taxonID	type	description	language	source
F73F2FB4C6095069B77B62FB2EEBA30D.taxon	description	Description. Cranium (MAP- 9029) (Figs 2, 3). MAP- 9029 consist of the posterior half of the skull roof including a fragment of the right prefrontal, both frontals, both postorbitals, both squamosals, the parietal, the supraoccipital, and a possible fragment of the left paroccipital process (Figs 2, 3). The dorsal surface is slightly eroded and exhibits some cortical remodelling (Figs 2 A, 3 A). Perhaps for these reasons, sutures between elements are barely visible. Two small and open supratemporal fenestrae are present (Figs 2, 3 A – D). Lateral temporal fenestrae presumably are large. Ventrally it is strongly eroded including almost all the braincase (Figs 2, 3). Each element of the cranium will be described individually below. — Prefrontal. A small fragment of the right prefrontal can be observed in posteromedially contact to the frontal (Figs 2, 3 A – D). The suture with the frontal is barely visible (Figs 2, 3 B). Its surface is flat and smooth (Figs 2 A, 3 A). Presumably, the non-preserved supraorbitals would exclude the prefrontal (also the frontal) from the orbital rim similar to that in other stegosaurs (e. g., Sereno and Dong 1992; Galton and Upchurch 2004; Salgado et al. 2017; Maidment et al. 2018; pers. obs. [NHMUK PV R 36730]). — Frontal. Both frontals are present and they are longer than wide (Figs 2 A, 3 A, B) similar to that in S. stenops (Galton and Upchurch 2004; pers. obs. [NHMUK PV R 36730]). Their surfaces are flat and the sagittal suture between them is straight and slightly convex (Figs 2 A, 3 A, B). The suture with postorbitals and parietal is barely visible in dorsal view (Figs 2 A, 3 A, B). — Postorbital. Both almost complete postorbitals are preserved and they form the anterolateral margins of the supratemporal fenestrae (Figs 2, 3 A – D). The medial process is flat, broad and sutured to the frontal and parietal (excluding the frontal from the anteromedial margin of the supratemporal fenestra) (Figs 2, 3 A – D) similar to that in S. stenops (Galton and Upchurch 2004; pers. obs. [NHMUK PV R 36730]). The posterior process is slender and D-shaped in cross-section with a convex dorsal surface and a flattened ventral surface (Figs 2, 3 A – D). The posterior process is in contact to the squamosal (Figs 2, 3 A – D). The right postorbital preserves the most proximal part of the ventral process (Figs 2 B, 3 C) and dorsally in this area the postorbital is bulbous and exhibits a very small horn-like protuberance (Figs 2 A, 3 A). It is different from the bigger and more medially located protuberance of H. taibaii (Sereno and Dong 1992). — Squamosal. Both squamosals are present and triradiate (Figs 2, 3). They form the posterior margin of the supratemporal fenestrae and are in contact with the postorbital, parietal, and occiput (Figs 2, 3). The anterior process is short (Figs 2, 3 A – D) and in the left squamosal it can be seen to underlap the postorbital (Figs 2 B, C). The posterior process is well-developed and horn-like (Figs 2, 3). In dorsal and ventral views, the lateral margin between posterior processes of postorbital and squamosal is concave (Figs 2, 3 A – D). — Parietal. The parietal forms the medial margin of the supratemporal fenestrae (Figs 2, 3 A – D). It is sub-square in dorsal view and its dorsal surface is convex with a straight and pronounced sagittal crest (Figs 2 A, 3 A, B) similar to that in T. multispinus (Dong et al. 1983). Distinct breaks in slope separate the dorsal surface from the lateral surfaces and the occiput (Figs 2, 3 A – D). — Occiput. The upper-most part of the occiput is preserved and sutures between elements cannot be observed (Fig. 3 E, F). The surface of the supraoccipital is smooth and there is not a dorsoventral ridge (Figs 2 A, 3 E, F) similar to that in K. aethiopicus (Galton 1988). The supraoccipital is obliquely oriented with an angle greater than 90 ° with the dorsal plane of the skull roof (Figs 2, 3 A – D). A possible fragment of the left paroccipital process is preserved (Fig. 3 E, F). Cervical vertebra (MAP- 9030) (Fig. 4). MAP- 9030 is an almost complete mid cervical vertebra (Fig. 4). It is distorted and the anterior-most part is missing; therefore, some features and measurements must be considered cautiously. The centrum is presumably amphicoelous (Fig. 4 C) and longer than wide and tall (File S 1 [table S 1]). The articular facets are wider than tall (File S 1 [table S 1]) and heart-shaped (Fig. 4 A, C). Smooth concentric ridges are present in the surface of the posterior articular facet (Fig. 4 C). Laterally, the parapophyses are located in the anterior margin and the upper half of the centrum (Fig. 4 A, B, E). The ventral surface is smooth and concave due to the distortion (Fig. 4 E). In general, the neural arch is anteroposteriorly elongated and dorsally short (Fig. 4 A – D). The neural canal is large and suboval (Fig. 4 A, C). Regarding the prezygapophyses, only the posterior-most region is preserved and located below the postzygapophyses (Fig. 4 A, B, D). The diapophyses arise on the neural arch ventral to the prezygapophyses (Fig. 4 A – C). Both cervical ribs are preserved and fused to the parapophyses and diapophyses of the vertebra (Fig. 4) similar to that in D. armatus (Casanovas-Cladellas et al. 1995; Galton 1991; Mateus et al. 2009; Cobos et al. 2010; Costa and Mateus 2019; pers. obs. [ML 433 and CO specimen]), although only the left one is well-preserved (Fig. 4 B). The left cervical rib is posteriorly directed, medially curved, notably overhang the centrum and has a blunt and round tip (Fig. 4 B, D, E). The postzygapophyses are finger-like and extend beyond the posterior articular facet of the centrum (Fig. 4 B – D). This differs from the greatly elongated postzygapophyses of S. stenops (Ostrom and McIntosh 1966; Escaso et al. 2007 a; Maidment et al. 2015). Their articular facets are lateroventrally directed and oval in outline (Fig. 4 B, C). Dorsally, two spinopostzygapophyseal laminae are well-visible, wide, and extending anterolaterally from the top of the postzygapophyses to both sides of the base of the neural spine and culminate on its anterior margin (Fig. 4 D). This condition is shared with D. armatus (Mateus et al. 2009; Costa and Mateus 2019; pers. obs. [ML 433 and CO specimen]), but not with other stegosaurs (Ostrom and McIntosh 1966; Maidment et al. 2015; 2018; 2020; pers. obs. [NHMUK PV R 37367 and NHMUK PV R 37368]). The neural spine is located in the anterior half of the vertebra (Fig. 4 B) and it is short and slightly transversely expanded (Fig. 4 A, C) similar to that in D. armatus (Casanovas-Cladellas et al. 1995; Mateus et al. 2009; Costa and Mateus 2019; pers. obs. [ML 433 and CO specimen]). However, it is in the posterior half of the centrum (Gilmore 1914; Hennig 1925; Ostrom and McIntosh 1966; Dong et al. 1983; Zhou 1984; Galton 1990; Carpenter et al. 2001; Escaso et al. 2007 a; Jia et al. 2007; Maidment et al. 2015; 2018) or in both halves (Maidment et al. 2020; pers. obs. [NHMUK PV R 37367 and NHMUK PV R 37368]) in other stegosaurian species.	en	Sánchez-Fenollosa, Sergio, Cobos, Alberto (2025): New insights into the phylogeny and skull evolution of stegosaurian dinosaurs: An extraordinary cranium from the European Late Jurassic (Dinosauria: Stegosauria). Vertebrate Zoology 75: 147-171, DOI: 10.3897/vz.75.e146618
E7FCADDAEA1351BC8651E4F710575D6C.taxon	etymology	Etymology. Derived from ‘ neo- ’ (Greek), meaning new. And from the clade name Stegosauria.	en	Sánchez-Fenollosa, Sergio, Cobos, Alberto (2025): New insights into the phylogeny and skull evolution of stegosaurian dinosaurs: An extraordinary cranium from the European Late Jurassic (Dinosauria: Stegosauria). Vertebrate Zoology 75: 147-171, DOI: 10.3897/vz.75.e146618
