Marco;Puértolas-Pascual, Eduardo;Sequero, Cristina;Pereira, Ricardo;Nsungani, Pedro;Mateus, Octávio			
