Plateosaurus cf. trossingensis Fraas, 1913

Nau, Darius, Lallensack, Jens N., Bachmann, Ursina & Sander, P. Martin, 2020, Postcranial osteology of the first early-stage juvenile skeleton of Plateosaurus trossingensis from the Norian of Frick, Switzerland, Acta Palaeontologica Polonica 65 (4), pp. 679-708 : 682-703

publication ID

https://doi.org/ 10.4202/app.00757.2020

persistent identifier

https://treatment.plazi.org/id/03A9FC42-F548-F131-FFA0-F9A3FAC911F6

treatment provided by

Felipe

scientific name

Plateosaurus cf. trossingensis Fraas, 1913
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Plateosaurus cf. trossingensis Fraas, 1913

Material.— MSF 15.8. was recovered from the Middle Saurian Level (“Mittlere Knochenschicht” or “Mittlere Saurierbank”), Gruhalde Member, Klettgau Formation at Gruhalde Quarry, Frick, Switzerland (Norian; Jordan et al. 2016). MSF 15.8B. (nicknamed “Fabian”) nearly complete, disarticulated skeleton of a juvenile individual. The material includes a large part of the skull (premaxilla, dentary, prefrontal, squamosal, parietal, basisphenoid and parasphenoid, all to be described in a separate paper), the atlas, axial neural arch and four complete postaxial cervical vertebrae, six dorsal vertebrae, one isolated probable anterior dorsal centrum and three isolated dorsal neural arches. The sacrum is represented by a single isolated neural arch and the tail by three isolated proximal and mid-caudal neural arches, four isolated mid-caudal centra, a complete distal caudal vertebra and five haemal arches. Three cervical and 12 dorsal ribs, parts of the gastral basket and a single disarticulated caudal rib are preserved. The limb girdles are almost complete, with only the clavicles and left pubis missing. The limb skeleton is also essentially completely represented, but is missing some phalanges of the manus and pes, and ulna, tibia, fibula, and parts of the manus and pes are only preserved on one side.

Description.— Axial skeleton: The osteology of the axial skeleton is broadly consistent with that of adult Plateosaurus trossingensis individuals. All neurocentral sutures are open, resulting in dissociation of centra and neural arches, with the notable exception of a single distal caudal. Since most vertebrae have been subjected to varying degrees and angles of compaction, isolated centra do not always represent a good fit for their respective neural arches, and their positional assignment should be treated as tentative. Due to this deformation, which distorts the centrum height and width measurements, morphometrics are of limited use in characterising original centrum shapes ( SOM: table S 1 in Supplementary Online Material available at http://app.pan. pl/SOM/app65-Nau_etal_SOM.pdf). The ratio between centrum length and the mean of centrum widths and heights is herein used as an approximate indicator of centrum shape (hereafter referred to as an “elongation index”).

The precaudal vertebral count in Plateosaurus is 10 cervical vertebrae, 15 dorsal vertebrae, and 3 sacral vertebrae ( von Huene 1926), the last of which is a caudosacral ( Yates 2003). There are a minimum of 45 caudal vertebrae ( Mallison 2010b).

Morphological complexity in the cervical series of Plateosaurus increases posteriorly (due to the superpositional expression of hox genes; Böhmer et al. 2015), as is also observable in MSF 15.8B. Cervical vertebrae ( Fig. 2 View Fig ) are long and relatively low, with proportionately low neural spines that gradually decrease in anteroposterior length and increase in height in more posterior vertebrae. In anterior cervicals, both costal articulations are located near the anterior margin of the centrum, but the diapophysis migrates onto the neural arch in the mid-cervical region (sensu Böhmer et al. 2015). In posterior cervicals, diapophyses increase in size, resulting in the width measured across these processes slightly exceeding the length measured between the zygapophyses. The centra are elongated in the anterior and mid-cervical region, with elongation indices in the range of 2.8–3.5, but are shorter in the posterior cervicals (index of 2.0 in c9). Based on the average length of centra and neural arches, the neck of the juvenile skeleton is estimated to be slightly longer in proportion to the dorsal vertebrae than in adult individuals ( SOM: table S6).

Dorsal vertebrae ( Figs. 3 View Fig and 4 View Fig ) are anterioposteriorly short and dorsoventrally tall compared to the cervicals, and their centra are wider, less elongated (elongation indices of 1.1–1.7) and more strongly constricted along their middle. Hyposphenes are present, where this region is well preserved, but hypantra are often obscured by matrix and an articulation in the fossil material cannot be achieved. Overall morphology and lamination pattern of the vertebrae are identical to previously described material of Plateosaurus (e.g., von Huene 1926; Hofmann and Sander 2014). Posterior cervicals and anterior dorsals of some Plateosaurus specimens, including SMNS 13200, show an incipient dorsal bifurcation of the neural spine ( von Huene 1926), but others (e.g., GPIT 1, Mallison 2010a and MSF 23, DN personal observation) do not. Bifurcation was not observed in any of these neural spines in MSF 15.8B., but it is unclear whether this is a preservational artefact and/or could be related to the state of ossification. On all precaudal vertebrae, the neurocentral sutures are open and arches and the centra are completely dissociated.

Where they are sufficiently preserved, the ventral, unfused suture surfaces of all neural arches are sculptured with a characteristic “zipper-like” pattern (sensu Hofmann and Sander 2014).

Detailed descriptions of the individual vertebrae are provided below.

Atlas: The preserved parts of the atlas ( MSF 15.8.2000, Fig. 2F View Fig ) are a small, wedge-like bone interpreted as the intercentrum and a partial neural arch consisting of two halves, exposed on matrix from the anterior or posterior side. The preserved portions of the neural arch are broad and wing-like, and an acute posterior process is not preserved .

Axis, neural arch: The axial neural arch ( MSF 15.8.2001, Fig. 2A View Fig ) is elongated (48 mm long anteroposteriorly and 14 mm tall dorsoventrally). No matching centrum was recovered, hence the diapophysis and parapophysis are not preserved. The neural spine is very long anteroposteriorly 35 mm) and low dorsoventrally (6 mm), with its flat dorsal margin gently sloping downwards anteriorly. The neural spine is relatively uniform in transverse width (ca. 2 mm) throughout its length, except for a slight expansion to ca. 3 mm anteriorly. Its posterior end bifurcates into two prongs that then curve around anterolaterally and terminate above the epipophysis at roughly half the distance between the midline and lateral edge of the vertebra. Instead of connecting to the postzygapophysis (to form a spol), this structure forms a deep vertical rim above the epipophyses.

The prezygapophyseal facets are set on incipient processes near the anterior end, elevated ca. 5 mm above the base of the pedicles. They face slightly dorsolaterally for articulation with the atlas. The postzygapophyses are more distinct and span a wider distance than the prezygapophyses. The epipophyses are thin, lightly striated sheets of bone and slightly overhang the postzygapophyses posteriorly.

Because the small space between the prezygapophyses is obscured by matrix, the presence of a tprl and sprl can not be ascertained. Cprl, cpol, and tpol are present.

The pedicles are strongly constricted transversely in the middle of the vertebra in an hourglass-like shape and diverge towards the ends; with their anterior expansion being wider than the posterior one.

Cervical vertebra 3, neural arch and centrum: c3 consists of a neural arch ( MSF 15.8.669, Fig. 2B View Fig ) and a centrum ( MSF 15.8.936) found to fit with the former. It is identified as c3 based on its smaller size as opposed to the otherwise similar succeeding vertebrae ( von Huene 1926).

The neural arch is proportionately taller than that of the axis and larger overall (57 mm long and 18 mm tall). The neural spine is slightly shorter anteroposteriorly (31 mm) and approximately the same dorsoventral height as in the axis (6 mm), and its dorsal margin is more rounded and thickens posteriorly. At both ends, it slightly overhangs its base, a probable artifact of deformation.

The prezygapophyses are much longer than those on the axis, extending out beyond the neural spine and pedicles at a low angle for ca. 10 mm and separated by a deep medial notch. The articular facets are mostly aligned dorsally and very slightly medially. The postzygapophyses are shorter but span roughly the same width, with the articular surfaces mostly facing downwards. Small, knob-shaped epipophyses are present.

Tprl, cprl as well as tpol and cpol are present. An incipient sprl is present, but very weakly developed. The same applies to the sprf. By comparison, the spol and spof are more pronounced.

The pedicles are taller than in the axis, and centrally constricted, albeit less markedly than in the axis. Once again, the transverse expansion is more pronounced anteriorly.

The centrum (maximum height 14 mm) is amphicoelous, with the concavity on the anterior surface being much shallower than on the posterior surface, and has been subjected to strong posterodorsal compaction. This has resulted in the ventral surface being displaced posteriorly so that the anterior articular surface faces anteroventrally and the posterior one posterodorsally. The diapophysis and parapophysis are located at its anterodorsal and anteroventral margin respectively. Both of these articulations have accessory posterior laminae, which are separated by an elongated fossa. The ventral surface of the centrum is mostly flat, with a weakly developed medial ridge being visible in the posterior third. The centrum has an elongation index of 3.1.

Cervical vertebra 4, neural arch and centrum: The neural arch ( MSF 15.8.1032, Fig. 2C View Fig ) referred to c4 is ca. 1/3 longer than c, but as a result of the dorsoventrally low (5 mm) neural spine and probably some dorsoventral compaction, the arch height as preserved is marginally lower (17 mm).

The anterior and posterior margins of the anteroposteriorly long (36 mm) neural spine are incompletely preserved, giving them a sloped appearance. The transverse width of the arch is comparable to the previously described c3. The prezygapophyses are longer than the postzygapophyses and separated by a deep notch. The postzygapophyses are overhung dorsally by short, pointed epipophyses. Both prezygapophyseal and postzygapophyseal articular surfaces are close to horizontal. Tprl, cprl, tpol, and cprl are present, as are a well-developed spol and spof. Sprl and sprf are also present, but still quite weakly developed, albeit slightly more pronounced than in c3. No other fossae apart from sprf and spof are present on this neural arch.

The pedicles are tall, as in the previous vertebrae. The sculptured ventral suture surface is especially well-preserved in this vertebra. In ventral view, the pedicles are constricted centrally and widest anteriorly, but due to the greater elongation of the vertebra, this change in width occurs less abruptly than in the previous vertebrae.

The dorsoventrally compressed centrum ( MSF 15.8.979) is amphicoelous, but the anterior concavity is mostly hidden by matrix. The small, knob-like costal articulations are located at its anterior end, separated by a shallow horizontal fossa. The diapophysis is located at the neurocentral suture, from where a weak ridge extends onto the neural arch, running posterodorsally towards the postzygapophysis without reaching it. The parapophysis is located closer to the ventral rim of the centrum. The ventral surface is flat and delimited laterally by ridges extending posteriorly from the diapophyses in the anterior third of the centrum. The elongation index of the centrum is 3.5.

Cervical vertebra 6, neural arch and centrum: The neural arch ( MSF 15.8.2002, Fig. 2D View Fig ) of this vertebra is preserved as two fragments, the anterior one of which consists of the prezygapophyses, the diapophyses and the anteriormost portion of the neural spine, while the posterior fragment encompasses the postzygapophyses and most of the neural spine. The neural arch (31 mm) and spine (13 mm) are relatively tall compared to the preceding vertebrae, and the presence of a diapophysis on the arch supports its more posterior position. The arch bears signs of strong transverse compaction, with an additional shearing component in the sagittal plane, as shown by the different orientations of the diapophyses. The neural spine is similar in anteroposterior length, but much taller than in preceding vertebrae.

The zygapophyseal facets are set at an almost vertical angle, which is at least in part a result of compaction. The prezygapophyses are large and rounded and are supported ventrally by thick cprl and medially by a weak tprl. There are well-developed sprl enclosing a shallow sprf. The postzygapophyses are incompletely preserved, with parts of their posterior edges missing, but they appear to have been relatively short but overhung by pointy epipophyses. There is a well-developed spol and spof. The cpol are narrower than their anterior equivalents, but still well developed.

The diapophyses are two small, subtriangular processes that extend ventrolaterally from the anterior portion of the ventral edge of the neural arch, overhanging the centrum. There is a weak lamina connecting the diapophysis anteriorly to the base of the prezygapophysis. Incipient laminae extend anteroventrally from the postzygapophysis and posterodorsally from the diapophysis, constituting the beginnings of a podl, but the two do not form a well-defined connection. No well-developed fossae are present apart from the spinoprezygapophyseal fossa in this arch. The tall pedicles are only weakly constricted centrally, bear sculptured suture-surfaces and diverge slightly further anteriorly.

A transversely compacted centrum ( MSF 15.8.592) missing part of its anterior surface is a possible fit for the neural arch based on its size, elongation and the presence of a single, long median ventral keel, which support its assignment to the 6th cervical position, but the diagenetic deformation of both arch and centrum makes a definite assignment difficult. A shallow depression runs across the lateral surface for much of the length of this centrum. No parapophysis is preserved, which is interpreted as a result of the poor preservation of the rims of this centrum. The centrum elongation index is 2.8.

Cervical vertebra 9, neural arch and centrum: The neural arch of c9 ( MSF 15.8.671, Fig. 2E View Fig ) differs significantly from the preceding vertebrae in its proportions and the well-developed diapophyses, whose width even surpasses the zygapophyseal length. This identifies it as a posterior cervical by comparison with adult individuals, among which it is most similar to c9 based on relative size and neural arch morphology (e.g., von Huene 1926).

The neural spine is shifted posteriorly, overhanging the pedicles and centrum. It is relatively short anteroposteriorly (31 mm), and its dorsal margin is rounded and sloped anteriorly. The top of the spine bears a transverse expansion of ca. 8 mm, probably as a result of compaction.

The prezygapophyses are shorter and more rounded, and their facets face more medially than those in the more anterior vertebrae. Tprl, cprl, and sprl are present, along with a very shallow sprf. The postzgapophyses overhang the posterior margin of the pedicles and centrum and are themselves overhung posteriorly by prominent epipophyses, which form the posteriormost points of the vertebra. Such elongate epipophyses are present in Plateosaurus individuals from Trossingen ( P. trossingensis, SMNS 13200, von Huene 1926; included under P. engelhardti, sensu Yates 2003 ), but are not found in specimens from Halberstadt ( Jaekel 1914; Yates 2003; P. longiceps, sensu Galton and Kermack 2010 ). Spol and cpol are well-developed, whereas the tpol is very thin. There is a deep spof.

The diapophysis forms a prominent process extending laterally and in a slight anterior curve from the center of the neural arch. The width of the vertebra measured across the diapophyses is slightly greater than its zygapophyseal length. The diapophyses are supported by all the usual diapophyseal laminae, which are well-defined in this vertebra (acdl, pcdl, cprl, cpol) and the fossae delimited by these laminae (prcdf, cdf, pocdf) are also well-developed.

The pedicles are comparatively short both anteroposteriorly and dorsoventrally compared to the rest of the arch. They diverge anteriorly and posteriorly, the anterior expansion being the more marked one of the two.

MSF 15.8.905 is an isolated, transversely crushed centrum. Its prominent parapophysis is located further dorsally and posteriorly than in preceding vertebrae. It has a well-developed acpl, running towards the ventral edge of the centrum, and a shorter, less defined pcpl. The assignment of this centrum to this vertebra is tentative, because the extreme transverse compaction precludes a good fit with the pedicles of the neural arch. At an elongation index of 2.0, this centrum is much shorter than the more anterior cervicals, in accordance with its position close to the cervicodorsal transition.

?Dorsal vertebra 1, centrum: This centrum ( MSF 15.8. 2003, Fig. 3A View Fig ) is here tentatively assigned to the first dorsal position based on the presence of a large, subtriangular parapophyseal facet at the neurocentral juncture and a poorly preserved) medial ventral keel. The centrum has been subjected to slightly oblique, mostly transverse shearing deformation, resulting in extensive distortion of the orientation of its amphicoelous articular surfaces. Compared to preceding centra, it is very short and deep. The centrum is strongly constricted along the middle. The elongation index is 1.3.

Dorsal vertebra 2, neural arch and centrum: Neural arch MSF 15.8.908, Fig. 3B View Fig ) is dorsoventrally tall (32 mm), anteroposteriorly short (45 mm), and very wide (63 mm). The proportions of the arch, shape of the neural spine and lack of any trace of a parapophysis on the arch suggest an anterior position within the dorsal column, and its postzygapophyses fit well with the prezygapophyses of the (presumed) succeeding vertebra, suggesting the arch pertains to d2. The neural arch has been subjected to deformation with a primary axis from posterodorsal to anteroventral, resulting in the neural spine and zygapophyses being displaced anteriorly relative to the pedicles.

The slightly anteriorly inclined neural spine (probably at least in part due to the aforementioned compaction) of this vertebra is one of the anteroposteriorly shortest (13 mm) and transversely thickest (9 mm) in the entire vertebral column, with a width of ca. 70% of the anteroposterior length.

The prezygapophyses are elongate processes with rounded ends and subhorizontal facets. The postzygapophyses are shorter and more vertical, with the articular facets facing ventrolaterally. Both cprl and cpol are strongly developed, with the latter split into medial and lateral divisions. The sprl are very short and weak and a sprf appears to be absent or so inconspicuous as to be hidden by matrix. The spol are particularly prominent and enclose a deep spof. The tprl is deeply recessed and only visible from the ventral side. There are no distinct epipophyses in this vertebra.

The diapophyses have large, ovoid articular facets set on broad, winglike processes, joined to the zygapophyses and to the pedicles by prominent prdl and podl, acdl and pcdl. The prdl is almost straight, whereas the podl is more deeply curved. The prcdf, cdf, and pocdf are also well-developed. The posterior end of the pedicles is pushed so far posteriorly due to deformation that in dorsal view, the pcdl is visible behind the more concave margin of the podl.

The pedicles are thick but lack the central constriction present in cervical neural arches.

The neural arch offers a potential fit for an isolated, amphicoelous centrum ( MSF 15.8.978). The centrum is transversely compressed, rendering a definite assignment to d2 difficult, but it bears a large parapophyseal facet at the neurocentral suture, ca. 1/3 of its length from the anterior end, and a prominent ventral medial keel. The dorsal portion of the lateral face bears a shallow fossa running along the length of the centrum. The centrum elongation index is 1.7.

Dorsal vertebra 3, neural arch and centrum: Neural arch ( MSF 15.8.2004, Fig. 3C View Fig ) is dorsoventrally tall (46 mm), anteroposteriorly short (42 mm), and transversely wide (67 mm). Based on these proportions, the morphology of the neural spine and the lamination pattern observed, this vertebra pertains to the anterior dorsal region. The extreme anteroposterior shortness of the neural spine is especially characteristic of the second, third, and fourth dorsal, with d3 bearing the anteroposteriorly shortest neural spine in SMNS 13200 ( Jaekel 1914; von Huene 1926). A parapophysis is not discernible on the neural arch; it would have been located mostly or entirely on the centrum ( von Huene 1926), which was not found for this vertebra. This suggests a more anterior position relative to the otherwise very similar arch MSF 15.8.477, and the fit between the zygapophyses of these vertebrae support this assignment.

The neural spine of this vertebra is the shortest anteroposteriorly in the entire presacral collumn (12 mm) but is thick transversely (ca. 8 mm). The neural spine is moderately tall when measured from its base (21 mm) but protrudes only a short distance above the high-set postzygapophyses.

The prezygapophyses are missing parts of their anterior margin, but are relatively shorter and more rounded than in the preceding vertebrae, which is consistent with the situation in the anterior dorsals of adults. There is a strong cprl, whereas the tprl is weak and receding, bordering a shallow sprf. A weakly defined sprl is present. The prezygapophyseal articular surface faces dorsomedially, but are more horizontal than vertical. The postzygapophyseal surfaces point in a more lateral than ventral direction. The base of the tpol is connected to a (postero)medial division of the cpol, whereas a lateral division continues dorsally to the dorsal tip of the postzygapophysis, with the articular surface (and a shallow fossa) bordered by these laminae. This feature is reminiscent of the condition described in cervical vertebrae of Europasaurus (Carballido and Sander 2013) , but comparatively only weakly developed, and is also present in a previously described Plateosaurus d3 from Frick (see Hofmann and Sander 2014: fig. 7C).

The diapophyses are large, wing-like processes originating near the middle of the vertebra, slightly closer to the anterior end, and sloping slightly posteriorly and downwards (the latter probably being a diagenetic feature). The width across the diapophyses is ca. 60% greater than the maximum length (= zygapophyseal length sensu Hofmann and Sander 2014) of the neural arch. There are strong anterior and posterior centrodiapophyseal laminae and ventral diapophyseal fossae (prcdf, cdf, pocdf) as well as well-developed prdl and podl, bordering a weak sprf. The diapophyses have been subjected to some deformation causing them to be depressed ventrally.

The pedicles of this neural arch are centrally constricted, the posterior margins diverge further than the anterior ones.

The centrum ( MSF 15.8.2005) is slightly wider than tall, strongly constricted centrally and compacted from anterodorsal to posteroventral, so that its articular faces are oblique rather than vertical. Roughly 1/4 of its length behind the anterior margin of its right side, a small, subtriangular parapophyseal facet is preserved at the neurocentral suture, confirming the identity of MSF 15.8.2005 as an anterior dorsal centrum. This facet is not preserved on the left side. There is a shallow depression covering most of the dorsal half of the centrum in lateral aspect. The anterior and posterior parts of the ventral and lateral surfaces of the centrum bear strong striations. The elongation index is 1.2 .

d4, neural arch: This isolated neural arch ( MSF 15.8.477, Fig. 3D View Fig ) is slightly shorter than the aforementioned two, but it is identified as a d4 by the presence of partial parapophyseal facets at the neurocentral sutures, suggesting a more posterior position. In other Plateosaurus individuals, the parapophysis is located entirely on the centrum in d1 and d2, and migrates partially onto the neural arch in d3 to d5, until it is located entirely on the arch by d6 ( von Huene 1926). Since roughly half of the facet seems to be present on the arch, this is consistent with assignment of the arch to d4. The arch as a whole appears to be relatively unaffected by deformation, with only the prezygapophyses bearing obvious traces of some compaction.

The neural spine is short and thick, but is slightly longer and more teardrop-shaped in dorsal aspect as opposed to squarish. The prezygapophyses are very short and wide and protrude only weakly from the prdl. They have a distinctly rounded shape, being the culmination of a trend towards this shape in the anterior dorsals. This development appears to be somewhat more pronounced than in adults. There is a weak sprl and sprf. The postzygapophyses, joined medioventrally by a tpol, are overhanging the posterior end of the pedicles. The postzygapophyses are set at a slightly more horizontal angle than the very steep prezygapophyses. Spol and spof are well developed and both prezygapophyses and postzygapophyses are connected to the pedicles by pronounced cprl and cpol. The epipophysis is indistinct from the dorsal margin of the postzygapophysis, and remains so in the rest of the dorsal series.

The diapophyseal facet is large and roughly triangular as seen in lateral aspect. The processes are somewhat narrower anteroposteriorly) than in the preceding vertebrae and directed slightly posteriorly. The prdl, podl, ppdl, and pcdl are all well developed and delimit deep prpadf, pacdf, and pocdf. The parapophysis is situated at the ventral end of the anterior diapophyseal lamina, which is consequently a ppdl in this arch, and is bisected by the neurocentral suture. Since the facet extends down to the neurocentral suture, there is no cpl. The preserved part of the articular facet appears to have an ovoid shape when completed with the part located on the (missing) centrum. The pedicles of this vertebra are very tall and centrally constricted.

?Dorsal vertebra 5, fragmentary neural arch: This fragment of a dorsal neural arch ( MSF 15.8.2006, Fig. 3E View Fig ) consists of both prezygapophyses, the neural spine, left diapophysis and fragmentary left postzygapophysis, left pedicle and neural canal. Based on the shape of the neural spine, closely resembling d4, and the somewhat more elongated prezygapophyses, an assignment to the position of d5 is tentatively suggested.

The neural spine is thick and teardrop-shaped in dorsal view, but narrower and longer than in the preceding vertebrae.

Both pairs of zygapophyses seem to have been set at a fairly steep angle in this arch. The prezygapophyses are rounded and large, but more elongated than in the preceding vertebra. They are supported by well-developed cprl and sprl and a tprl, enclosing a sprf. The postzygapophyses likewise are connected to a well-developed spol, but tpol, cpol and spof are not preserved.

The diapophysis is a long, straight and relatively narrow process with a distal expansion and a relatively large articular facet, in continuation of a trend observable in the preceding few vertebrae. The poorly preserved parapophysis, which is bordered dorsally by the end of the ppdl, is an elongated, ovoid facet extending from close to the front of the pedicles diagonally to roughly the middle of the arch. There are strong prdl and podl, a deep but narrow prpadf, and a shallower and smaller pacdf. The pcdl is subvertical in lateral aspect. A pocdf may have been present, but is broken off along with the posterior end of the pedicles.

Dorsal vertebra 6, neural arch and centrum: The neural arch ( MSF 15.8.654, Fig. 4A View Fig ) is identified as a 6th dorsal by its greater length (50 mm) and the combination of its tall, long neural spine and anteroposteriorly long zygapophyses with a discontinuous prdl and the presence of a well-developed prpl. The arch has been subjected to some deformation, resulting in the neural spine being bent to the left and slightly anteriorly.

The neural spine of this vertebra is much narrower (3 mm) and anteroposteriorly longer (32 mm) than in the anterior dorsals. Its anterior margin is concave, so that the anterior corner of the apex overhangs the base.

The prezygapophyses are elongated and narrow, the postzygapophyses small. Due to the location of the parapophyses near the anterior margin of the pedicles, there is a thick prpl in place of a cprl, whereas the cpol are relatively thin and deeply recessed from the posterior margin of the postzygapophyses. The tprl is only visible ventrally, and the sprfa is either obscured by matrix, or absent. A small spof is present. The zygapophyses are set at a relatively flat angle, possibly as a result of compaction.

The diapophyses are flat processes that take the shape of rounded trapezoids in dorsal view, with a crescent-shaped articulation facet (with a convex ventral margin). They are joined to the zygapophyses by a relatively well developed prdl and podl. The diapophysis is connected to the oval parapophysis by a relatively short and weak ppdl and to the posterior part of the pedicles by a much thicker pcdl. There are well-developed infra-diapophyseal fossae (prpadf, pacdf, and pocdf). The parapophyseal facet is round and located at the neurocentral suture. There is a lateral bulge formed by the laminae above the parapophysis as seen in dorsal aspect.

The pedicles are almost straight in ventral view, with very little transverse expansion being present towards the ends.

The transversely compacted, amphicoelous centrum ( MSF 15.8.906) bears a shallow concavity along the dorsal half of its lateral surface, whereas the bottom of the centrum is rounded. Near both ends, the ventral and lateral faces bear light striations. The elongation index of the centrum is 1.6.

Dorsal vertebra 7, neural arch and centrum: The neural arch ( MSF 15.8.1076, Fig. 4B View Fig ) of this vertebra is similar in shape to the preceding d6, but is longer (57 mm) and differs in its shorter prezygapophyses and complete loss of the prdl.

The neural spine is anteroposteriorly long (41 mm) and very arrow (2 mm), bearing some evidence of anterodorsal compaction (resulting in a crushed anterodorsal margin). The prezygapophyses are relatively short, pointed and slightly curved. The prezygapophyses are connected directly to the parapophyses, which in this vertebrae occupy the anteroventral corner of the neural arch, by a ventrolaterally directed prpl. Sprl and sprf are present. The postzygapophyses overhang the pedicles, and are supported by a strongly curved cpol and a weak spol, enclosing a small spof. The zygapophyseal pairs are each angled at slightly less than a right angle.

The diapophyses are trapezoid in dorsal view, with their posterior edges forming an angle close to 90° with the sagittal plane. They bear anteroposteriorly long and dorsoventrally flat articular faces. The pcdl and podl are well-developed. In this vertebra, the ppdl and prpl replace the prdl, with the parapophysis being expanded dorsally and anteriorly to interrupt this lamina. A pronounced lateral bulge is present in the dorsal outline above the parapophyses. There are only two diapophyseal fossae, the pocdf and pacdf. The pedicles are relatively narrow and sub-parallel, with a slightly wider posterior expansion.

The centrum ( MSF 15.8.437) that is tentatively assigned to this vertebra based on its good fit with the neural arch is amphicoelous and bears some traces of anterodorsal compaction. Its ventral surface is convex, and lightly striated towards the margins, whereas the dorsal part of the lateral surface bears an anteroposterior depression. The elongation index of this centrum is 1.4.

Dorsal vertebra 8, neural arch: This neural arch ( MSF 15.8.885, Fig. 4C View Fig ) strongly resembles the preceding one in terms of length (58 mm) and proportions, but has shorter and more posteriorly directed diapophyses and a larger parapophyseal facet.

Its neural spine is anteroposteriorly long (41 mm) and narrow (2 mm), spanning the entire medial length of the vertebra, with its dorsal margin being almost uniformly tall throughout its length. Both its anterior and its posterior margins are concave, so that the dorsal corners are overhanging their base.

The prezygapophyses are thin and pointed, with elongate articular facets. As in the preceding vertebrae, a prpl takes the place of the cprl. Weak sprl are present, but there is no discernable sprf. The postzygapophyses overhang the base of the neural arch. Cpol and very thin spol and tpol, which enclose a small spof, are present.

The diapophyses are more posteriorly oriented and shorter than in the preceding vertebrae. They are dorsoventrally flat, bearing elongate, kidney-shaped facets. The podl is relatively short and concave, and a thin pcdl is present, connecting it to the posterior end of the neurocentral suture. The parapophysis is located in the anterior corner of vertebra, braced posterodorsally against the diapophysis by a ppdl and antrodorsally against the prezygapophysis.

The ppdl is almost horizontal, because the parapophysis still links the diapophysis and prezygapophysis, forming ppdl and prpl. The fossae present ventral to the diapophysis are the pocdf and pacdf. The pedicles are broad and relatively straight.

Dorsal vertebra 9/dorsal vertebra 10, neural arch and centrum: The neural arch ( MSF 15.8.728, Fig. 4D View Fig ) of this vertebra is long (57 mm), tall (40 mm) but extremely narrow (35 mm) as a result of transverse compaction. The tall 21 mm), narrow (2 mm) neural spine and more posteriorly deflected diapophyses than in the preceding vertebrae suggest d9 or d10 as the position of this arch, but the transverse compaction precludes a good articulation with the preceding vertebrae.

The dorsal portion of the neural spine is broken off, but the fragment fits the rest of the spine. The neural spine is narrow, somewhat shorter anteroposteriorly (32 mm) than in preceding vertebrae and concave anteriorly.

The prezygapophyses are large, with their relatively broad surfaces set at an unnaturally steep angle by the transverse deformation. Sprl, and prpl are present. The postzygapophyses overhang the centrum, as in previous vertebrae, but the cpol is comparatively straight. Spol and a small, narrow spof are present.

The diapophysis is trapezoidal in shape and swept posteriorly. It is thicker than in the preceding vertebrae, although this condition might be amplified by the deformation. The diapophyseal articular surfaces are large and roughly semicircular in shape. The anterior edge is interrupted dorsal to the large parapophyseal facet and does not reach the prezygapophysis to form a prdl. The diapophysis is braced ventrally by a pcdl and posteriorly by a weakly developed dpol. Almost parallel to the anterior margin, a narrow ppdl extends anteroventrally, bracing the diapophysis against the parapophysis. Again, only pocdf and pacdf are present ventral to the diapophysis. The pedicles are very tall, narrow as a result of compaction, and almost completely parallel.

A long, amphicoelous centrum ( MSF 15.8.679) is tentatively assigned to this vertebrae based on its size and apparent fit with the neural arch. There is a shallow, lateral concavity on the dorsal half of the centrum, and the ventral and lateral surface are weakly striated towards the articular margins. The centrum elongation index is 1.5.

Dorsal vertebra 12, neural arch and centrum: The neural arch ( MSF 15.8.468, Fig. 4E View Fig ) is shorter (42 mm) and more massive overall than in the preceding vertebrae, bearing a taller, transversely thickened and anteroposteriorly shorter neural spine. The differences in proportions and the tall (22 mm), thick (7 mm) and anteroposteriorly short (23 mm) neural spine suggests a position around two or three vertebrae more posterior than d9. There is some minor deformation from the right posterolateral direction as evident from the deformation of the transverse processes.

The prezygapophyses are short, rounded processes extending strongly anterodorsally. The zygapophyseal facets are set at a relatively horizontal angle. Sprl, tprl and a small sprf are present. The prezygapophyses are braced against the ventral end of the parapophysis by a prpl. The overhanging postzygapophyses are incomplete ventrally. Spol, spof, and cpol, pcdl and pacdf and a small pocdf are present.

The diapophysis is rounded in dorsal view and dorsoventrally thick, and it appears to extend out straight laterally if compaction is ignored. The parapophyseal facet is elongated in dorsoventral direction and connected to the diapophysis by a ppdl. There is a short but very thick acpl. The pedicles are wider and shorter than in preceding vertebrae, and expanded posteriorly.

Like the arch, the amphicoelous centrum ( MSF 15.8.2007) is very broad and robust. Its transverse width is greater than its dorsoventral height, and it is strongly constricted. The ventral surface is convex and striated near the margin. The dorsal part of its lateral surface bears a well-developed, anteroposteriorly elongate fossa. This is the proportionately shortest presacral centrum preserved, at an elongation index of 1.1. This is the most posterior dorsal vertebra represented in the skeleton.

Sacral vertebra, neural arch: This isolated neural arch ( MSF. 15.8.558, Fig. 5A View Fig ) is interpreted as a first sacral based on its rectangular neural spine and wide transverse processes that extend relatively straight laterally, each bearing a single, large and heavily sculptured articular surface for the (missing) sacral ribs anteroventrally. The neural arch is flattened dorsoventrally (28 mm) and moderately long anterioposteriorly (49 mm), with its transverse width of 69 mm being its largest dimension by a considerable margin. The neural spine is long anteroposteriorly (32 mm) and relatively thick transversely (8 mm), with a straight, horizontal dorsal margin.

The prezygapophyses are large, teardrop-shaped facets emanating from the rounded anterior margins of the transverse processes. A sprl and sprf are absent, but the zygapophyses are braced ventrally against the costal articulation by a thick prdl or prpl. The postzygapophyses are rounded in dorsoventral view, with a strongly convex dorsal margin that joins the posterior margin of the transverse processes. The postzygapophyses are joined medially by a well-developed tpol and braced ventrally by a thin cpol. Both pairs of zygapophyses are set at relatively horizontal angles.

The anteroposteriorly broad, rounded transverse processes are ovoid in dorsal view and lightly striated mediolaterally. The lightly concave suture surface for the attachment of the sacral rib covers approximately the anteroventral 2/3 of each transverse process, being delimited posteriorly by the pcdl (applying the homology suggested by Wilson 1999). There are narrow, transversely elongated pocdfs situated behind these laminae.

The pedicles are relatively broad and short, each pedicle being subtriangular in shape as seen in ventral view, with their widest portions in the middle of the arch and thinning out towards the anterior and posterior ends.

Proximal caudal neural arch: This tall, laterally compressed neural arch ( MSF 15.8.889, Fig. 5B View Fig ) is interpreted as a proximal caudal due to lack of fused transverse processes caudal ribs) and the tall (36 mm) and anteroposteriorly long 30 mm) neural spine, the latter characterizing anterior caudal vertebrae of P. engelhardti (sensu Yates 2003, including P. trossingensis ). The spine has a rounded apex and bears a rounded protrusion on its anterior margin. The caudal ribs were unfused and are not preserved. Their articular surfaces are large, semicircular concavities on the sides of the neural arch, extending down to the neurocentral suture. In ventral aspect, these facets appear as deep concavities in the lateral margins of the pedicles.

The prezygapophyses are rounded processes extending anterodorsally from the neural arch and are supported ventrally by robust cprl. A prominent tprl and sprl and a small sprf are present. The postzygapophyses are located high on the neural arch, protruding slightly from the concave posterior edge of the neural spine, to which they are connected by spol, enclosing a small spof. Ventrally they are connected to the base of the neural arch by strong cpol. The zygapophyses are very narrow, and their facets are set almost vertically. The pedicles are very broad and shallow.

Middle caudal neural arch 1: Like MSF 15.8.889, this neural arch ( MSF 15.8.972, Fig. 5C View Fig ) lacks the transverse processes. It resembles the only slightly larger MSF 15.8. 889 in being proportionately tall and narrow, with a tall neural spine, but differs with respect to the shape and anteroposterior length of the neural spine and the shape of the zygapophyses and facets for the transverse processes.

The neural spine is dorsoventrally lower (27 mm), anteroposteriorly shorter (15 mm) and more angular than in the preceding example, and is more sloped backwards. The suture surfaces for the transverse processes present as anteroposteriorly elongate, dorsoventrally narrow depressions in the lateral surface of the base of the arch, with a pronounced, laterally overhanging dorsal rim. The prezygapophyses are parallel rimmed in lateral view, but rounded in ventral view, extending straight out anterodorsally. Again, tprl, sprl, and sprf are present. The small, pointed postzygapophyses are placed further dorsally, protruding behind the posterior margin of the neural spine and beyond the posterior end of the pedicles. While the cpol are very strongly developed, the tpol and spof are absent. Unlike in the preceding vertebrae, where the spol emanates from the posterior margin of the neural spine (medial spol), this vertebrae bears lateral spinopostzygapophyseal laminae and a postspinal lamina instead. This region of the neural spine is frequently poorly preserved and only rarely figured, precluding comparisons with most specimens, but a postspinal lamina is also figured (though not mentioned) in some caudal vertebrae of P. engelhardti from Bavaria described by Moser (2003).

The pedicles are shallow and very broad anteriorly, becoming narrower posteriorly where they adjoin the articular facet for the transverse process.

Middle caudal neural arch 2: Unlike in the preceding vertebrae, here the transverse processes are fully fused to the arch ( MSF 15.8.476, Fig. 5D View Fig ). The assignment of this arch to “Fabian” is nonetheless supported, on the basis of its small size and overall proportions, which suggest a more posterior position than specimen MSF 15.8.972. The arch is ca. 80–90% the size of MSF 15.8. 972 in all dimensions except for the neural spine, which is slightly taller dorsoventrally (32 mm), but shorter anterioposteriorly (12 mm), making it a more gracile. The prezygapophyses are small and more horizontal than in the preceding vertebra, with their facets set at ca. 45° to the horizontal. There is a well-developed prsl, branching into the two sprl at its ventral end, and a tprl. The postzygapophyses are overhanging the pedicles at the posteroventral edge of the neural spine, as in the preceding vertebrae; their facets are subvertical and connected to weakly developed spol and strong cpol. The transverse processes are long and flat, anteroposteriorly long as compared to the neural spine and, slightly tapering from their base to their subrectangular ends.

Isolated caudal centra: The four preserved isolated caudal centra ( Fig. 5F–I View Fig ) are assignable to the proximal or mid-caudal region based on their size and proportions. An exact positional assignment is not feasible based on the limited features available. In SMNS 13200, the first six caudal centra as tall as or taller than long, with length/height-ratios between 0.75 and 1.0 ( von Huene 1926), which is not the case in any of the complete caudal centra recovered for “Fabian”, but some centra approach the upper bound length/height-ratio of 1.0, suggesting they could have been positioned in or just slightly behind this region of the tail when accounting for individual and ontogenetic variation.

The centra are characterised by rounded antero- and posteroventral corners, forming the attachment points of the haemal arches. All preserved caudal centra are weakly amphicoelous and strongly crushed transversely, resulting in a deep, narrow morphology that is not representative of their original shape. The centra are only weakly constricted along the middle, giving them a subrectangular shape in lateral view. A shallow ventral furrow (as described by Yates 2003) is preserved on the ventral surface of the proximal caudal centra MSF 15.8.975 and MSF 15.8.488. From the anterior to the middle caudals, the centra gradually become shallower and longer, accompanied by an increase in the elongation index from 1.1 in the more proximal caudal centrum MSF 15.8.975, to 1.8 in the more distal MSF 15.8.1058.

Distal caudal vertebra: MSF 15.8.371 ( Fig. 5E View Fig ) is a distal caudal, probably approximately at the position of ca25. The neural arch bears a small facet that appears to be a brokenoff transverse process. The specimen is prepared from the

Fig. 6. Ribs of juvenile Plateosaurus cf. trossingensis Fraas, 1913 skeleton MSF 15.8 View Materials B. from the Norian of Frick, Switzerland. A. Anterior cervical rib, MSF 15.8.2010, in lateral view. B. Middle cervical rib, MSF 15.8 View Materials .1055, in lateral view. C. Posterior cervical rib, MSF 15.8.2011, in lateral view. D. Anterior dorsal rib, MSF 15.8 View Materials .384, in anterior view. E. Posterior dorsal rib, MSF 15.8 View Materials .423, in anteromedial view. F. Posterior dorsal rib and head of middle cervical rib, MSF 15.8 View Materials .727, in medial view. G. Gastraliae, MSF 15.8.2012. Scale bars 10 mm .

left side and the right side remains in the matrix. The most notable feature of this vertebra is the completely closed and visually indiscernible neurocentral suture, a feature not observed in any other material referrable to “Fabian”. Its assignment to the juvenile is hence tentative, because its exact position can not be ascertained, but its small size is within the range expected for its probable position (see Discussion).

The neural spine of this vertebra is very short, shallow and restricted to the posterior extreme of the neural arch, where it is joined by small postzygapophyses. Neither overhangs the centrum, unlike the condition in more anterior caudals. The prezygapophysis is considerably longer, extending anterodorsally and ending in a rounded point beyond the anterior margin of the centrum.

The weakly amphicoelous centrum is elongate, with a length/height-ratio of 1.8 and a very weak central constriction.

Haemal arches: A number of haemal arches preserved with MSF 15.8. ( MSF 15.8.531, 785, 726, 1043, 2009) may or may not pertain to the juvenile individual “Fabian”, depending on their exact position in the caudal column, which could not be ascertained.

The preserved haemal arches vary in length between 50 and 80 mm. Their articular facets are saddle-shaped and consistently 50–70% wider transversely than they are long anteroposteriorly. The transversely flattened haemal processes have varying levels of anteroposterior expansion at their distal ends, ranging from only a barely perceptible expansion in MSF 15.8 View Materials . 726 to the marked spatulate shape of MSF 15.8.2009 .

Cervical ribs: There are three preserved cervical ribs, all characterised by small size ( SOM: table S2), slender shafts and the distinctive morphology of their articular ends.

The most anterior one (Fig. 6A) is a rib from the right side ( MSF 15.8.2010). The lateral side is strongly convex, while the medial side is concave. The articular end is strongly recurved, so that the capitulum is the anteriormost point on the rib, while the tuberculum is deflected back posterodorsally. The articular region takes the shape of a small, flat plate, from whence the rib gradually narrows towards the shaft, whose distal portion is missing.

MSF 15.8.1055 (Fig. 6B) is a right mid-cervical rib, probably pertaining to c5 or c6. The fairly straight shaft of this rib is preserved, despite being extremely gracile, albeit fractured into several pieces, which are prepared from the lateral side. The rib is double-headed, with the tuberculum being the longer of the two articular ends. A shallow groove is visible on the lateral side of the base of the tubercle. A small, incompletely preserved anterior process extends beyond the bases of the articular heads. From the broader articular end, where the diameter of the rib is ca. 6 mm, the shaft gradually tapers over a length of 68 mm towards the tip, where the diameter is only ca. 0.4 mm

MSF 15.8.2011 (Fig. 6C) consists of several fragments of a posterior cervical rib. The articular end assumes an almost perfectly symmetrical Y-shape, with the tuberculum and capitulum emanating at the same angle. One of these processes is slightly thicker than the other and is here assumed to constitute the tuberculum, leading the rib being tentatively assigned to the left side. On the proximal lateral portion of the shaft, a low central keel demarks the midline between the articular processes. Two shaft fragments of relatively uniform width are preserved, but the fracture surfaces do not fit together and their correct articulation sequence could not be determined.

Dorsal ribs: A total of 12 dorsal ribs are preserved, the majority from the left side. Only the probable 13th dorsal ribs (Fig. 6E) are preserved from both sides. Most ribs are missing the distal portions of their shafts, and recorded rib lengths refer to the preserved portions of the shaft only. Ribs in “Fabian” are relatively small and gracile, their diameter never exceeding 15 mm (see SOM: table S2). The longest preserved rib (MSF 15.8.871) measures 290 mm from the tubercle to the preserved end of the shaft, but might have been slightly longer when complete.

Anterior dorsal ribs (MSF 15.8.886, right; MSF 15.8.521, left; MSF 15.8.384, left; MSF 15.8.676, left) are characterised by a long tuberculum and strongly angled capitulum. In these ribs, the tuberculum represents the straight continuation of the shaft, whereas the capitulum is directed ventromedially. In its most extreme expression in specimen MSF 15.8.384 (Fig. 6D), the angle between capitulum and tuberculum exceeds 90°, with the capitulum thus pointing slightly distally. The axis between these two facets would have been close to vertical, especially in the anterior three dorsals, where the parapophyses are situated just below the diapophyses on the centrum or at the neurocentral juncture. The shafts of these anterior ribs are mediolaterally flat, with expanded, spatulate ventral ends. The most extreme development of this condition is again observed in MSF 15.8.384.

In middle (MSF 15.8.977, left; MSF 15.8.871, left; MSF 15.8.822, left) and posterior (MSF 15.8.976, shaft only; MSF 15.8.676b, right; MSF 15.8.423, left; MSF 15.8.891, left) dorsal ribs, the tuberculum gradually decreases in size, while the angle of the proximal rib ends becomes flatter. In articulated skeletons, the change in the angle of the capitulum occurs quite abruptly between the fourth and fifth dorsal ribs, whereas the decrease in prominence of the tubercle going posteriorly is more gradual. This is paralleled in the morphology of the vertebrae, where the parapophysis migrates from the dorsal rim of the centrum in the anteriormost dorsals, through an intermediate position at the neurocentral suture ventral to the diapophysis, to a position mostly anterior to the diapophysis. The rib in these vertebrae thus emanates from the parapophysis to contacts the diapophysis dorsally, from where it curves ventrally. The rib shafts become thinner and less flattened, but they remain ovoid in cross-section, the greatest diameter now being in line with the long axis of the articular ends.

The posteriormost dorsal rib preserved in “Fabian”, MSF 15.8.727 (Fig. 6F) is tentatively identified as d14 or 15. It differs markedly from more anterior ribs in its short, wide shaft (at a length of 47 mm, and a maximum width of 14 mm). Unlike preceding ribs, the articular end is a short, slightly expanded surface from which anteriorly a short, stout capitulum emanates, with a small facet on the posterior end probably representing the tubercle.

The same slab of matrix preserving this rib also contains the isolated articular end of a cervical rib (cf. c8).

Isolated caudal rib: MSF 15.8.1055 is an isolated, unfused caudal rib, pertaining to one of the proximal caudal vertebrae based on its overall size and large anteroposterior width.

Gastraliae: 15.8.2012 (Fig. 6G), a slab of bone containing 9 gracile bony elements, represents the remains of the gastral basket. The three thinnest elements, with a diameter of less than 1.4 mm, taper to acute, curved points, and are interpreted as medial gastraliae, because these are the most gracile elements in the gastral basket of this taxon ( Fechner and Gössling 2014). The remaining bones are shaft fragments of larger lateral gastral elements, with their diameters ranging from 1.4 mm to 2.4 mm.

Appendicular skeleton: Scapula: The scapulae ( Fig. 7A, B View Fig , SOM: table S3) are elongated bones that are gently arched in the mediolateral plane. Clear differences in width and degree of curvature are present between the left (MSF 15.8.551) and right scapula (MSF 15.8.870) as a result of deformation. The long axis of the scapula is herein treated as vertical for the sake of simplicity.

The scapula has marked expansions both dorsally and ventrally, with the narrowest point being situated ca. 40% from the ventral end, where the width is approximately 13% (left) and 9% (right) of greatest length. The dorsal expansion reaches an anteroposterior width of 53 mm (left) and 38 mm (right), corresponding to 30% and 21% of maximum length respectively. The bone is widest ventrally, measured through the flat, rounded acromial process, where its width reaches almost three times that at the narrowest point, 41% and 32% of greatest length for the left and right scapulae respectively. The right scapula is consistently anteroposteriorly narrower but mediolaterally wider than its left counterpart, as well as more strongly curved, which can be attributed to the different directions of diagenetic deformation suffered by these bones (mediolateral for the left, anteroposterior for the right scapula). The dorsal margin of the acromion emanates at an angle of approximately 50° on the left scapula (ca. 20° on the right, where it is affected by compaction).

The dorsal scapular end is thin, rounded and paddleshaped. The right scapula displays a striated surface texture, that is most marked at the proximal expansion and near the glenoid articulation. This texture is less well-preserved on the left scapula. While the scapular blade is mediolaterally thin and flat, especially dorsally, the ventral portion (caput scapulae) is mediolaterally expanded at the glenoid and the coracoid articulation and concave medially. A weakly developed preglenoid ridge curves caudoventrally from the apex of the acromial process, forming the dorsal margin of a shallow preglenoid fossa. The subrectangular glenoid facet is the mediolaterally widest portion of the scapula, and it is delimited by a well-developed lip-like dorsal margin.

Coracoid: The coracoid ( Fig. 7 View Fig CD, SOM: table S3) is of an elongate, subovoid shape, being roughly 2.3 times as long anteroposteriorly as it is wide dorsoventrally. It is laterally convex and medially concave, with prominent margins on its medial side. A short longitudinal ridge runs along the anterior half of the bone. The glenoid facet of the coracoid is more elongated. Resembling the condition on the scapula, the ventral margin of the glenoid is well-defined.

The left and right coracoids differ slightly in overall shape, with the subglenoid buttress (sensu Langer et al. 2007) of the right coracoid (MSF 15.8.1035) being more rounded, whereas that on the left side (MSF 15.8.552) is more tapered. The anterior ridge is better-preserved on the right coracoid. Fine striations are preserved on the right coracoid, most prominently on the subglenoid buttress. No coracoid foramen is present. This feature is variable in other Frick Plateosaurus material, and it is unclear whether it is a result of the contained blood vessel invading the bone later in ontogeny, or a mere preservational artifact.

Humerus: Both humeri ( Fig. 8A, B View Fig ; SOM: table S4) are preserved. The left humerus (MSF 15.8.520) is compacted longitudinally and 10% shorter than its counterpart (MSF 15.8.825), giving it a much more robust shape. The humerus is weakly sigmoidal in lateral view. The proximal and distal ends of the humerus are anteroposteriorly flat but mediolaterally expanded compared to the shaft. The proximal end is bent slightly backwards and the distal articular end rotated counterclockwise (as seen in distal view) relative to the proximal expansion. Hence the radial condyle is placed anteromedial to the ulnar condyle. The articular surface of the humeral head is flat, indistinct and forms the medial, proximal corner of the bone. The lateral edge near the proximal surface is folded anteriorly, forming the deltopectoral crest, which has a rounded shape as seen in lateral view (in the less deformed right humerus) and runs along approximately a third of the entire humeral length. It is relatively shorter and lower than in adults, but is still well developed. The distal condyles are flat and only separated by a weak anteroposterior constriction. The angle of torsion between proximal and distal expansions is ca. 30°. Compared to the femur, the humerus is relatively shorter and more gracile than in adult individuals (e.g, von Huene 1907 –1908, 1926; Klein and Sander 2007; see SOM: table S6).

Radius: Both radii are preserved ( Fig. 8C View Fig 1 View Fig , D), with the left (MSF 15.8.526) being compacted in the same manner as the humerus of the same side, rendering it significantly shorter than its right (MSF 15.8.680) counterpart (see SOM: table S4). The bone shaft is almost round in cross-section. Both ends are expanded relative to the shaft, bearing flat, elliptical articular facets with a pronounced rim. In contrast to adult individuals, a biceps tubercle is absent.

Ulna: Only the left ulna (MSF 15.8.525, Fig. 8C View Fig ) is preserved. The cross-section of the expanded proximal end is triangular, with the anterolateral side being concave proximally for articulation with the radius. The ulna is compacted longitudinally in the same manner as the left radius and humerus, giving it an unnaturally stout shape. The proximal articular surface is only very weakly concave and delimited by a sharp rim. The distal portion is anteroposteriorly flat and expanded to ca. 30 mm in width. The convex distal surface is wide and anteroposteriorly thin. Its cross-section is elliptical. A distinct olecranon process is absent, but the posterior rim of the articular surface is proximally expanded.

Manus: The manus ( Fig. 9 View Fig ) is proportionately long, with the summed length of the longest metacarpal and digit digit II, SOM: table S6) reaching approximately 80% of the length of the humerus. Up to six ossified carpals, including a radiale and ulnare, have been reported in Plateosaurus . However the proximal carpals are usually not preserved (e.g., von Huene 1926; Mallison 2010a), which has led some to suggest that they were cartilaginous ( Van Heerden 1997; Remes 2008). No proximal carpals could be reliably identified for MSF 15.8B., which might imply that these bones had not ossified yet.

The right distal carpal I ( Fig. 9Q View Fig , MSF 15.8.2013) is a flat plate with a roughly triangular outline in proximal and distal aspect. The longest (lateral) edge is 21 mm long in radio-ulnar direction, the dorsopalmar width of the element is 11 mm. The dorsal edge is thickened and a long, low proximal ascending process lines the radial half. On the ulnar side, a shallow furrow separates this process from the rest of the bone, which gradually thins out towards the edges. The distal surface is irregular, bearing a shallow concavity in the middle.

A probable right dc II ( Fig. 9R View Fig , MSF 15.8.406) is also roughly triangular in proximal view, but has a more rounded ulnar corner than dc I and is slightly larger, with the greatest length reaching 24 mm. The dorsal margin is straight, meeting the radiopalmar margin in an acute point. This margin is the thickest portion of the bone, and it is lined by a short crest anteriorly. Both surfaces bear a light concavity.

Three small bone fragments (MSF 15.8.490) probably constitute remnants of other distal carpals, but none are sufficiently complete or distinct to permit a reliable identification.

All metacarpals of the left manus ( Fig. 9A–E View Fig ) are preserved, while the right manus is missing mc V. In general, the phalangeal formula in Plateosaurus is 2/3/4/3/3, with the terminal phalanges of the first three digits being claw-bearing unguals ( von Huene 1926). The left manus is more complete, preserving complete digits I–III and partial digits IV and V. The right manus likewise preserves complete digits I and III, partial digits IV–V, and is missing digit II. All three claw-bearing unguals are preserved on both manus.

Proximally, each metacarpal overlaps its ulnar adjacent metacarpal on the oblique, dorsoradially directed anterior surface. Mc I–III articulate in parallel to each other, while mc IV and mc V are abducted ( Reiss and Mallison 2014).

Mc I is short and stout (proximal width/total length ratio ca. 0.6), roughly rectangular in dorsal and palmar view, and with a flat rectangular cross-section. Subsequent metacarpals are successively more slender, excepting mc V, which is more robust than mc IV.

In mc I, the grooved articular surface is tilted dorsoradially rather than facing purely distally. The posterior distal condyle is much more prominent than the anterior condyle. The neutral posture of the articulated digit is hence abducted from the remaining digits in neutral posture. In subsequent metacarpals, the distal articular surface is only weakly grooved (II–III) to fully convex (IV–V). The proximal articular surfaces are weakly convex in mc I–IV, but concave in mc V (see Fig. 9E View Fig ), differing from adult P. engelhardti sensu Yates 2003 ), where the proximal end of mc V is flat.

The length gradually diminishes from that of mc II (the longest metacarpal) to roughly half its length in mc V (see SOM: table S4). Mc II–IV are progressively more slender, and have more constricted midshaft sections and trapezoid terminal cross-sections. While their dorsal surfaces are weakly convex, the palmar surfaces are lightly concave, with rims formed by the margins of the articular ends. Unlike in SMNS 13200, no thickened bulge of the shaft is present proximal to the articular groove of mc II. Mc I–III bear anterior pits on the distal articular ends.

Digit I, made up by a single non-ungual phalanx and a large, trenchant ungual, displays the most massive bone structure, while subsequent digits are more slender. There is very little torsion between the articular ends of pI-1, partly due to the radioulnar compaction of this bone. The concave proximal articular surface of this phalanx is traversed centrally by a dorsopalmar ridge, which fits into the intercondylar sulcus of the metacarpal. On subsequent digits, these ridges become less prominent and then disappear, in accordance with the distal surfaces of the corresponding metacarpals. All more distal phalanges are proximally convex, with a central ridge to fit the grooved distal articular surfaces of more proximal phalanges, with the dorsal rim overhanging significantly.

The ungals ( Fig. 9K, N, P View Fig ) present on the first three digits are strongly compressed in radioulnar plane. Their size and robustness gradually diminishes in ulnar direction. The proximal articular facets are tall in dorsopalmar direction and saddle-shaped. The flexor tubercles of the unguals are small, but more prominent than on the pedal unguals. Their outer curvature remains relatively uniform, while the inner curvature is weak in ungual I and increases towards ungual III.

Ilium: Both ilia ( Fig. 10A, B View Fig ) are preserved, but heavily affected by compaction (see SOM: table S3). In the left ilium MSF 15.8.717), the axis of compaction appears to have been primarily mediolaterally oriented, resulting in flattening. In the right ilium (MSF 15.8.486) on the other hand, this axis is directed from anterodorsal to posteroventral, resulting in a significantly shortened iliac blade. Two weakly defined ridges are present on the medial surface, extending anteroventrally from the posterior corner and horizontally from the anterior corner of the blade. The lateral surface is weakly concave, delimited by the brevis shelf and supraacetabular crest ventrally and by the lateral eminences of the pre- and postacetabular processes. Fanned striations mark the preacetabular process and dorsal portion of the postacetabular process. The weakly convex dorsal margin is interrupted by a small indentation offsetting the preacetabular process from the rest of the blade. The medially open acetabulum is bordered anterodorsally by a prominent supraacetabular crest that continues onto the long, straight pubic peduncle. The shorter ischial peduncle is broader and flatter than the pubic peduncle and lacks a crest. Its ventral end forms a widened posterior heel. The preacetabular process is short and subtriangular, and does not extend anteriorly to the anterior margin of the pubic peduncle. The postacetabular process is much longer and bears a pronounced posterior mediolateral swelling. Posteriorly, its ventral surface is concave, forming the brevis fossa, which opens up anterolaterally onto the ventrolateral surface of the postacetabular process. The fossa is bounded by lateral and mediolateral brevis shelves, running from the ventral part of the postacetabular process towards the base of the ischial peduncle ( Fig. 10A, B View Fig ), as is characteristic for Plateosaurus and Ruehleia ( Rauhut et al. 2020) . In lateral view, the posterior corner of the postacetabular process is rounded in the left ilium (MSF 15.8.717), but deformation on the right side gives the appearance of a more angular morphology.

Pubis: Only the right pubis (MSF 15.8.383) is preserved ( Fig. 10C View Fig ). The shaft is a roughly parallel-sided plate that is dorsoventrally very thin throughout most of its length, the thickest portion being the rounded lateral rim. The distal end of the shaft is anteroposteriorly thickened. The obturator plate is very thin and angled posteriorly (counterclockwise in dorsal view) from the shaft by ca. 40°. It encloses a large obturator foramen shaped like a strongly rounded triangle as well as a small ventrolateral accessory foramen. The lateral edge of the shaft bears a lightly convex scar approximately 15 mm long in proximodistal direction, corresponding in its position to the pubic tubercle described by Yates et al. (2003), but very weakly developed. The iliac and pubic articulations at the proximal end are thickened anteroposteriorly.

Ischium: Both ischia (MSF 15.8.421) are preserved in articulation but remain separated by a well-discernable suture line ( Fig. 10D View Fig ). The obturator plate of the ischium is very broad anteroposteriorly. Its proximal margin bears two widened facets for articulation with the ilium dorsally and the pubis anterodorsally. The articular facets are separated by a transverse constriction in the ischial rim. In proximal aspect, the ischium is butterfly-shaped. The posterior ischial facets are wider and spaced further apart than the more rounded anterior expansion for articulation with the pubis. The iliac facet is almost triangular in shape, while the pubic facet is narrower and more scythe-shaped. Both facets are slightly angled dorsolaterally. In lateral view, the obturator plate abruptly narrows and is separated from the shaft by a nots, as described by Yates (2003) for P. engelhardti , but the anteroposteriorly narrow shafts are firmly appressed and a medial fenestra is not discernable. Their distal heel faces posteriorly, which might be a result of deformation.

Femur: Both femora ( Fig. 11A, B View Fig , SOM: table S5) are preserved, showing considerable morphological differences as a result of compaction. The right femur ( Fig. 11B View Fig , MSF 15.8.380) is sigmoidal in anterior and posterior view, whereas the left femur ( Fig. 11A View Fig , MSF 15.8.565) appears relatively straight. The left femur is more arched in the parasagittal plane, while the right femur appears completely straight in lateral view. The ratio of anteroposterior to mediolateral diameter at midshaft is ca. 1.7 in the left femur, whereas it is 0.6 in the right femur.

The same differences due to compaction can be observed in the proximal and distal surfaces. The left femoral head is greatly shortened mediolaterally and the medial surface is flattened so that the greatest distal diameter is through the tibial condyle, as opposed to the fibular condyle in the right femur. The femoral head points directly medially, forming a horizontal proximal surface with a shallow central groove. Near the articular ends, the anterior, lateral and posterior surfaces of the femur are striated. The lateral margin of the proximal end is formed by a flat greater trochanter. The cranial trochanter (sensu Galton and Upchurch 2004 = trochanter major of von Huene 1926 = lesser trochanter of Langer et al. 2019) is a rounded, slightly curved crest rising from the anterior surface of the femur; it is well-preserved in the left femur, but broken off in the right. The fourth trochanter is very well developed, forming a crest along the central posterior surface of the bone, starting ca. 70 mm from the proximal extreme of the bone and with a proximodistal length of ca. 50 mm. The thinnest point of the shaft is situated just below it. Anterior to the fourth trochanter, the medial surface of the femur bears an ovoid muscle scar.

The distal end of the femur curves backwards in the left femur, but laterally in the right femur, and the plane of greatest distal diameter is anteroposterior in the left femur, but mediolateral on the right side. The medial (tibial) and lateral (fibular) condyles are separated by a deep sulcus that extends onto the posterolateral surface of the shaft. Anteriorly, the condyles meet to form a thick rim enclosing the intercondylar concavity. The fibular condyle is offset from the lateral surface of the shaft by a shallow groove.

Tibia: Only the left tibia (MSF 15.8.381) is preserved ( Fig. 11C View Fig , SOM: table S5). It is straight, mediolaterally compacted and slightly shorter than the femur. The dorsal articular end is marked by a strong anteroposterior expansion. The mediolateral expansion is less marked as a result of compaction. In proximal aspect, the head appears almost triangular in outline, with a more concave lateral and flat medial side. The proximal surface is flat and steeply sloped laterally. The cnemial crest is weakly developed. The cross-section at midshaft is elliptical, with an aspect ratio (anteroposterior/mediolateral) of 1.7, closely matching the corresponding femur. The distal end is slightly expanded and bears a small descending process (processus distalis posterior or malleolus tibiae of von Huene 1926) which points distally and slightly anterolaterally. The anterior part of the distal articular surface is flat, and separated from the posterior process by a small concavity that continues onto the lateral surface as a groove, excavating the distal part of the bone. The medial part of the distal surface is convex.

Fibula: The left fibula ( Fig. 11D View Fig , SOM: table S5, MSF 15.8.518) is a long, very gracile bone with slightly widened ends, which are set at an angle of ca. 45° from each other. The entire bone is slightly arched, the convex side facing laterally, and the proximal portion additionally curves slightly posteriorly.

Unlike in adult individuals, the fibula is slightly shorter than the tibia, but this might be the result of a minor degree of compaction. In proximal view, the fibula is mediolaterally flat and roughly semilunar in outline. The medial side of the proximal end is markedly concave for ca. 40 mm, below which the shaft cross-section becomes elliptical. The concavity is delimited by prominent rims. A narrow groove runs for another 85 mm down the posteromedial side of the fibular shaft. The distal end has a more elliptical cross-section and is mediolaterally thicker than the proximal end.

Pes: Both astragali are preserved ( Fig. 11F, G View Fig , SOM: table S5), the right one (MSF 15.8.585) more complete than the left one (MSF 15.8.420). In dorsal view, it is wing-like in outline, with a broad, dorsally concave medial portion that terminates in a rounded anteromedial corner, with a convex posteromedial edge. The base of the ascending process runs mediolaterally along the middle of the bone for ca. 18 mm. No foramina are discernible here, however adhering matrix and poor preservation partially obscure anatomical details of this region. The greatest proximodistal thickness of the astragalus, at the anteromedial apex of the ascending process, reaches 17 mm. Laterally, the fibular articulation is formed by a small, slightly concave facet. The entire distal surface is moderately convex.

The right calcaneum ( Fig. 11E View Fig , MSF 15.8.469) is a thick, subrectangular plate, 21 mm long anteroposteriorly and 14 mm wide. The proximal surface is bisected by a ridge running parallel to the curved medial edge. The distal face and sides of the bone remain obscured by adhering matrix.

A small, irregular-shaped plate is preserved proximal to mt II on the slab containing the articulated left pes ( Fig. 12A View Fig ), and is tentatively identified as the corresponding distal tarsal (ta II). The element is flat and weakly convex proximally.

A larger (30 mm by 22 mm), equally flat plate ( Fig. 12B View Fig , MSF 15.8.823) may be ta-III or IV. It resembles a strongly rounded triangle, with lightly convex and concave distal and proximal surfaces respectively. Two small tubercles are present adjacent to the thickened posterior margin of the plate. The maximum thickness is 4 mm.

Another probable distal tarsal is a small, subrectangular plate (MSF 15.8.420), measuring ca. 18 mm long in dorsoplantar direction and thickening towards one end. The distal surface is marked by a shallow concavity, the dorsal surface is slightly saddle-shaped.

The left foot preserves semi-articulated mt I–IV. The disarticulated right foot is represented by mt II–V. The length is smallest in mt I, markedly longer in mt II and greatest in mt III, before decreasing again in mt IV and V (see SOM: table S5). The proximal articular surfaces of mt I through III are flat, those of mt IV and mt V more convex. The distal articular ends are convex to very weakly grooved (mt III).

Mt I has a proximal width/maximum length ratio of 0.5. The flat plantar surface is firmly appressed to the anteromedial surface of mt II. The widest plane of the bone is hence aligned anteroposteriorly to anterolaterally, with a slight degree of torsion between the proximal and distal articular surfaces. In proximal view, the surface of mt I thins out anteriorly.

In mt II and mt III, the shaft cross-section is roughly rectangular, and the expanded distal articular end bears shallow pits on the lateral and medial surfaces.

Mt IV and mt V ( Fig. 12A, C View Fig ) are progressively flatter and more triangular in proximal-cross-section, with the distal expansion absent and the articular surface small and convex. Each metatarsal articulates and overlaps with posterolateral surface of the preceding one.

The phalangeal formula in Plateosaurus is 2/3/4/5/3, the inner four toes terminating in claw-bearing unguals Mallison 2010a; von Huene 1926). The phalanges are mostly preserved, the left foot being more complete than the right. Digits I–III are fully preserved and articulated. A mostly articulated digit IV is also present, but was not found in articulation with the rest of the pes. The left foot preserves digits I–III. The phalanges of the left foot are generally more affected by compaction, giving them a short, flat appearance, while those of the right foot are deeper and longer. Digit V is not preserved.

At the proximal metatarsophalangeal joints, all phalangeal articular surfaces are strongly convex. In more distal phalanges, the proximal articulations are saddle-shaped and have medially strongly overhanging dorsal and plantar margins, while the distal ends are grooved and bear pronounced pits on the medial and lateral surfaces. The more distal phalanges very gradually diminish in size.

Four pedal unguals of the left and three of the right foot are preserved. These are heavily affected by deformation, so that their original shape is difficult to discern. While they are similar to the manual unguals in size and joint morphology, they appear to have been less laterally compressed and straighter than the manual unguals, in accordance with other Plateosaurus -specimens, and do not bear the same pronounced flexor tubercles as the manual unguals.

Body size.—Due to its relative completeness, “Fabian” lends itself to several methods of body size estimation. Femur length has previously been used as a proxy for body size (e.g. Sander 1992; Hofmann and Sander 2014). At 240 mm (see Tables 1, 2, SOM: table S6), the femur of “Fabian” is approximately half the length of the smallest previously known femora of Plateosaurus (Klein and Sander 2007; Hofmann and Sander 2014). This also applies to the estimated femur lengths of previously described juvenile material from Frick ( Hofmann and Sander 2014). Based on the ratio between total length and femur length in GPIT 1 ( Mallison 2010a), this suggests a total body length from the tip of the snout to the tip of the tail of ca. 2.3 m.

Based on comparison of vertebral lengths between “Fabian” and SMNS 13200 (see Fig. 13 View Fig ; Hofmann and Sander 2014; von Huene 1926), the neck and trunk length (including the sacrum) of “Fabian” can be estimated at approximately 450 mm and 640 mm respectively (SOM: table S6). Accounting for an estimated skull length of ca. 150 mm (SOM: table S6), the total rostrosacral length can hence be estimated at 1.22 m. Including the tail, the resulting total length is 2.31 m, closely matching that estimated from the femur length.

The minimum right femur circumference of “Fabian” (85 mm, eccentricity of 1.7) suggests a body mass of 36 kg (25% prediction error range of 27–45 kg) based on femur circumference ( Campione et al. 2014; Campione 2016). Volumetric mass estimates available for specimen GPIT 1 are 600–912 kg ( Gunga et al. 2007; Mallison 2010a). At a femur length of 5.95 m ( Mallison 2010a), this individual appears to represent a typical-sized adult (Klein and Sander 2007). Isometric scaling based on trunk length (the proportionately longer neck is expected to add little to overall mass based on segment volumes calculated by Mallison 2010a) and femur length suggests body masses of 36–54 kg and 40–62 kg respectively, which is roughly consistent with the range predicted from femur circumference.

MSF

Sauriermuseum Frick

SOM

Bulgarian Academy of Sciences

SMNS

Staatliches Museum fuer Naturkund Stuttgart

GPIT

Institut und Museum fur Geologie und Palaeontologie, Universitat Tuebingen

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