Osteological atlas of new lizards from the Phosphorites du Quercy (France), based on historical, forgotten, fossil material Author Georgalis, Georgios L. Palaeontological Institute and Museum, University of Zurich, Karl Schmid-Strasse 4, 8006 Zurich (Switzerland) and Department of Ecology, Laboratory of Evolutionary Biology, Faculty of Natural Sciences, Comenius University in Bratislava, Mlynská dolina, 84215 Bratislava (Slovakia) and Department of Earth Sciences, University of Torino, Via Valperga Caluso 35, 10125 Turin (Italy) georgios.georgalis@pim.uzh.ch Author Čerňanský, Andrej Department of Ecology, Laboratory of Evolutionary Biology, Faculty of Natural Sciences, Comenius University in Bratislava, Mlynská dolina, 84215 Bratislava (Slovakia) Author Klembara, Jozef Department of Ecology, Laboratory of Evolutionary Biology, Faculty of Natural Sciences, Comenius University in Bratislava, Mlynská dolina, 84215 Bratislava (Slovakia) text Geodiversitas 2021 2021-04-22 43 9 219 293 journal article 7175 10.5252/geodiversitas2021v43a9 04426a8e-c179-4af0-8e23-d72908e8b4cc 1638-9395 4720776 urn:lsid:zoobank.org:pub:11D0D852-39D7-449C-9EB3-C3D804114556 Melanosaurini indet. ( Figs 30-32 ) REFERRED SPECIMENS. — Four presacral vertebrae ( NHMW 2019/0094/0001- NHMW 2019/0094/0003 and NHMW 2019/0094/0005); one sacral vertebra ( NHMW 2019/0094/0004). DESCRIPTION Presacral vertebrae ( Figs 30 ; 31 ) In all specimens, the centrum is significantly anteriorly widened ( Figs 30 ; 31 ). Their size varies, with centrum lengths ranging between 6 and 9.4 mm ( Appendix 1 ). There is a distinct and rather wide groove in the ventral surface of the centrum, originating anteriorly almost at the level of the cotyle and terminating posteriorly at around the level of the condyle, being almost uniform in wideness across its length. The prezygapophyses are strongly dorsally inclined in anterior view. Both cotyle and condyle are strongly dorsoventrally compressed. The neural spine, when preserved, develops mostly at the posterior half of the neural arch, however, its base extends anteriorly in the shape of a narrow longitudinal ridge until the anterior most edge of the neural arch. The height of the neural spine varies, being either high (NHMW 2019/0094/0002) or rather short (NHMW 2019/0094/0001).In one specimen (NHMW 2019/0094/0001), the posterior edge of the neural spine (as seen in dorsal view) is bifurcated. The postzygapophyses are large and extend much laterally in dorsal view. The neural canal is relatively large and triangular in shape. The shape of the neural arch in posterior view varies, apparently depending on the exact position of the vertebra in the column; as such it can be either depressed (e.g., NHMW 2019/0094/0005 and NHMW 2019/0094/0003) or relatively vaulted (e.g., NHMW 2019/0094/0002). FIG. 25. — Paraplacosauriops quercyi (Filhol,1882) .Photographs of right dentary NHMW 2019/0049/0001 in lateral ( A ),medial ( B ),and dorsal ( C ) views.Scale bar:5 mm. Sacral vertebra NHMW 2019/0094/0004 ( Fig. 32 ) The sacral vertebra NHMW 2019/0094/0004 is rather similar to the above described presacral ones, especially at the degree of the anterior widening of its centrum, the dorsally inclined prezygapophyses, and the much dorsoventrally compressed cotyle and condyle ( Fig. 32 ). The prezygapophyses are robust. The postzygapophyses are short and do not extend significantly laterally. The neural spine is high, and is mostly developed and augmenting in height in the posterior half of the neural arch. The neural arch is moderately vaulted in posterior view. Subcentral foramina are present.Two distinct foramina, each situated between each prezygapophysis, are present above the cotyle, a structure herein defined as “anocotylar” foramina (see Remarks below). Interestingly also, this specimen is pierced by distinct foramina in the dorsal surface of its neural arch. REMARKS The referral of this vertebral material to Melanosaurini is made primarily on the basis of the much anteriorly widened centrum than in other glyptosaurines, similar to that observed for the North American Melanosaurus maximus Gilmore, 1928 , and, to a lesser degree, Paraplacosauriops from the Eocene of Europe (see figures in Gilmore 1928 and Augé 2003, 2005). One other important difference between NHMW 2019/0094/0001 (but not the other melanosaurine vertebrae from our collection) and the above ones referred to Placosaurus is that the former possess much more massive postzygapophyses that extend more prominently laterally in dorsal view. A plausible taxonomic scenario could be that these specimens pertain to Paraplacosauriops quercyi described above from cranial material, however, on the absence of articulated specimens and the imprecisely known locality Meckel’s groove FIG. 26. — Paraplacosauriops quercyi (Filhol, 1882) . Virtual 3D models of right dentary NHMW 2019/0049/0001 in lateral ( A ), dorsal ( B ), medial ( C ), and ventromedial ( D ) views. Scale bar: 5 mm. data (including the fact that the material was probably collected from different localities), we refrain from referring them to the same taxon. The presence of two distinct foramina above the cotyle of the sacral vertebra, a feature also prominent in several presacral vertebrae of Palaeovaranus (see below), is interesting. We acknowledge the presence of these structures in large-sized vertebrae of extant specimens of the anguid Pseudopus Merrem, 1820 , and the varanid Varanus Merrem, 1820 . We consider that their presence is widespread in large-sized anguimorphs and is apparently correlated with large size; we define these structures as “anocotylar foramina”, from the Greek words “ἄνω” (“ano”), meaning “above” and “κότυλος” (“cotylos”), meaning “cup”, in a similar trend of the term “paracotylar foramina”, which applies in snake vertebrae terminology. The potential taxonomic utility of anocotylar foramina needs to be further investigated in the light of detailed quantitative analyses on extant forms, as well as articulated fossil specimens.