Revision of the cranial anatomy of Ophisaurus acuminatus Jörg, 1965 (Anguimorpha, Anguidae) from the late Miocene of Germany Author Klembara, Jozef Author Čerňanský, Andrej text Geodiversitas 2020 2020-12-03 42 28 539 557 journal article 8838 10.5252/geodiversitas2020v42a28 872f4341-d361-44ce-b6bb-39c9486192f4 1638-9395 4447786 urn:lsid:zoobank.org:pub:5138C1D3-0375-498E-B476-A41801F4E3AC Ophisaurus acuminatus Jörg, 1965 ( Figs 1-14 ) Ophisaurus acuminatus Jörg, 1965: 21 . HOLOTYPE . — SMNK-PAL .8561, almost complete and partially disarticulated skull and lower jaws ( Figs 1 ; 2A ). REFERRED SPECIMENS . — SMNK-PAL .8690, left isolated prefrontal ( Fig. 5D, E ); SMNK-PAL .8610, ten osteoderms ( Fig. 14 ). LOCALITY AND AGE. — Höwenegg/Hegau (near the city Öhningen), Germany . Late Miocene (MN 9). DIFFERENTIAL DIAGNOSIS. — On the basis of the present study, the species O. acuminatus differs from all fossil and Recent species of Ophisaurus by the following distinguished features: 1) distinct ornamentation of nasal and frontal bones (relatively broader and massively developed ridges and tubercles); 2) mediolaterally almost straight posterior margins of posterior ornamented shields of nasals; and 3) on the medial surface of the lower jaw, anterior margin of anterior mylohyoid foramen lies only slightly posterior to the level of posterior margin of anterior inferior alveolar foramen. DESCRIPTION Jörg (1965) described the following bones of skull and lower jaw of O. acuminatus : prefrontal, maxilla, jugal, pterygoid, dentary, angular, coronoid, surangular, articular and osteoderms. Below, the correctness of the descriptions of these bones is confirmed or modified in the light of a better accessibility to the anatomical data using high-resolution X-ray microcomputed tomography. All other elements described below are new. Skull Septomaxilla. Most of the body of the right septomaxilla is preserved ( Figs 1B ; 2 ). Its dorsal wall is smooth. The root portions of the posterolateral and posteromedial processes are preserved. The margin of the septomaxillary process of vomer articulation is rounded. The roof of Jacobson’s chamber is smooth and is surrounded by a distinct marginal crest. The lateral lamina is well-developed and extends ventrolaterally. Nasal. The nasal is an elongated, paired bone ( Figs 1 ; 3 ; 4 A-C). The median suture is straight. The premaxillary process narrows anteromedially. Only the posterior portions of the anterolateral processes are preserved. Their surfaces are smooth. Both processes form a rounded posteromedial margin of the exonarial fenestra. The dorsal surface of nasals is covered with two pairs of ornamented shields. The anterior ornamented shields are slightly smaller than the posterior shields and the right anterior ornamented shield is larger than the left one. The ornamentation consists of distinctly developed ridges and broad intervening grooves. On all four shields the ossification centres are well recognizable. They lie in about the centres of the shields. The right anterior shield is of about semilunar shape; the left anterior shield is of about oval shape. The posterior portion of the right anterior shield extends medially, slightly posterior to the left anterior shield. The posteromedian portions of both anterior shields have a form of a wedge; the wedge fits between the anterior portions of the posterior shields. The anteromedial margin of the right posterior shield is perfectly preserved. It is straight and runs in anterolateral-posteromedial direction. Its anterolateral margin has an anteromedial-posterolateral course and its posterolateral margin runs in anterolateral-posteromedial direction. The right and left posterior ornamented shields meet in more-or-less straight median suture. The posterior margins of the posterior ornamented shields are lateromedially almost straight; this is in contrast to all other anguines ( Fig. 4 , see below). The ventral surface of the nasals is finely coarse ( Fig. 4B ). The lateral margin of the anterior half of the nasal is distinctly developed and flexed ventrolaterally, thus both nasals form a shallow and wide trough anteriorly. Remarks. The only fossil species of Ophisaurus in which the nasal is preserved is O. holeci ( Čerňanský & Klembara 2017 ) . This specimen is much smaller than that of O. acuminatus . The ornamentation of its nasal differs substantially from that of O. acuminatus : it consists of distinct pits of different size and very short grooves. Such ornamentation as present in O. holeci is not present in any other species of Ophisaurus . Prefrontal The right and left prefrontals are preserved, however, in both bones most of the wall of the olfactory chamber is damaged ( Fig. 5 A-E). The prefrontal is of about triangular shape and posteriorly extends into a stout frontal process. The frontal process is well preserved and is almost as long as the rest of the preserved portion of the prefrontal. Along the medial margin of the frontal process, a distinct frontal articulation is present. Only a small portion of the nasal articulation is present at the left prefrontal ( Fig. 5E ). The ventrolateral portion of both prefrontals is broken on several places, but the outline of the lacrimal foramen is well recognizable on the right prefrontal ( Fig. 5A, B ). The anteriormost portion of the olfactory chamber is deep and well demarcated by a sharp rounded ridge ( Fig. 5C ). FIG. 2. — A -D , Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A , virtual 3D models of individual bones of holotype skull in internal view; B -D , right septomaxilla in dorsal ( B ), laterodorsal ( C ) and ventral ( D ) views; E , F , right septomaxilla of Ophisaurus attenuatus in dorsal ( E ) and ventral ( F ) views. Scale bars: A, 10 mm; B-F, 2 mm. posterior ornamented shields FIG. 3. — Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A , photograph of nasals in dorsal view; B , virtual 3D models of nasals and surrounding osteoderms in dorsal view. Scale bar: 2 mm. Frontal The posterior portion of the left frontal is preserved ( Fig. 5F, G ). The dorsal ornamented surface is distinct. The ornamentation reaches the orbital margin of the preserved portion of the frontal. The lateral frontal sulcus is slightly longer than the medial frontal sulcus.The lateral frontal sulcus runs in anterolateral-posteromedial direction.The medial frontal sulcus is shorter and has a mediolateral course. The place of junction of both sulci is overlapped by ornamentation. The territory of the dorsal surface of the frontal, posterior to both sulci, is also distinctly ornamented, so the junction of the frontoparietal and interfrontal shields is obscured. The posterolateral process is distinct. Most of its dorsal surface is covered by the frontoparietal shield. Only posteriormost surface of the posterolateral process is smooth ( Fig. 5F ). Most of the ventral surface of the frontal is smooth. A low ridge runs close to the lateral margin of the bone and fades out at the posterolateral process of the frontal. This ridge represents the posteriormost portion of the frontal cranial crest ( Fig. 5G ). Remarks.Although the potential junction of the lateral and medial frontal sulci is partially obscured,it is possible to estimate that the lateral sulcus is longer that the medial sulcus. Such condition is present in the frontal bones in several modern species of Ophisaurus , as well as those found in the Cenozoic of Europe and North Africa (e.g., Delfino et al. 2011 ; Blain et al. 2013 ; Klembara 2015 ). Postfrontal The right complete postfrontal and almost complete left postfrontal are preserved ( Fig. 6 ). The postfrontal is a triradiate bone consisting of the frontal, jugal and long parietal processes. The jugal process is slightly shorter than the frontal process. The rounded orbital margin is the deepest at the level of the long ventrolateral margin of the parietal process. The anteriorly tapering frontal process bears a deep groove for the articulation with the frontal. The groove gradually continues posteriorly and forms the articulating surface for the parietal. Short jugal and long postorbital articulating surfaces are better developed on the right postfrontal. The parietal process is of rectangular shape and bears a foramen at its posterior end (present only on the left postfrontal). The left postfrontal shows a dorsoventrally broad articular surface for the anterolateral process of the parietal. Maxilla The left maxilla is almost completely preser ved ( Figs 1 ; 2A ; 7 A-D). Its nasal process is prominent and of trapezoidal shape. The dorsal portion of the nasal process is slightly curved medially. The external surface of the maxilla is rather smooth; a weak rugosity is present only in its anterior portion. The surface ventral to the nasal process FIG. 4. — A -C , Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A , B , virtual 3D models of nasals in dorsal ( A ) and ventral ( B ) views; C , reconstruction of posterior ornamented shields in dorsal view; D , E , virtual 3D models of anterior portions of skulls of Ophisaurus ventralis ( Linnaeus, 1766 ) (ZFMK 95414) ( D ) and Ophisaurus attenuatus Baird, 1880 (DE 43) ( E ) in dorsal views. Scale bars: A-C, 2 mm; D, 3 mm; E, 2.5 mm. is pierced by seven labial foramina of various size. They are arranged in a single line. A shallow groove is associated with the posteriormost foramen which is located at the level of the 7th tooth position (counted from posterior). The posterior portion of the maxilla gradually dorsoventrally narrows into a pointed process. Its dorsal margin, gradually passing into the posterior margin of the nasal process, is almost straight. The anterior margin of the maxilla is concave and forms the posterodorsal margin of the exonarial fenestra. Unfortunately, both rami of the premaxillary process are broken. In medial aspect, the maxilla bears a slightly dorsally convex supradental shelf ( sensu Rage & Augé 2010 ). It bears 14 tooth positions (nine teeth are preserved). The palatine articulation lies at the level of 5th and 6th tooth positions (counted from posterior). Immediately anterior to it, a large superior alveolar foramen is located. On the medial surface of the nasal process, a distinct rugosity marks the prefrontal articulation. FIG. 5. — Ophisaurus acuminatus Jörg, 1965 : A -C , SMNK-PAL.8561, photograph ( A ) and virtual 3D models of right prefrontal in lateral ( A , B ) and medial ( C ) views; D , E , SMNK-PAL.8690, virtual 3D models of left prefrontal in lateral ( D ) and medial ( E ) views; F , G , posterior portion of left frontal bone in dorsal ( F ) and ventral ( G ) views. Scale bars: 2 mm. Jugal Most of the left jugal is preserved ( Figs 1 ; 2A ; 7E, F ). In the central portion, the external surface of the jugal is pierced by two foramina – a large suborbital foramen and an additional smaller foramen located slightly posterodor-sally to it. The posterior portion of the suborbital process is robustly constructed. The internal surface of the jugal bears a medial ridge. The base of the posteroventral process of the jugal is well preserved and indicates the presence of a distinct process. FIG. 6. — Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A , B , right postfrontal in dorsolateral ( A ) and ventrolateral ( B ) views; C , D , left postfrontal in dorsolateral ( C ) and ventrolateral ( D ) views. Scale bar: 2 mm. Palatine Almost completely preserved right palatine is present ( Fig. 8A, B ). It is an anteroposteriorly elongated and flat bone. The proximal portion of the maxillary process is preserved and contains the infraorbital foramen. The vomerine process is straight, slender, much longer than the maxillary process and tapers anteriorly.The pterygoid process extends posteriorly, and the pterygoid articulation is distinct. On the ventral surface of the palatine the lateral margin of the pterygoid articulation forms a crest medially limiting the rows of teeth positions. The teeth are not preserved, but a short anteroposteriorly running series of pits indicating their positions is clearly recognizable ( Fig. 8A ). Most of the dorsal surface is smooth. On the dorsal surface the palatine groove is distinct and runs in anteromedial-posterolateral direction. Pterygoid Both pterygoids are preserved ( Figs 1 ; 2 ; 9 ). The pterygoid is a triradiate bone. The anteriormost portion of the palatine process is missing. However, most of the denticle field is well preserved. The pterygoid sulcus is deep and broad and gradually narrows posteriorly ( Fig. 9B, E ). The anterolaterally extending transverse process bears a well-developed ectoptery-goid articulation. The quadrate process is long and straight and bears a long pterygoid groove at its dorsal surface. The groove is anteriorly confluent with the epipterygoid fossa. The basipterygoid articulation is shallow. The obtuse process is distinct and rounded. The epipterygoid fossa lies at the level of the posterior portion of the obtuse process. The body of the pterygoid is narrowest in a short distance anteriorly to the obtuse process. Remarks. The pterygoids of the fossil Ophisaurus are known from several Miocene and Pliocene localities in Europe (e.g., Klembara 1981 , 2015 ; Delfino et al. 2011 ). The general morphology of these fossil pterygoids is very similar to that described here for O. acuminatus . The distinctive feature of all these fossil species of Ophisaurus is a relatively large denticulated field mostly composed of more or less distinct anteroposteriorly running rows of denticles; the most robust denticles lie in the most lateral row. The pterygoids of early Miocene Pseudopus ahnikoviensis Klembara, 2012 are similarly built as those of contemporaneous specimens of Ophisaurus , however, the pterygoid of P. ahnikoviensis bears a distinct feature - the oblong crest lying on the ventral surface of the transverse process of the pterygoid ( Klembara 2012 ). The presence of the oblong crest is a shared feature by three species of Pseudopus : P. ahnikoviensis , P. laurillardi ( Lartet, 1851 ) and P. pannonicus ( Kormos, 1911 ) ( Klembara et al. 2010 ) . FIG. 7. — Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A , B , photographs of left maxilla ( A ) and detail of teeth ( B ) in lateral view; C , D , virtual 3D model of left maxilla in lateral ( C ) and medial ( D ) views; E -G , photograph ( E ) and virtual 3D models ( F , G ) of left jugal in lateral ( E , F ) and medial ( G ) views. Scale bars: A, B, 1 mm; C, D, 5 mm; E-G, 2 mm. Exoccipital and opisthotic A substantial portion of the right exoccipital and opisthotic is preserved and both bones are fused together ( Figs 1 ; 2 ; 10 ). The paroccipital process is fan-like at its distal end. On the posterior surface of the paroccipital process, a distinct and sharp ridge passes posterolaterally. The ridge gradually diminishes posteriorly and is confluent with the articular surface of the paroccipital process. Dorsally to the proximal portion of the ridge, the opening for the lateral semicircular canal is present ( Fig. 10 A-C). Immediately anterior to the opening of the semicircular canal is a rounded margin limiting a deep excavation; the excavation represents a posterodorsal portion of the vestibule ( Fig. 10B, C ). Immediately ventral to it, a rounded depression marks the wall of the cochlear recess ( Fig. 10B ). The proximal portion of the fused exoccipital-opisthotic is on several places damaged, but the vagus foramen marking the original exoccipital-opisthotic suture is present ( Fig. 10C, D ). LOWER JAW ( FIGS 1 ; 2A ; 11-13 ) Dentary Both dentaries are preserved ( Figs 1 ; 2A ; Fig. 11C, F, G ; 12 ). The dentary is anteroposteriorly elongate and gradually narrows anteriorly. The smooth lateral surface of the bone is pierced by six mental foramina (well preserved in the left dentary). A high dorsal crest supports fifteen tooth positions (eleven teeth are preserved in each dentary). The dental crest is concave and anteriorly passes into a small symphyseal facet. The crest is flexed ventrally along its entire length. It bears a splenial spine at the level between the fourth and fifth tooth positions (counted from posterior). The splenial spine forms an anteroventral margin of the anterior inferior alveolar foramen ( Figs 11G ; 12C ). Posteriorly to it, the dental crest is curved dorsally, being thinner than its anteriorly located portion. Meckel`s groove is narrow, opens ventrally rather than medially ( Fig. 12D ). The alveolar foramen is located at the level of the third tooth position (counted from posterior) ( Fig. 11G ). Posteroventrally to this foramen, the surangular spine is present; however, only its root portion is preserved in the left dentary ( Fig. 11G ). The intramandibular septum is better preserved on the right dentary and has about a vertical position ( Fig. 12D ). The posteroventral region of the dentary ends by a distinct angular process. It is of triangular shape. Its posterior termination reaches the level of the penultimate tooth position ( Fig. 12 ). The posterodorsal portion of the dentary is elevated dorsally. The surangular and coronoid processes are pointed. The coronoid process reaches slightly more posteriorly than the surangular process. A shallow coronoid incisure is located between both processes ( Fig. 12 B-D). FIG. 8. — Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A , B , virtual 3D models of right palatine in ventral ( A ) and dorsal ( B ) views. Scale bar: 2 mm. Splenial The right splenial is well preserved ( Figs 1 ; 2A ; 13 C-E). Anteriorly it extends into a pointed process. Posteriorly it gradually dorsoventrally broadens. Posteroventrally, the splenial extends into a long, narrow and pointed process. The dorsally to it lying portion of the splenial is partially damaged, but the presence of two other processes is indicated. At the half of the anteroposterior length of the splenial, the anterodorsal margin is stepped forming a roughly triangular small process. The process is hooked anteriorly. This structure forms the posterior and ventral margins of the anterior inferior alveolar foramen. In the central portion of the bone, a large mylohyoid foramen is present. It lies only slightly posterior to the level of the posterior margin of the anterior inferior alveolar foramen. Angular The left angular is preserved; it is an elongate bone lying at the ventral wall of the lower jaw ( Figs 1 ; 2A ; 11C, F, G ). The anterior portion of the angular contacts the posteroventral portion of the dentary. An anteroposteriorly elongated depression on the medial surface of the angular indicates the presence of the posterior mylohyoid foramen ( Fig. 11G ). The posterior portion of the angular supports the surangular partly ventrally and medially, and mostly laterally. Coronoid Both left and right coronoids are preserved ( Figs 1 ; 2A ; 11 C- G; 13A, B). The coronoid is a chevron shaped bone, with four processes: the dorsal, anterolateral, anteromedial and posterior processes. The dorsal process lies in the mid-length of the bone. It is of quadrangular shape. Although it is shorter than other two processes, its overall appearance is robust. The dorsal process is slightly inclined posteriorly. Its anterolateral portion bears a distinct ridge (or keel) for muscle attachment ( Figs 11E ; 13A ). The medial side of the process is flat. The posterior process is longer than the anteromedial process. It is bent laterally to form a contact with the surangular. This articulation is bordered dorsally by a sharp muscular crest ( Fig. 13A ). The medial side of the posterior process bears a low ridge. This ridge forms the anterior border of the mandibular/adductor fossa ( Fig. 11G ). FIG. 9. — Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A -C , left pterygoid in dorsal ( A ) and ventral ( B , C ) views; D , detail of its denticulate field of the same pterygoid; E , F , virtual 3D models of right pterygoid in ventral ( E ) and dorsal ( F ) views. Scale bars: A-C,E, F, 2 mm; D, 1 mm. Surangular and articular The left and right surangulars and a small remnant of the left articular are preserved ( Figs 1 ; 2A ; 11C, F, G ). Only the left surangular is partially articulated with the neighbouring bones of the mandible ( Fig. 11F, G ). The surangular is an elongate and massive element forming the posterodorsal portion of the lower jaw. In the anterodorsal region and close posterior to the dentary, the dorsolateral surface of the bone is pierced by a large anterior surangular foramen ( Figs 1 ; 11F ). On the medial wall of the surangular, a deep mandibular/adductor fossa is present immediately posterior to the posterior process of coronoid articulation. ( Fig. 11G ). The posterior portions of both mandibles are broken, but the impression of the left posterior portion of the mandible is well-preserved. Here, a small remnant of the articular is preserved ( Figs 1 ; 2A ; 11C ). TEETH There are four elements bearing dentition: dentary, maxilla, pterygoid and palatine. The denticles on the palatine are not preserved, but a row of rounded pits indicates their presence ( Fig. 8A ). The denticles on the pterygoid are arranged in four longitudinal rows. The denticles are conical and pointed. Their apices are posteriorly curved. The denticles lying in the most lateral row are the largest ( Fig. 9 B-E). Implantation of the marginal teeth is pleurodont. The teeth are large, well exposed over the dorsal crest which supports them laterally ( Figs 1A ; 7 A-D; 11A-C, F, G; 12), There are 14 tooth positions in the maxilla and 15 tooth positions in dentary. They are conical and curved distally. Their tips are pointed. The mesial and distal cutting edges are well developed ( Figs 11A, C ; 12 ). The mesial surfaces of apices are smooth. The tooth bases are mesiodistally broad. The largest maxillary teeth are present in the mid-region of the tooth row what corresponds to the size of teeth in the dentary. FIG. 10. — Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A -D , photograph ( A ) and virtual 3D models ( B -D ) of right fused exoccipital and opisthotic in anterolateral ( A , B ), anterior ( C ) and posterolateral ( D ) views. In A -C , fused exoccipital and opisthotic are dorsoventrally turned up. Scale bars: 2 mm. Remarks. The marginal teeth of O. acuminatus are morphologically similar to those in some extant species of Ophisaurus , like O. koellikeri , however, in contrast to O. koellikeri , the internal surface of their apices is not striated in O. acuminatus . The teeth of O. acuminatus are very similar to those designated as Anguinae indeterminate 1 from early Miocene deposits of North Bohemia ( Czech Republic ) ( Klembara 2015 ). The teeth of Anguinae indeterminate 1 are posteriorly curved, pointed and have well-developed anterior and posterior cutting edges. The medial surface of their apices is not striated ( Klembara 2015 : figs 5, 6A). The teeth in O. acuminatus are also similar to those in the Oligocene Ophisaurus roqueprunensis Augé, 1992 ( Augé & Smith 2009 ). OSTEODERMS Almost all osteoderms are incompletely preserved ( Figs 1 ; 14 ). Some of them are directly associated with the holotype being embedded together in the sediment.Additional ten osteoderms are preserved as isolated elements ( Fig. 14 ). Unfortunately, the internal surface of the isolated osteoderms is not accessible, because the osteoderms had been fixed by the glue on a sheet of paper in the past. The osteoderms studied here can be divided into two morphotypes. The first morphotype is represented by a slender, flat and more oval (or elliptical) osteoderms ( Fig. 14 A-E). This morphotype has no longitudinal keel and the external side bears a very large gliding surface. The lateral bevel appears to be highest close to this surface. Posteriorly located external surfaces of the osteoderms are ornamented. The ornamentation consists of short ridges, grooves, tubercles and shallow pits. The ridges have a vaguely radial orientation from the anterior portion of the osteoderm. The internal surface is smooth and bears several foramina ( Fig. 14B ). FIG. 11. — Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A -G , photographs ( A -D ) and virtual 3D models ( E -H ) of left lower jaw elements and teeth in lateral ( A -F ) and medial ( G , H ) views. Scale bars: A, B, 0.5 mm; D, E, H, 2 mm; C, F, G, 5 mm. FIG. 12. — Ophisaurus acuminatus Jörg, 1965 , SMNK-PAL.8561: A , photograph; C , D , virtual 3D models of right dentary in lateral ( A , B ), medial ( C ) and ventromedial ( D ) views. Scale bar: 2 mm. FIG. 13. — Ophisaurus acuminatus Jörg,1965 ,SMNK-PAL.8561: A , B , right coronoid in lateral ( A ) and medial ( B ) views; C -E , photograph ( C ) and virtual 3D models ( D , E ) of right splenial in lateral ( C , D ) and medial ( E ) views. Scale bars: A, B, D, E, 2 mm; C, 1 mm. Osteoderms of the second morphotype are roughly rectangular ( Fig.14F, G ). This type possesses a low medial keel, as well as the ornamented surface and lateral bevel. These osteoderms bear a similar type of ornamentation as that in the first morphotype. Remarks. This type of morphology of osteoderms corresponds to that of Ophisaurus (e.g., Čerňanský & Klembara 2017 ). The presence of two morphotypes most likely reflects the position of the osteoderms in the different portion of the body armour.