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3. Oldest record of Machimosaurini (Thalattosuchia, Teleosauroidea): teeth and scavenging traces from the Middle Jurassic (Bajocian) of Switzerland

Author

Scheyer, Torsten M; https://orcid.org/0000-0002-6301-8983, Johnson, Michela M; https://orcid.org/0000-0002-0066-737X, Bastiaans, Dylan; https://orcid.org/0000-0002-3096-2062, Miedema, Feiko; https://orcid.org/0000-0002-6888-3546, Maxwell, Erin E; https://orcid.org/0000-0002-6032-6251, Klug, Christian; https://orcid.org/0000-0002-4099-7453, Scheyer, Torsten M; https://orcid.org/0000-0002-6301-8983, Johnson, Michela M; https://orcid.org/0000-0002-0066-737X, Bastiaans, Dylan; https://orcid.org/0000-0002-3096-2062, Miedema, Feiko; https://orcid.org/0000-0002-6888-3546, Maxwell, Erin E; https://orcid.org/0000-0002-6032-6251, and Klug, Christian; https://orcid.org/0000-0002-4099-7453

Abstract

The Jurassic period was a time of major diversification for Mesozoic marine reptiles, including Ichthyosauria, Plesiosauria and thalattosuchian Crocodylomorpha. The latter originated in the Early Jurassic and thrived during the Late Jurassic. Unfortunately, the Middle Jurassic, a crucial time in their evolution, has a poor fossil record. Here, we document the first evidence of macrophagous/durophagous Machimosaurini-tribe teleosauroid thalattosuchians from the late Bajocian (ca 169 Ma) in the form of three robust tooth crowns with conical blunt shapes and anastomosed pattern of thick enamel ridges towards the apex, associated with the skeleton of a large ichthyosaur lacking preserved tooth crowns. The tooth crowns were found on the posterior section of the lower jaw (left angular), a lacrimal and the axis neural arch of the ichthyosaur. In addition, some of the distal sections of the posterior dorsal ribs of the ichthyosaur skeleton exhibit rounded bite marks and some elongated furrows that fit in size and shape with the Machimosaurini teeth. These marks, together with the absence of healing in the rib bone are interpreted here as the indicators of peri- to post-mortem scavenging by a Machimosaurini teleosauroid after the large ichthyosaur carcass settled on the floor of a shallow ocean.

Published
2024

4. The history, systematics, and nomenclature of Thalattosuchia (Archosauria: Crocodylomorpha)

Author

Young, Mark T, primary, Wilberg, Eric W, additional, Johnson, Michela M, additional, Herrera, Yanina, additional, de Andrade, Marco Brandalise, additional, Brignon, Arnaud, additional, Sachs, Sven, additional, Abel, Pascal, additional, Foffa, Davide, additional, Fernández, Marta S, additional, Vignaud, Patrick, additional, Cowgill, Thomas, additional, and Brusatte, Stephen L, additional

Published
2024
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9. Thalattosuchus superciliosus Young & Brignon & Sachs & Hornung & Foffa & Kitson & Johnson & Steel 2021

Author

Young, Mark T., Brignon, Arnaud, Sachs, Sven, Hornung, Jahn J., Foffa, Davide, Kitson, James J. N., Johnson, Michela M., and Steel, Lorna

Subjects
Crocodylia, Thalattosuchus, Animalia, Metriorhynchidae, Thalattosuchus superciliosus, Biodiversity, Taxonomy
Abstract

THALATTOSUCHUS SUPERCILIOSUS (BLAINVILLE IN EUDES- DESLONGCHAMPS, 1852) GEN. & COMB. NOV. (FIG. 6) v 1808 Espèce inconnue de crocodile – Cuvier, pp. 90–92, pl. 11, figs 1, 2. [partim] v 1824 Tête à museau plus court – Cuvier, pp. 152–153, pl. 8, figs 1, 2. [partim] v 1825 Steneosaurus rostro -minor [sic] sp. nov. – Geoffroy Saint-Hilaire, pp. 147, 149. [nomen oblitum] v 1832 Streptospondylus altfordensis sp. nov. – von Meyer, p. 106. [partim] Table 6 Continued e, Estimate. * The anterior four alveoli of MNHN.F RJN 116 are not preserved. v 1837 Metriorhynchus geoffroyi [sic] von Meyer – Bronn, 1835 –37, p. 520, pl. 26, fig. 7b [partim] v* 1852 Crocodilus superciliosus sp. nov. – Blainville in J.-A. Eudes-Deslongchamps, p. 114. v 1863 Teleosaurus superciliosus (Blainville) comb. nov. – J.-A. Eudes-Deslongchamps, p. 8. v 1867 Teleosaurus superciliosus (Blainville) – J.-A. Eudes- Deslongchamps, pp. 20–21. v 1867 Teleosaurus blainvillei sp. nov. – J.-A. Eudes- Deslongchamps, pp. 19–20. v 1869 Metriorhynchus superciliosus (Blainville) comb.nov. – Eudes- Deslongchamps,1867–69, p. 306, pl. 20, fig.2, pl. 21, fig. 1. v 1869 Metriorhynchus blainvillei (E-Deslongchamps) comb. nov. – Eudes-Deslongchamps, 1867 –69, p. 295, pl. 20 fig. 1, pl. 21, figs 2, 3. v 1869 Metriorhynchus moreli sp. nov. – Eudes-Deslongchamps, 1867 –69, p. 320, pl. 21, figs 4, 5, pl. 22, figs 1, 2. v 1869 Steneosaurus dasyceps sp. nov. – Seeley, p. 140. v 1890 b Metriorhynchus superciliosum (Blainville) unjust. emend. – Lydekker, p. 232. v 1904 Metriorhynchus jaekeli sp. nov. – Schmidt, p. 97, pls 11, 12. v 1973 Metriorhynchus superciliosum [sic] (Blainville) – Steel, p. 45, figs 18 (7, 9), 19 (7). v 1973 Metriorhynchus blainvillei (Eudes-Deslongchamps) – Steel, p. 46, fig. 19 (2). v 1973 Metriorhynchus moreli (Eudes-Deslongchamps) – Steel, p. 46, fig. 19 (1). v 2009 Metriorhynchus moreli (Eudes-Deslongchamps) – Young & Andrade, p. 566. v 2009 Metriorhynchus superciliosus (Blainville) – Young & Andrade, p. 566. v 2010 Metriorhynchus superciliosus (Blainville) – Young et al., p. 804, figs 4, 6, 8. v 2018 Metriorhynchus superciliosus (Blainville) – Brignon, pp. 56–61, fig. 11. Lectotype: MNHN.F.RJN 256, incomplete skull. (Designation by Eudes-Deslongchamps, 1867 –69: 310). Note: Young et al. (2013) followed Vignaud (1995) in calling MNHN.F. RJN 256 (formerly MNHN 8903) the neotype. As shown by Brignon (2018a), it is in fact the lectotype. Type locality: Vaches Noires cliffs, Département du Calvados, Basse-Normandie, France. Type horizon: Either the Marnes de Dives Formation or Marnes de Villers Formation. Either upper Callovian or lower Oxfordian, Middle or Upper Jurassic. Occurrence: Callovian/Oxfordian of northern France and England (UK). LSID Zoobank registration: urn: lsid: zoobank. org:act: 151309F9-ED14-43C6-A00F-6BFFED2DD3A2 Etymology: The genus is derived from the Greek θάλαττα, sea, and σοῦχος crocodile (after the Egyptian crocodile god). The species name derives from Latin, the prefix super-, above, and ciliosus, with eyelashes, referring to the expanded prefrontals above the orbits. Diagnosis: Metriorhynchid crocodylomorph with the following unique combination of characters: conical teeth with little mediolateral compression, crowns have a continuous smooth keel at mesial and distal edges (lacks serrations), enamel on labial and lingual surfaces have conspicuous ornamentation composed of accessory ridges orientated to the apicobasal axis of the crown. Enamel ornamentation is stronger on the lingual face than on the labial face. Dental formula: three premaxillary pairs; 23–27 maxillary pairs, of which 14–15 are anterior to the palatines; 20–22 dentary pairs, of which 16–17 are adjacent to the symphyseal suture and nine to ten are anterior to the splenials. Premaxillary alveoli are consistent in size, with the P1 and P3 being more oval in shape, with the P2 being more subcircular. The skull is narrow with a mesorostrine snout (sensu Young et al. 2010). No transverse expansion of the premaxilla (only present in dorsoventrally crushed specimens). Little to no constriction at the premaxilla–maxilla contact. Nasals and premaxillae always separated; in specimens with a basicranial length of 600 mm or more, the distance between the nasals and premaxillae range from 50 to 132 mm. The nasals terminate anteriorly level to the M9-to-M12 alveoli. Both the frontal and prefrontal bones have a conspicuous pitted ornamentation, although the expression of frontal ornamentation is highly variable. Approximately 90-degree angle formed by the lateral and medial processes of the frontal, with the rostromedial border of the frontoparietal fossa being either rounded or forming a right angle (variability most likely due to taphonomic distortion). A thin sclerotic ring composed of seven ossicles, which do not fill the entire orbit. The deltopectoral crest is moderately developed, with the width of the humerus distal articular head being greater than the width of the deltopectoral crest projecting out from the humerus shaft. (Modified from Young et al., 2013.) Referred specimens AMNH FR 997: Incomplete skull with mandible, and 23 assorted vertebrae (including cervicals and dorsals); CAMSM J64398: skull (holotype of Steneosaurus dasyceps); CAMSM J64900: midportion of skull; CAMSM J64918: rostrum; GLAHM V 942: skull with mandible from a young individual; GLAHM V 963: incomplete skull and mandible, eight dorsal vertebrae, one caudal vertebra, both coracoids, left scapula, right ilium, left ischium and right ischium blade, distal half of the right pubis (from a young individual); GLAHM V 964: skull, mandible, atlas–axis, four cervical vertebrae, cervical and dorsal ribs; GLAHM V 965: skull with right dentary; GLAHM V 971: skull in various fragments, atlas–axis, five cervical vertebrae, ten dorsal vertebrae; GLAHM V 982: broken skull, mandible, cervical vertebra centrum, atlas left rib; GLAHM V 983: broken skull, mandible, sclerotic ring ossicles, dorsal rib; GLAHM V 984: broken skull and mandible fragments from two individuals; GLAHM V 985: broken skull and mandible fragments, sclerotic ring ossicles; GLAHM V 987: broken skull and mandible fragments, sclerotic ring ossicles, rib fragments; GLAHM V 988: skull, mandible, atlas–axis, one dorsal vertebra, left ilium, fragment of right pubis, right femur; GLAHM V 989: skull with mandible; GLAHM V 996: skull with bite marks consistent with that of a metriorhynchid; GLAHM V 1004: skull and mandible fragments, atlas–axis; GLAHM V 1015: incomplete skull, disarticulated mandible, atlas–axis, right atlas rib, both coracoids, right ischium, femora, right tibia and fibula, two coprolites; GLAHM V 1027: incomplete skull and mandible, atlas–axis, four cervical vertebrae (from a young individual); GLAHM V 1140: broken skull, mandible showing pathological damage, one hyoid, atlas–axis, five cervical vertebrae, 14 dorsal vertebrae, scapulae, both coracoids, humeri, both radii, femora; GLAHM V 1142: skull, disarticulated mandible, one hyoid, atlas–axis, right atlas rib, four cervical vertebrae, 19 dorsal vertebrae, two sacral vertebrae, four caudal vertebrae, pubes, ilia, ischia – fused, femora; GLAHM V 1143: skull broken in two, mandible, atlas ribs, five cervical vertebrae, four cervical ribs, 17 dorsal vertebrae, right scapula, right coracoid, right humerus (atlas–axis and forelimb lost); MGCL 9959: skull, mandible, associated dorsal and caudal vertebrae, humerus, femur; MGCL 9960: skull, mandible, associated cervical, dorsal and caudal vertebrae, isolated ribs, humerus, pubis, ischium, femur; MNHN.F RJN 116: lower jaw (lectotype of Steneosaurus rostrominor, nomen oblitum); NHMUK PV R 1530: incomplete skull with mandible, atlas–axis, five cervical vertebrae, 16 dorsal vertebrae, two sacral vertebrae, 35 caudal vertebrae, cervical and dorsal ribs, coracoid, scapula, humeri, ilia, ischia, pubes, femora, tibiae, fibulae, isolated pes bones, numerous chevrons; NHMUK PV R 1529: skull and mandible (from a young individual); NHMUK PV R 1666: skull and mandible; NHMUK PV R 2030: incomplete skull with mandible; NHMUK PV R 2032: incomplete skull and mandible, atlas–axis, four cervical vertebrae, 17 dorsal vertebrae, two sacral vertebrae, 37 caudal vertebrae, cervical and dorsal ribs, scapula, coracoids, humerus, ilium, ischium, femur; NHMUK PV R 2033: fragmentary skull with mandible, atlas–axis, five cervical vertebrae, 17 dorsal vertebrae, two sacral vertebrae, 29 caudal vertebrae, cervical and dorsal ribs, ilia – fused, ischia – fused, pubes, one tibia, one fibula, two metatarsals; NHMUK PV R 2036: fragments of skull and mandible, one cervical vertebra; NHMUK PV R 2041: incomplete skull; NHMUK PV R 2044: skull and mandible; NHMUK PV R 2049: incomplete skull and mandible, two dorsal vertebrae, one sacral vertebra, ilia, ischia, femora, tibiae, fibulae, isolated bones of the pes; NHMUK PV R 2051: incomplete skull with mandible, atlas–axis, four cervical vertebrae, 15 dorsal vertebrae, two sacral vertebrae, 32 caudal vertebrae, coracoid, scapula, ilia, ischia, pubes, femora, broken tibiae and fibulae, isolated pes bones; NHMUK PV R 2053: incomplete skull; NHMUK PV R 2054: skull, mandible, atlas–axis, four cervical vertebrae, 18 dorsal vertebrae, two sacral vertebrae, 28 caudal vertebrae, cervical and dorsal ribs, ilium, ischium, pubes, tibia, fibula, isolated pes bones, numerous chevrons; NHMUK PV R 2055: incomplete skull; NHMUK PV R 2056: fragments of skull and mandible (from a young individual); NHMUK PV R 2058: skull with mandibular symphysis; NHMUK PV R 2065: skull fragments (from a young individual); NHMUK PV R 2069: fragments of skull and mandible, atlas–axis, three cervical vertebrae (from a young individual); NHMUK PV R 3016: incomplete skull, mandible, right coracoid, scapulae, humeri, radius, ulna; NHMUK PV R 6859: skull with disarticulated mandible; NHMUK PV R 6860: skull with disarticulated mandible; PETMG R8: skull lacking rostrum; PETMG R10: incomplete skull; PETMG R20: incomplete skull; PETMG R42: incomplete skull; PETMG R180: incomplete skull; SMNS 10115: skull with disarticulated mandible; SMNS 10116: skull with disarticulated mandible. Note: The possibility that Thalattosuchus superciliosus is a species-complex and that the epithets moreli or blainvillei could represent cryptic species is not investigated. That is beyond the scope of this contribution and will be examined in future studies., Published as part of Young, Mark T., Brignon, Arnaud, Sachs, Sven, Hornung, Jahn J., Foffa, Davide, Kitson, James J. N., Johnson, Michela M. & Steel, Lorna, 2021, Cutting the Gordian knot: a historical and taxonomic revision of the Jurassic crocodylomorph Metriorhynchus, pp. 510-553 in Zoological Journal of the Linnean Society 192 (2) on pages 538-543, DOI: 10.1093/zoolinnean/zlaa092, http://zenodo.org/record/7017003, {"references":["Bronn HG. 1835 - 1837. Lethaea geognostica: Bd. 1 Das Ubergangs- bis Oolithen-Gebirge. Stuttgart: E. Schweizerbart, 544.","Eudes-Deslongchamps J-A. 1867. [posthumous work] Note sur les teleosauriens. Caen: Le Blanc-Hardel.","Young MT, Andrade MB, Brusatte SL, Sakamoto M, Liston J. 2013. The oldest known metriorhynchid superpredator: a new genus and species from the Middle Jurassic of England, with implications for serration and mandibular evolution in predacious clades. Journal of Systematic Palaeontology 11: 475 - 513.","Vignaud P. 1995. Les Thalattosuchia, crocodiles marins du Mesozoique: Systematique, phylogenie, paleoecologie, biochronologie et implications paleogeographiques. Unpublished Ph. D. thesis, Universite de Poitiers, France.","Brignon A. 2018 a. Contexte historique de la collection Felix de Roissy (1771 - 1843) de reptiles marins jurassiques des Vaches Noires. Geodiversitas 40: 43 - 68.","Young MT, Brusatte SL, Ruta M, Andrade MB. 2010. The evolution of Metriorhynchoidea (Mesoeucrocodylia: Thalattosuchia): an integrated approach using geometrics morphometrics, analysis of disparity and biomechanics. Zoological Journal of the Linnean Society 158: 801 - 859."]}

Published
2020
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10. Thalattosuchus Young & Brignon & Sachs & Hornung & Foffa & Kitson & Johnson & Steel 2021, GEN. NOV

Author

Young, Mark T., Brignon, Arnaud, Sachs, Sven, Hornung, Jahn J., Foffa, Davide, Kitson, James J. N., Johnson, Michela M., and Steel, Lorna

Subjects
Crocodylia, Thalattosuchus, Animalia, Metriorhynchidae, Biodiversity, Taxonomy
Abstract

THALATTOSUCHUS GEN. NOV. (FIG. 6) Type species Crocodilus superciliosus Blainville in Eudes- Deslongchamps, 1852 (following Recommendation 67B of the ICZN Code) (nomen protectum). Now referred to as Thalattosuchus superciliosus (Blainville in Eudes- Deslongchamps, 1852) comb. nov. Type by designation. Thalattosuchus superciliosus is a junior subjective synonym of Steneosaurus rostrominor Geoffroy Saint- Hilaire, 1825 (nomen oblitum). Etymology ‘Sea crocodile’, given that the species superciliosus is perhaps the best-known thalattosuchian, it is fitting that the genus be established for this species. Diagnosis Same as the only species (see below).

Published
2020
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11. Metriorhynchus brevirostris

Author

Young, Mark T., Brignon, Arnaud, Sachs, Sven, Hornung, Jahn J., Foffa, Davide, Kitson, James J. N., Johnson, Michela M., and Steel, Lorna

Subjects
Crocodylia, Reptilia, Metriorhynchus, Animalia, Metriorhynchidae, Biodiversity, Chordata, Metriorhynchus brevirostris, Taxonomy
Abstract

METRIORHYNCHUS BREVIROSTRIS (HOLL, 1829) (FIGS 1–3) v 1820 Upper jaw of the fossil crocodile from Havre in the Museum of the Academy of Geneva – De la Beche, lithograph. v 1824 Tête à museau plus court [partim] – Cuvier, pp. 152– 153, pl. 10, figs 5–7. v* 1829 Steneosaurus brevirostris sp. nov. – Holl, p. 88. v* 1831 Gavialis Jurinii sp. nov. – Gray, p. 57. [sic] [partim] v* 1832 Metriorhynchus geoffroyii gen. et sp. nov. – von Meyer, p. 106. [partim] v 1836 Anterior extremity of the upper jaw of Steneosaurus – Buckland, p. 36, pl. 25’ fig. 3. v 1837 Metriorhynchus Geoffroyii (von Meyer) – Bronn, p. 520, pl. 26, figs 7b,d, 8a,b. [sic] [partim] v 1845 Steneosaurus rostro-minor [sic] Geoffroy Saint-Hilaire – Pictet, p. 46, pl. 1, fig. 2 [partim] v 1853 Steneosaurus rostro-minor [sic] Geoffroy Saint-Hilaire – Pictet, p. 492–493, pl. 25, fig. 9 [partim] v 1973 Metriorhynchus geoffroyi (von Meyer) – Steel., p. 45, fig. 18 (10). [sic] v 1987 Metriorhynchus geoffroyi (von Meyer) – Adams- Tresman, p. 193. [sic] v 2010 Metriorhynchus geoffroyii (von Meyer) – Young et al., p. 803. Holotype: MHNG V-2232, partial cranial rostrum. Casts of holotype: MGCL 9868, PIMUZ A/III 82 and OUMNH unnumbered. Type locality and horizon: Le Havre, Département de Seine-Maritime, Haute-Normandie, France. Kimmeridgian, Upper Jurassic. Etymology: From Latin brevis, short, and rostrum, snout. The combination with the genus results in ‘the short snouted moderate snout’ (or ‘moderate short snout’), which is perhaps unfortunate. Diagnosis: Metriorhynchid crocodylomorph with the following unique combination of characters: premaxilla posterodorsal processes terminate level to the M3 alveoli; the three premaxillary alveoli successively increase in size, with the P1 alveoli being circular in shape and the P3 alveoli being the most oval of the premaxillary tooth-row; premaxilla is transversely broad level to the narial fossa posterior margin; constriction at the premaxilla–maxilla contact; having at least 13 maxillary alveoli anterior to the palatine anterior processes; maxillary alveoli M1–M13 are irregularly shaped ovals, with the post-M3 alveoli becoming more circular in shape; nasal anterior processes terminate level to the M8 alveoli; lacks a fully ossified internarial bar (thus an undivided external naris); the anterior-margin of the narial fossa is posterior to the P1 alveoli and the posterior margin terminates slightly posterior to the premaxillary tooth-row. Description The holotype of Metriorhynchus brevirostris (MHNG V-2232; Figs 1–3) is the cranial rostrum, preserving the premaxilla, maxilla and the anterior process of the nasals. In palatal view only, the premaxilla and maxilla are preserved, and there are no complete tooth crowns. Overall, the snout is long and narrow, with a slightly concave upper margin (Figs 1, 2). In dorsal view, widest part of the premaxillae is slightly wider than the anterior portion of the maxillae. Premaxilla and external nares: In dorsal view, the premaxilla is an anteroposteriorly elongated rhomboid (Fig. 1). The premaxillary posterodorsal processes are not particularly elongated for a metriorhynchid, terminating approximately level to the third (M3) maxillary alveoli. The suture between the premaxilla and maxilla is not entirely clear, but it appears to be almost straight (rather than curved or strongly interdigitating), with the posterodorsal processes converging posteriorly. The premaxilla only contacts the maxilla along its posterior margins. In lateral view, the external surfaces are slightly convex (Fig. 2). The ornamentation on the external surfaces is hard to discern due to encrustations. The external naris aperture is largely circular, undivided and situated within the larger narial fossa (Figs 1–3). The shape of the narial fossa is unclear, due to the poor preservation of the anterior margin, but it looks to have been oval-shaped. There is no evidence of an ossified narial bar, but the posterior-end of the bar is preserved, slightly overhanging the external naris. The anterior-margin of the narial fossa is posterior to the P1 alveoli, while the posterior-margin of the narial fossa is slightly posterior to the premaxillary tooth-row. In palatal view, three widely spaced alveoli can be seen (Fig. 1B). The first alveoli (P1) are the smallest and are circular in shape. The P2 alveoli are larger and more oval in shape, while the P3 alveoli are the largest in the premaxilla and are oval in shape. The premaxilla–maxilla contact is an anteriorly directed ‘V’-shape created by the maxilla palatal anterior process overlapping the premaxilla. The maxillary palatal process terminates level to the anterior margin of the P3 alveoli. It appears as though the incisive foramen is positioned medial to the P2 alveoli but, given the preservation of the rostrum, this is not entirely clear. The palatal processes of the premaxilla form the anterior margin of the M1 alveolar margin. Maxilla: Approximately the anterior half of the maxilla is preserved (Fig. 1). The external surfaces of the maxillae are slightly convex. The ornamentation is difficult to distinguish from the encrustations, but along the alveolar margins on the right side, there appears to be natural external surface texture (Fig. 2B). It is composed of well-developed anteroposteriorly aligned ridges, suggesting that the rostrum may have been ornamented in life. In Tyrannoneustes lythrodectikos (Foffa &Young, 2014) and Dakosaurus maximus (Young et al., 2012) there are clear shifts in ornamentation patterns across the maxilla; given the preservation of the holotype we cannot determine if that is true for Metriorhynchus brevirostris. In lateral view, the preservation of the specimen precludes us from determining of there were reception pits on the lateral margins of the maxillae (Fig. 2). In palatal view, 12 alveoli are preserved on the right maxilla (anterior section of the 13 th alveolus is visible), while there are 13 complete alveoli on the left maxilla (with the anterior section of the 14 th alveolus visible) (Fig. 1). All alveoli are circular to subcircular in shape. The interalveolar spaces are variable in size. The M1 and M2 alveoli are closely packed, from M2 to M7 the interalveolar spaces are wider, between M7 and M8 there is the largest preserved gap, M8–M10 has gaps similar in size to those of M2–M7; finally, from M10 posteriorly the interalveolar spaces become small. Paired palatal grooves are present on either side of the maxilla midline. The grooves appear to terminate level to the M5 alveoli. In Ty. lythrodectikos these grooves terminate level to the M4 alveoli (Foffa & Young, 2014), and in the ‘English rostrum’ from the ‘E-clade’ these grooves continue anteriorly along maxilla terminating level to the M2 alveoli (Young et al., 2020a). Nasals: Little of the nasals are preserved,only the anterior processes. The anterior processes form the characteristic converging triangular shape seen in thalattosuchians (e.g. see Fraas, 1902; Andrews, 1913) (Fig. 1). The nasals are paired, with the anterior processes terminating level to the M8 alveoli. Due to the encrustations the ornamentation is hard to discern, but the external surface has anteroposteriorly aligned grooves., Published as part of Young, Mark T., Brignon, Arnaud, Sachs, Sven, Hornung, Jahn J., Foffa, Davide, Kitson, James J. N., Johnson, Michela M. & Steel, Lorna, 2021, Cutting the Gordian knot: a historical and taxonomic revision of the Jurassic crocodylomorph Metriorhynchus, pp. 510-553 in Zoological Journal of the Linnean Society 192 (2) on pages 531-533, DOI: 10.1093/zoolinnean/zlaa092, http://zenodo.org/record/7017003, {"references":["Holl F. 1829. Handbuch der Petrefactenkunde Teil 1. Dresden: Hilscher, 416.","Foffa D, Young MT. 2014. The cranial osteology of Tyrannoneustes lythrodectikos (Crocodylomorpha: Metriorhynchidae) from the Middle Jurassic of Europe. PeerJ 2: e 608.","Young MT, Brusatte SL, Andrade MB, Desojo JB, Beatty BL, Steel L, Fernandez MS, Sakamoto M, Ruiz- Omenaca JI, Schoch RR. 2012. The cranial osteology and feeding ecology of the metriorhynchid crocodylomorph genera Dakosaurus and Plesiosuchus from the Late Jurassic of Europe. PLoS One 7: e 44985.","Young MT, Sachs S, Abel P, Foffa D, Herrera Y, Kitson JJN. 2020 a. Convergent evolution and possible constraint in the posterodorsal retractions of the external nares in pelagic crocodylomorphs. Zoological Journal of the Linnean Society 189: 494 - 520.","Fraas E. 1902. Die Meer-Krocodilier (Thalattosuchia) des oberen Jura unter specieller Berucksichtigung von Dacosaurus und Geosaurus. Palaeontographica 49: 1 - 72.","Andrews CW. 1913. A descriptive catalogue of the marine reptiles of the Oxford Clay, Part Two. London: British Museum (Natural History)."]}

Published
2020
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18. Cutting the Gordian knot: a historical and taxonomic revision of the Jurassic crocodylomorph Metriorhynchus.

Author

Young, Mark T, Brignon, Arnaud, Sachs, Sven, Hornung, Jahn J, Foffa, Davide, Kitson, James J N, Johnson, Michela M, and Steel, Lorna

Subjects
MARINE ecology, MESOZOIC Era
Abstract

Metriorhynchidae was a clade of extinct crocodylomorphs that adapted to a pelagic lifestyle, becoming a key component of Mesozoic lagoonal and coastal marine ecosystems. The type genus Metriorhynchus is one of the best-known genera of Mesozoic crocodylomorphs, and since the mid-19th century, the 'concept' of Metriorhynchus has become associated with the referred species Me. superciliosus. Historically Metriorhynchus has been the most species-rich genus in Metriorhynchidae, with most Middle Jurassic species and many Late Jurassic species referred to the genus at some point in their history. However, the type species Me. geoffroyii has largely been omitted in the literature. Its type series is a chimera of multiple metriorhynchid species, and a type specimen has never been designated. Moreover, phylogenetic analyses have repeatedly shown that the 19th–20th century concept of Metriorhynchus is not monophyletic – to the point where only referring every metriorhynchid species, and some basal metriorhynchoids, to the genus would render it monophyletic. Herein we designate a lectotype for Me. geoffroyii , re-describe it and restrict the genus Metriorhynchus to the type species. We also establish the new genus Thalattosuchus for Me. superciliosus , thereby cutting the 'Gordian knot' of Metriorhynchus with Th. superciliosus. [ABSTRACT FROM AUTHOR]

Published
2021
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20. Re-description of two contemporaneous mesorostrine teleosauroids (Crocodylomorpha: Thalattosuchia) from the Bathonian of England and insights into the early evolution of Machimosaurini.

Author

Johnson, Michela M, Young, Mark T, and Brusatte, Stephen L

Subjects
*CLADISTIC analysis, *BODY size, *MUSCLES, *BIOLOGICAL evolution, *DENTITION
Abstract

Teleosauroidea was a clade of successful, morphologically diverse, ancient crocodylomorphs that were integral in coastal marine/lagoonal environments during the Jurassic. Within Teleosauroidea, the macrophagous/durophagous tribe Machimosaurini evolved specialized feeding strategies (e.g. hypertrophied jaw musculature and blunt, heavily ornamented dentition) and large body sizes (> 7 m), becoming an important component of Middle and Late Jurassic ecosystems. These ocean-dwelling giants are well known from the Callovian (Lemmysuchus) of Europe and the UK, and from the Kimmeridgian–Tithonian (Machimosaurus) of Europe and northern Africa. There are reports of fragmentary machimosaurin material from the Bathonian of Africa, but the overall Bathonian teleosauroid material is poorly understood. While multiple specimens were described during the 19th and 20th centuries, little research has been done since. Here we re-describe two historically important Bathonian species from near Oxford, UK. We demonstrate that both ' Steneosaurus ' larteti and ' Steneosaurus ' boutilieri are valid taxa and we establish neotypes for both species and two new genera, Deslongchampsina and Yvridiosuchus. Our cladistic analysis finds Yvridiosuchus boutilieri as a basal member of Machimosaurini and Deslongchampsina larteti to be closely related to Steneosaurus heberti. Interestingly, four distinct teleosauroid ecomorphotypes are present in the Bathonian of Europe and teleosauroid ecomorphological diversity continued throughout the Callovian and Kimmeridgian/Tithonian in Europe and England. [ABSTRACT FROM AUTHOR]

Published
2020
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23. A catalogue of teleosauroids (Crocodylomorpha: Thalattosuchia) from the Toarcian and Bajocian (Jurassic) of southern Luxembourg.

Author

Johnson, Michela M., Young, Mark T., Brusatte, Stephen L., Thuy, Ben, and Weis, Robert

Subjects
*SCIENTIFIC literature, *CATALOGS, *SAURISCHIA
Abstract

Teleosauroids were a clade of semi-marine crocodylomorphs that attained near-global distribution during the Jurassic Period. They were particularly common during the Toarcian (Early Jurassic) and are well documented throughout the UK and Germany. However, Toarcian teleosauroids discovered in Luxembourg have been little studied and rarely discussed in the scientific literature. Here we present a comprehensive catalogue of Luxembourg thalattosuchian specimens, including nine teleosauroids (all from the Toarcian) and five Thalattosuchia indeterminate (four from the Toarcian and one from the Bajocian), many of which are noted in the literature for the first time. We describe these specimens and identify two distinct genera (Steneosaurus and Platysuchus) as present in the sample as well as three, or possibly four, distinct species. This represents a high diversity of teleosauroid taxa (both common and rare forms) from the Toarcian rarely seen elsewhere in the world. [ABSTRACT FROM AUTHOR]

Published
2019
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24. The mystery of Mystriosaurus: Redescribing the poorly known Early Jurassic teleosauroid thalattosuchians Mystriosaurus laurillardi and Steneosaurus brevior.

Author

SACHS, SVEN, JOHNSON, MICHELA M., YOUNG, MARK T., and ABEL, PASCAL

Subjects
*MUDSTONE, *SKULL, *MAXILLA, *SYNONYMS, *TEETH
Abstract

The genus Mystriosaurus, established by Kaup in 1834, was one of the first thalattosuchian genera to be named. The holotype, an incomplete skull from the lower Toarcian Posidonienschiefer Formation of Altdorf (Bavaria, southern Germany), is poorly known with a convoluted taxonomic history. For the past 60 years, Mystriosaurus has been considered a subjective junior synonym of Steneosaurus. However, our reassessment of the Mystriosaurus laurillardi holotype demonstrates that it is a distinct and valid taxon. Moreover, we find the holotype of "Steneosaurus" brevior, an almost complete skull from the lower Toarcian Whitby Mudstone Formation of Whitby (Yorkshire, UK), to be a subjective junior synonym of M. laurillardi. Mystriosaurus is diagnosed in having: a heavily and extensively ornamented skull; large and numerous neurovascular foramina on the premaxillae, maxillae and dentaries; anteriorly oriented external nares; and four teeth per premaxilla. Our phylogenetic analyses reveal M. laurillardi to be distantly related to Steneosaurus bollensis, supporting our contention that they are different taxa. Interestingly, our analyses hint that Mystriosaurus may be more closely related to the Chinese teleosauroid (previously known as Peipehsuchus) than any European form. [ABSTRACT FROM AUTHOR]

Published
2019
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25. Re-description of 'Steneosaurus' obtusidens Andrews, 1909, an unusual macrophagous teleosaurid crocodylomorph from the Middle Jurassic of England.

Author

JOHNSON, MICHELA M., YOUNG, MARK T., STEEL, LORNA, FOFFA, DAVIDE, SMITH, ADAM S., HUA, STÉPHANE, HAVLIK, PHILIPE, HOWLETT, ELIZA A., and DYKE, GARETH

Subjects
*MARINE ecology, *CRETACEOUS Period, *CALLOVIAN Stage, *CLAY, *TAXONOMY
Abstract

Teleosaurids were a clade of crocodylomorphs that attained near-global distribution during the Jurassic Period. Within Teleosauridae, one particular sub-clade of durophagous/macrophagous taxa achieved large body sizes and were apex predators in shallow marine environments during the Late Jurassic and Early Cretaceous in Europe and around the coast of the Tethys Seaway. Unfortunately, the origins of this clade are still poorly understood. 'Steneosaurus' obtusidens is a little-studied macrophagous species from the Oxford Clay Formation (Callovian, Middle Jurassic) of the UK and near Migné-les-Lourdines (Middle Callovian) in France. Despite being considered a sister taxon of the Late Jurassic taxon Machimosaurus, the taxonomy of 'S.' obtusidens remains unclear. Although three different synonymies have been proposed (variously a subjective synonym of other taxa), these taxonomic hypotheses have not been based on detailed anatomical comparisons and thus have not been tested. Here, we re-describe the holotype of 'S.' obtusidens, demonstrate that it is indeed a valid taxon, restrict the referred specimens to a fragmentary skeleton, nearly complete skull, and partial rostrum, and establish a new monotypic genus, Lemmysuchus. Our re-description reveals five autapomorphies for Lemmysuchus obtusidens and nine apomorphic characters that support the tribe Machimosaurini (Lemmysuchus + Machimosaurus). [ABSTRACT FROM AUTHOR]

Published
2018
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27. Steneosaurus edwardsi ( Thalattosuchia: Teleosauridae), the largest known crocodylomorph of the Middle Jurassic.

Author

Johnson, Michela M., Young, Mark T., Steel, Lorna, and Lepage, Yves

Subjects
*ARCHOSAURIA, *JURASSIC Period, *FOSSIL crocodiles, *MARINE animals, *VERTEBRATE evolution, *COMPARATIVE anatomy
Abstract

Teleosaurids were a clade of marine crocodylomorphs that were globally distributed during the Jurassic Period. They evolved a wide range of body sizes, from small (∼2-3 m) to very large (> 9 m). Until now, the largest known Middle Jurassic teleosaurid was ' Steneosaurus' obtusidens, from the Oxford Clay Formation of the UK. Here, we re-examine a very large Oxford Clay specimen (ilium, ischium, and femur) that had been tentatively attributed to ' S.' obtusidens. Based on comparative anatomical study with the ' S.' obtusidens holotype and referred specimens of Steneosaurus edwardsi and Steneosaurus leedsi, we conclude that this very large individual actually pertains to S. edwardsi. Based on comparisons with the Machimosaurus mosae neotype (which has a complete femur and skeleton), we estimate a total length in excess of 7 m for this large S. edwardsi individual, making it the largest known Middle Jurassic teleosaurid. Therefore, along with the closely related genus Machimosaurus, this clade of large-bodied Middle- Late Jurassic teleosaurids were the largest species during the first 100 million years of crocodylomorph evolution. © 2015 The Linnean Society of London, Biological Journal of the Linnean Society, 2015, ●●, ●●-●●. [ABSTRACT FROM AUTHOR]

Published
2015
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28. Functional and phylogenetic signals in the pectoral girdle of Thalattosuchia and Dyrosauridae (Crocodylomorpha).

Author

Scavezzoni I, Johnson MM, Jouve S, and Fischer V

Abstract

Crocodylomorphs have colonized various environments from fully terrestrial to fully aquatic, making it an important clade among archosaurs. A remarkable example of the rich past diversity of Crocodylomorpha Hay, 1930 is the marine colonization undergone by several crocodylomorph lineages, particularly Thalattosuchia Fraas, 1901 during the Early Jurassic-Early Cretaceous, and Dyrosauridae de Stefano, 1903 during the Late Cretaceous-Early Eocene. Thalattosuchia represents the most impressive and singular marine radiation among Crocodylomorpha, occupying various ecological niches, before enigmatically disappearing in the Cretaceous. Dyrosauridae, on the other hand, is known for surviving the end-Cretaceous mass extinction in abundance but subsequently vanished. The evolutionary path undertaken by crocodylomorphs into the aquatic environments and the reasons for their disappearance outside marine extinction events during the Mesozoic remains a mystery. Despite a well-preserved fossil record, attention has primarily centered on craniodental adaptations, overlooking the swimming-related adaptations recorded in the postcranial skeleton. This research primarily involves a comprehensive examination of the pectoral girdle of the most representative members of Thalattosuchia and Dyrosauridae, highlighting their evolutionary trajectories over time. Additionally, this work aims to test the phylogenetic signal residing in the postcranial anatomy of Crocodylomorpha. As such, the most recent and complete Crocodylomorpha phylogenetic dataset has been repurposed: 42 new postcranial characters have been added and several others have been revised to address our phylogenetic question. We stress that postcranial anatomy constitutes an important tool supply to better understand the relations of extinct crocodyliforms, but also offers insights on their development, ecology, and biomechanics., (© 2024 American Association for Anatomy.)

Published
2024
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29. Palaeohistology of Macrospondylus bollensis (Crocodylomorpha: Thalattosuchia: Teleosauroidea) from the Posidonienschiefer Formation (Toarcian) of Germany, with insights into life history and ecology.

Author

Johnson MM, Scheyer TM, Canoville A, and Maxwell EE

Abstract

The Posidonienschiefer Formation of southern Germany has yielded an array of incredible fossil vertebrates. One of the best represented clades therein is Teleosauroidea, a successful thalattosuchian crocodylomorph group that dominated the coastlines. The most abundant teleosauroid, Macrospondylus bollensis, is known from a wide range of body sizes, making it an ideal taxon for histological and ontogenetic investigations. Previous studies examining thalattosuchian histology provide a basic understanding of bone microstructure in teleosauroids, but lack the taxonomic, stratigraphic, and ontogenetic control required to understand growth and palaeobiology within a species. Here, we examine the bone microstructure of three femora and one tibia from three different-sized M. bollensis individuals. We also perform bone compactness analyses to evaluate for ontogenetic and ecological variation. Our results suggests that (1) the smallest specimen was a young, skeletally immature individual with well-vascularized-parallel-fibered bone and limited remodeling in the midshaft periosteal cortex; (2) the intermediate specimen was skeletally immature at death, with vascularized parallel-fibered bone tissue interrupted by at least 10 LAGs, but no clear external fundamental system (EFS), and rather extensive inner cortical bone remodeling; and (3) the largest specimen was skeletally mature, with parallel-fibered bone tissue interrupted by numerous LAGs, a well-developed EFS, and extensive remodeling in the deep cortex. Macrospondylus bollensis grew relatively regularly until reaching adult size, and global bone compactness values fall within the range reported for modern crocodylians. The lifestyle inference models used suggest that M. bollensis was well adapted for an aquatic environment but also retained some ability to move on land. Finally, both larger specimens display a peculiar, localized area of disorganized bone tissue interpreted as pathological., (© 2024 The Author(s). The Anatomical Record published by Wiley Periodicals LLC on behalf of American Association for Anatomy.)

Published
2024
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