The First Southern Hemisphere Occurrence of the Extinct Cretaceous Sclerorhynchoid Sawfish Ptychotrygon (Chondrichthyes, Batoidea), With a Review of Ptychotrygon Taxonomy

A new extinct sclerorhynchoid sawfish, Ptychotrygon ameghinorum sp. nov., is presented here based on abundant isolated teeth and some dermal denticles, which were recovered from the Mata Amarilla Formation, belonging to the lower Upper Cretaceous of the Santa Cruz Province in the Austral Basin of Patagonia, Argentina. This new species is the first Ptychotrygon occurrence in the southern hemisphere, which so far only has been reported from northern hemisphere deposits (Europe, North Africa, and North America). The presence of P. ameghinorum sp. nov. in these southern high-latitude deposits of Patagonia, Argentina, extends the geographic range of Ptychotrygon considerably southwards. This distribution pattern in the “middle” Cretaceous seems to correlate with the South Atlantic opening at the end of the Albian. The presence of lateral cephalic dermal denticles and the simultaneous absence of rostral denticles in the abundant fossil material support the view that Ptychotrygon did not develop such rostral structures. A reinvestigation of all known species assigned to Ptychotrygon reveals that P. ellae is a junior synonym of P. boothi, P. benningensis belongs to Texatrygon, P. rugosum belongs to Asflapristis, and P. clementsi represents an unidentifiable species (Ptychotrygon? sp.). The stratigraphic distribution demonstrates that Ptychotrygon might have originated in the Albian in south-western Europe and subsequently dispersed to obtain its widest distribution during the Cenomanian. In the Coniacian, a steep diversity decline is recognizable with a subsequent distribution shift from Europe to North America.


Introduction
Sclerorhynchoidei represent an extinct group of skates (Batomorphii, Rajiformes) that seemingly was successful during most of the Cretaceous period in terms of species richness and distribution (Kriwet & Benton, 2004). This clade is characterized by a hypertrophied rostral cartilage bearing lateral rostral denticles with a specific replacement mode and modified dermal denticles on the lateral cephalic region (Cappetta, 1980). An elongated rostrum evolved several times independently in various batoid groups and thus bears a strong functional signal. Sclerorhynchoids appeared in the fossil record during the Barremian and finally went extinct during the K/Pg boundary event (Kriwet, 1999b;. This group generally is divided into three families. The most diversified family is the Sclerorhynchidae comprising 22 genera, while the other well-defined family, the Ptychotrygonidae, is represented by five genera (Archingeayia included) (e.g., . Recently a third family, the Onchopristidae, was defined including so far a single genus (Onchopristis; Villalobos-Segura et al., 2021). Kriwet et al. (2009) erected the family Ptychotrygonidae to include sclerorhynchoid genera based on various unique features, casting several doubts on the presence of rostral denticles within Ptychotrygonidae. The absence of rostral denticles subsequently was confirmed by a complete skeleton of Ptychotrygon rostrispatula from the Turonian of Morocco that exhibits

Locality and Stratigraphic Settings
Patagonia is the southern part of South America, including the southernmost area of Chile and Argentina. The southernmost sedimentary basin in South Patagonia is the Austral Basin ( Fig. 1). It comprises the Rocas Verdes Marginal Basin that represents a back-arc basin with sediment infill ranging from the Late Jurassic to the Early Cretaceous, and the younger Magallanes Basin that corresponds to a foreland stage, ranging from the Early Cretaceous to the Cenozoic (Varela et al., 2012). The Austral Basin has been known to be rich in fossil remains since the 19th century (Ameghino, 1893), and many groups of Cretaceous vertebrates have been described from this basin. These include chondrichthyans (Bogan et al., 2016), dipnoans (Cione et al., 2007), sauropod and theropod dinosaurs (Novas et al., 2005(Novas et al., , 2008, plesiosaurs (O'Gorman & Varela, 2010), and mammals (Rougier et al., 2011;Martin et al., 2022). The site where the new species described herein is located in the Santa Cruz Province of Argentina (Fig. 1). The fossiliferous deposits belong to the Mata Amarilla Formation (M.A. Fm.), which encompasses sediments ranging from the upper Albian to the lower Santonian (Varela, 2015, Varela et al., 2012. The sediments are divided in three parts: the first part corresponds to deposits of early Cenomanian to middle Cenomanian age, there is an uncertainty about the age of the basal part, which could be late Albian (Varela et al., 2012(Varela et al., , 2018. The first part is characterized as an embayment with freshwater influx influenced by diverse deltaic and estuarine systems (Fig. 2). The eastern part is represented by sediments deposited in lagoons, bay-head deltas, estuaries and littoral marine paleoenvironments, whereas the western part is dominated by a distal-fluvial system (Varela, 2011). The middle part corresponds to deposits of middle Cenomanian to Turonian age and is characterized by a forced regression that led to the establishment of a fluvial system (Fig. 2). The upper part is of Coniacian age and it is also supposed that deposits from the top of that section extend into the lower Santonian (Varela, 2015;Varela et al., 2012). Transgressive deposits characterize this part of the M.A. Fm. that follow a second embayment of the Tres Lagos area.
The fossil remains of the new Ptychotrygon species derive from the lower section of the M.A. Fm, from site 3LAG0 (site 3LAG1 of Cione et al., 2007; Bajada de los Orientales of Varela et al., 2012). The locality is about 40 km east-south-east of the village of Tres Lagos (Fig. 1,No. 8). The fossil-bearing sediments represent the front of a deltaic-estuarine system, located at the frontier between the shallow marine and outer shelf environments (Fig. 2, BO).

Material and Methods
The material described here was collected during an Argentinian-German field project funded by National Geographic Society and German Research Foundation (DFG) in 2009. At site 3LAG0 (see above), bulk sediments were collected from lower Cenomanian layers and subsequently screen-washed in the field. The concentrate was picked in the lab under a stereo microscope for vertebrate remains. Elasmobranch remains were subsequently sorted with the help of digital microscopes (Keyence VHX-1000 and VHX-6000). Some been sputter coated with gold (Sputter Coater SC 500). The systematic scheme and morphological terminology follow the one used by Kriwet et al. (2009), and Villalobos-Segura et al. (2019a. All fossil material will be finally deposited in the Museo Regional Provincial Padre M. Jesús Molina, Río Gallegos, Santa Cruz Province, Argentina, with the prefix MPM-PV.
Class CHONDRICHTHYES Huxley, 1880 Sub-class ELASMOBRANCHII Bonaparte, 1838 Cohort EUSELACHII Hay, 1902 Sub-cohort NEOSELACHII Compagno, 1977 Super-order BATOMORPHII Cappetta, 1980 Order RAJIFORMES Berg, 1940 Sub-order SCLERORHYNCHOIDEI Cappetta, 1980 Family PTYCHOTRYGONIDAE Kriwet, Nunn, and Klug, 2009 Included Genera-Ptychotrygon Jaekel, 1894;Ptychotrygonoides Landemaine, 1991;Texatrygon Cappetta and Case, 1999;Archingeayia Vullo, Cappetta, and Neraudeau, 2007;Asflapristis Villalobos-Segura et al., 2019b. Genus PTYCHOTRYGON Jaekel, 1894 Type Species-Ptychodus triangularis von Reuss, 1845. Diagnosis-(emended from Villalobos-Segura et al., 2019a)-An extinct rajiform characterized by a hypertrophied rostrum lacking rostral denticles; two parallel, laterally located ventral rostral canals present; slender palatoquadrate and Meckel's cartilage; second and third hypobranchials well-developed, close to each other and with no articulation surface with basibranchial; teeth small, less than 2 mm and oval-shaped, with a sharp, strong pyramidal crown and transverse crests; occasionally short transverse ridges present on labial crown face; labial apron variably developed and in some cases with a straight sagittal ridge on upper part; apron bent basally with a truncated projection; lingual crown face less developed than labial one; lingual uvula short and broad with central interlocking depression; labial face sigmoidal in profile view; root of holoaulacorhizous type with single pair of marginolingual foramina; root lobes sub-triangular in basal view; demarcation between the crown and the root is easily distinguished by a depression under the crown that forms a neck. Description-The holotype (MPM-PV 1160.1.1) is an anterior tooth having three transversal crests on the crown, of which the median one is the best developed. This crest extends almost completely transversely across the crown, separating the labial and the lingual portion of the crown. It is continuous and forms a well-defined central cusp, but becomes less marked laterally and finally curves lingually before it connects to the labial crest (Fig. 3C). The labial crest, conversely, is less developed but extends to the distal and mesial crown edges, separating the apron from the rest of the crown (Fig. 3A, C). Additional short, vertical ridges occur margino-labially on each side of the apron, accompanied by some short, undulating horizontal ones below the labial crest.
The lingual crest forms the apical border of the lingual depression and divides the lingual face in a narrow upper portion, which is concave in lateral views, and a steep lower portion that continues into the lingual uvula. Although the lingual crest is less marked and shorter than the medial crest and does not reach the margins of the crown, it is better developed than the labial one. The lingual uvula is short and broad, with a rounded linguo-basal extremity.
The root is significantly lower than the crown and with two wide labial lobes seen in labial view. Each lobe is triangular in basal view, with smooth and rounded angles. The basal surfaces of the root lobes are flat and oblique in labial and lingual views. The central nutritive foramen is narrow. There are two and one margino-lingual foramina, respectively.
only medially slightly convex margino-labial edges. It is characterized by short transverse ridges associated with vertical ridges on the apron in addition to the three characteristic transverse crests of this species (Fig. 4A). The vertical ridges are faint and continue to the apex of the apron. Three transverse crests are present on the oral face with the medial crest being less developed than the medial crest in the holotype (Figs. 3D, E, 4D). Additionally, the central cusp is small, wide and has a rounded angle. The labial ridge is well-developed and bears irregular occlusal crests, as does the ridge on the apron. The crown shape is triangular in labial and lingual views (Fig. 4B, C), and the apron is wide mesio-distally and short. The uvula also is considerably wide. The lingual face is steep and short with a pronounced medial depression for tooth interlocking. This depression is roofed by a prominent, concave ridge, which follows the occlusal outline of the transversal crest in lingual view. The root is low and slightly wider than the crown. The narrow part of the right root lobe close to the furrow is not preserved, and the distal edge extremity of the left root lobe is also missing (Fig. 4C). A single pair of foramina is present on the root rather than one pair and a single one on the holotype. The right lobe close to the furrow is only partly preserved, as is the left root lobe's distal edge extremity (Fig. 4C). A single pair of marginolingual foramina is present on the root, differing from the condition in the holotype.
Paratype MPM-PV 1160.1.3 ( Fig. 4E-H), also represents an anterior tooth and it displays the typical three transverse crests on the oral face. The apron is rather accentuated and well set off from the tooth crown in occlusal view. There is no transversal ridge developed on the apron. The labial crest is rather faint and tectiform in labial view, and a short and vertical sigmoidal ridge starts at the labial transverse crest and extends apically towards the medial one, is present on the labial crown face (Fig. 4E). In occlusal view, the margino-labial edges are convex at the transition from the crown to the apron. The labial transverse crest is interrupted centrally, whereas the medial crest is continuous and rises centrally into a well-developed wide central cusp with a rounded apex ( Fig. 4E-G). Laterally, the medial crest curves lingually. The lingual face exhibits a large and rounded central depression, which is roofed by a short, convex but well-marked crest. The uvula is short and narrow, overhanging the root only slightly. A pair of margino-lingual foramina (plus an additional one) is present on the left root lobe, instead of on the right lobe as in the holotype.
Paratype MPM-PV 1160.1.4 ( Fig. 4I-L) is an asymmetrical antero-lateral tooth, with a better developed distal than mesial crown shoulder. The margino-labial edges are rather straight but convex at the transition to the apron. The apron is well set off from the crown but short and blunt in occlusal view. There are some vermiculate, generally vertically oriented ridges on the apron and the distal margino-labial face below the labial crest. Three transverse crests are present. The medial transverse crest is rectilinear across the complete crown length, before it curves and reaches the labial crest at the margino-labial edges. Centrally, a well-developed central cusp on the median crest is developed, the apex of which is slightly abraded. The lingual ridge is broadly arched concavely and roofs a shallow lingual depression for tooth interlocking. Laterally, the lingual crest continues marginally and becomes irregular at the lateral extremities of the crown's lingual face. The uvula is short, accentuated, and overhangs the root. The root is not well preserved and shows traces of abrasion. Nevertheless, a pair of marginolingual foramina is preserved, with an additional mesial one. Paratype MPM-PV 1160.1.5 ( Fig. 4M-P) most likely represents an anterolateral tooth and is characterized by a triangular tooth crown with slightly lingually curved lateral crown edges. The margino-labial edges are straight and convex, respectively, and continuous with the apron. The apron is short, wide, and blunt. There is a short, transverse and irregular ridge developed on the apron. The labial ridge is rather weak and medially arched towards the central cusp in occlusal view, whereas the lateral portions are curved, reaching the lateral edges of the crown. A faint vertical ridge ascends from the labial ridge centrally, where it is incised extending apically a short distance, but not reaching the apex. This vertical ridge also is present in paratypes MPM-PV 1160.1.3 and MPM-PV 1160.1.4, but not in MPM-PV 1160.1.2 and MPM-PV 1160.1.6. The medial crest is continuous mesio-distally across the tooth crown, reaching the lateral edges of the crown shoulders. Laterally, the crest is curved lingually, centrally it forms a well-demarcated and acute central apex. The lingual face is abrupt and steep. The lingual crest is short and arched apically, roofing the lingual depression, slightly oval in outline, continuing onto the uvula. The uvula is short, narrow, accentuated, and overhangs the root. The root bears two massive and broad root lobes, which are separated by a narrow and shallow nutritive groove. It is not possible to establish the number of marginolingual foramina because the root seems to be slightly re-crystallized or covered by minute particles. In occlusal view, it juts out labio-laterally below the crown.
Paratype MPM-PV 1160.1.6 ( Fig. 4Q-T) appears to represent a lateral tooth, as is quite distinctive from all other paratypes in that it is triangular in occlusal view with an elongated and acute apron. Nevertheless, the tooth is elongated mesio-distally in labial and lingual views, supporting its assignment to a lateral tooth row.
The labial crest is irregular and incomplete centrally, where the two mesial and distal portions are recurved anteriorly and extend onto the apron. Additional short, almost knoblike vertical ridges are present margino-labially (Fig. 4R), similar to the condition observed on the holotype (Fig. 3C). The medial crest is continuous across the tooth crown and rises centrally into a triangular apex. In labial and lingual views, the crown is low and mesiodistally elongated with the distal crown being lower and more elongated than the mesial one. The lingual crest is broadly arched apically, roofing a shallow and basally far-reaching central depression. The lingual face is steep and reduced as on all other specimens. The apex is somewhat damaged lingually. A small tubercle is visible lingually on the mesial crown shoulder that resembles the condition seen in MPM-PV 1160.1.4 (Fig. 4O). This tubercle seems to be a remnant of the lingual crest that is slightly extended distally in MPM-PV 1160.1.5 (Fig. 4S) and only separated from the lingual crest in MPM-PV 1160.1.4 (Fig. 4K) by a small gap. The root is incomplete, with most of the distal lobe missing. The distal lobe is better preserved and displays a pair of margino-lingual foramina. The basal face of this root lobe is almost horizontal.
Dental Variation-Small dental variations can be observed in P. ameghinorum sp. nov.
Accordingly, most of the teeth possess a well-developed central cusp and an additional marginal foramen, which is missing, in other teeth (e.g., MPM-PV 1160.1.2; Fig. 4A-D). The position of the additional lingual foramen varies and either is located on the right (distal?) lobe in the holotype or on the distal lobe in several paratypes (Fig. 4G, K). The marginal foramen position inversion could indicate a symmetrical pattern in the jaw rami. The occlusal ornamentation varies to some degree labially with respect to the apron and/or labial crest, which might be related either to position in the jaws or could indicate some sort of sexual dimorphism. This, however, can only be established with more articulated skeletal material and thus remains very hypothetical. We nevertheless do not deem the differences to be sufficient to assign the teeth to two different species. The presence of an additional, fourth ridge on the apron resembles the situation seen in the Campanian species P. boothi.
However, this ridge never is as well developed as the three crests, which is a common morphological feature of the new species. The apron length and form also vary between specimens and can be quite short or well extended labially (Fig. 4D, T). Additionally, the apex ranges from being low and broad to high and accentuated, which we consider to represent variations within the dentition. Thus, the dental variation indicates the dentition to be gradient monognathic.
Dermal Denticles-Two types of dermal denticles were recovered from site 3LAG0 in association with teeth of P. ameghinorum sp. nov. The first morphotype possesses a rounded, globular crown with small vertical folds along the lateral margins. The apical part of the crown is relatively flat, mostly smooth, and irregular in outline in apical view. However, a weak transverse and lightly pronounced crest was observed apically in one denticle (Fig.  5B). The root is wide at its base and decreases in size apically forming a narrow collar between root and crown. Foramina occur in the upper part of the root, below the neck (Fig.  5C, F). By their rounded and relatively smooth aspect, these denticles might come from the snout region, which is similar to what is found in many neoselachians (Thies & Liedner, 2011).
The second morphotype resembles rostral denticles to some extent, as they are characterized by a high root and a shorter, slightly posteriorly inclined cusp (Fig. 5G-L). The cusp is laterally compressed, devoid of any distinct anterior and posterior cutting edges, but displays faint ridges on its lateral sides. The root is asymmetrical in anterior and posterior views with a flaring base that is basally divided by a shallow and broad furrow (Fig. 5 I, J). In apical view, the base is well extended laterally below the cusp, but less so antero-posteriorly. In lateral view, the root is high and antero-posteriorly narrow. The morphology of this denticle corresponds to those found commonly in the lateral cephalic region of sclerorhynchoids, which can be clearly distinct from sclerorhynchoid rostral denticles which are enlarged and associated with a well-developed cusp (Wueringer et al., 2009;Welten et al., 2015). Another type of lateral cephalic denticle also was found in 3LAG0 deposits, differing from the first one described above by a shorter root and reduced denticle height (Fig. 5M, N). The crown also is more compressed antero-posteriorly forming blunt lateral cutting edges. This second type of cephalic denticle, by its reduced height, was positioned more distally to the rostrum than the elongated cephalic denticles described above. more reduced labial crown face, labio-lingually compressed teeth, absence of apron, a single occlusal crest, and the absence of a lingual depression in most teeth (where it is present, there is no lingual crest roofing the depression).
• Asflapristis Villalobos-Segura, Underwood, Ward, and Claeson (2019b) based on skeletal remains from the Turonian of Morocco, differs from Ptychotrygon by homodont teeth that are wider than high, rounded, with a weak labial apron, lack a central cusp, and a well-pronounced oral ornamentation consisting of small and connected ridges.
• Ptychotrygonoides Landemaine (1991), described from the Cenomanian-Turonian of Europe, is characterized by teeth that are much broader anteroposteriorly than labio-lingually, a less marked uvula with a well-marked depression, a very abrupt lingual face, a well-developed basal bulge of the root, a strongly cuspidate crown, an extended labial crown face, and a wide but stout apron. These characters, however, occur variously in species of Ptychotrygon, which is why Kriwet et al. (2009) considered Ptychotrygonoides to be synonymous with Ptychotrygon.
• Texatrygon Cappetta and Case (1999), described from the Late Cretaceous of North America, can be distinguished from Ptychotrygon by a high and triangular tooth crown, the absence of transversal crests, a very different ornamentation pattern on the labial side of the crown and the presence of a pustule above the lingual depression instead of a crest.
Twenty-two species of Ptychotrygon have been described thus far, and theses differ from Ptychotrygon ameghinorum sp. nov. by the presence or absence of diverse characteristics and by chronostratigraphic and spatial ranges: • P. agujaensis McNulty and Slaughter (1972), described from Campanian deposits of North America, can be differentiated from P. ameghinorum sp. nov. by having lower teeth with only one poorly developed transverse crest.
• P. blainensis Case (1978), described from Campanian deposits of North America, differs from P. ameghinorum sp. nov by teeth having reduced labial and lingual crests, a characteristic labial ornamentation extending to the central cusp, a higher and more triangular crown, and a single pair of marginal foramina.
• P. benningensis Case, Schwimmer, Borodin, and Leggett (2001), described from Santonian deposits of North America, can be differentiated from P. ameghinorum sp. nov. by higher and more massive teeth that are less extended margino-distally, a reduced labial crest, and a shorter and wider apron.
• P. boothi Case (1987), described in Campanian deposits of North America, has teeth that resemble those of P. ameghinorum sp. nov., but differs in the presence of four transverse crests, and a less pronounced uvula below the lingual depression.
nov. by having poorly pronounced transverse crests, associated with a very weak ornamentation, and a more extended uvula overhanging the root on the lingual face, where only a single pair of marginal foramina is present.
nov. in having weak or even lacking transverse crests, the absence of any ornamentation, and lack of an additional marginolingual foramen.
• P. cuspidata Cappetta and Case (1975a), described from lower Maastrichtian deposits of North America, differs from P. ameghinorum sp. nov. by having a massive, rounded, and high main cusp, the absence of transverse crests.
• P. ellae Case (1987), described from Campanian deposits of North America, resembles P. ameghinorum sp. nov. to some degree in having three transverse crests with the median one being as pronounced as the anterior of P. ameghinorum sp. nov. It nevertheless can be easily distinguished from the new species from Patagonia in having an even more reduced lingual face, a more rounded lingual depression, and the presence of additional lateral foramina on each side of the root.
• P. eutawensis Case, Schwimmer, Borodin, and Leggett (2001), reported from Santonian deposits of North America, differs from P. ameghinorum sp. nov. by lacking labial and lingual transverse crests, absence of a central cusp, and a reduced crown height.
• P. greybullensis Case (1987), reported from Campanian deposits of North America, differs from P. ameghinorum sp. nov. in lacking a labial transverse crest, lacking an additional foramen, and lacking of any ornamentation on the labial side of the crown.
• P. geyeri Kriwet (1999b), reported from the late Albian to the early Cenomanian of Spain, differs from P. ameghinorum sp. nov. in having a less pronounced lingual face and a less developed lingual depression.
• P. gueveli Cappetta (2004), reported from Turonian deposits of France, can be differentiated from P. ameghinorum sp. nov. by a well-developed ornamentation consisting of irregular and anastomosing ridges, the presence of only one transverse crest which is less marked than in the new species described here, and a more massive bulbous crown.
• P. henkeli Werner (1989), described from the Cenomanian of Egypt, resembles P. ameghinorum sp. nov. in having a strong lingual crest and a well-marked median crest. It, nevertheless, can be differentiated based on the presence of ridges covering the median part of the crown, the presence of two pairs of marginolingual foramina, and a wider lingual depression.
• P. ledouxi Cappetta (1973), reported from Turonian deposits of North America, differs from P. ameghinorum sp. nov. in having lower teeth, a less marked median transverse crest, and more compact anterior teeth. • P. pustulata Kriwet, Nunn, and Klug (2009), described from upper Albian to lower Cenomanian deposits of Spain, can be distinguished from P. ameghinorum sp. nov. by less marked transverse crests, a central cusp that is not well differentiated and a significantly shorter apron.
• P. rostrispatula Villalobos-Segura, Underwood, and Ward (2019a) based on complete skeletal remains in association with articulated dentitions, from Santonian deposits of Morocco, resembles P. ameghinorum sp. nov. in their tooth morphology. However, the Moroccan species can be differentiated from the new species by a less marked and shorter apron, associated with reverse V-shaped labial crest centrally forming a chevron-like structure, a less marked central cusp, and by a root with a convex basal face.
in having teeth with a relatively flat occlusal surface associated with reduced transverse crests, a bulky root, and a shorter median face associated with a wide and square apron.
• P. slaughteri Cappetta and Case (1975b), reported from Cenomanian deposits of North America, exhibits a dental morphology similar to that of P. ameghinorum sp. nov. in occlusal view. Nevertheless the Texan species can be distinguished from the Patagonian species by an oblique labial face, a median crest that extends lingually, and a more marked lingual depression in association with a less developed lingual transverse crest.
• P. striata Kriwet, Nunn, and Klug (2009), described from the lower Cenomanian of Spain, can be differentiated from P. ameghinorum sp. nov. by the higher and wider tooth crown and central crest and the presence of well-marked vertical folds on the lingual and labial sides around the central cusp.
• P. triangularis Reuss (1845), reported from the Cenomanian to the Coniacian of Europe and North America, differs from P. ameghinorum sp. nov. in having a strong ornamentation on the occlusal crown surface that is relatively flat and lacks a well-marked median cusp.
• P. vermiculata Cappetta (1975), described from lower Maastrichtian deposits of North America, resembles P. ameghinorum sp. nov. in the shape of the root in basal view and the presence of an additional foramen. However, the median transversal crest is more developed and associated with a central cusp in P. ameghinorum sp. nov., while in P. vermiculata the transverse medial crest is wide and rounded, the labial face bears a vermiculate ornamentation. The crown is also comparably higher in the new species from Patagonia.
• P. winni Case and Cappetta (1997, reported from the Maastrichtian of North America, differs from P. ameghinorum sp. nov. in having teeth with a more reduced lingual face, a deeper and wider root, a poorly developed labial ridge, and a prominent cusp. An ornamentation of sigmoidal ridges is also present on the occlusal surface, which can form more or less parallel lines on the labial face of the crown.

Evolutionary Considerations
Members of Ptychotrygonidae can be easily distinguished from all other sclerorhynchoids by the absence of lateral and ventral rostral denticles, as revealed by skeletal remains of Ptychotrygon and Asflapristis. It therefore can be hypothesized that rostral denticles were lost once in the evolution of sclerorhynchoids and their absence is a synapomorphy of ptychotrygonids, rather than a plesiomorphic trait for the total clade Sclerorhynchoidei. The oldest teeth and rostral denticles of sclerorhynchoids were reported from the Barremian and Aptian (Early Cretaceous), respectively, and can be assigned to nonptychotrygonid sclerorhynchoids (Thurmond, 1971;Kriwet, 1999a), while the oldest records of ptychotrygonids come from the Albian (Kriwet, 1999b). This temporal distribution is in accordance with the assumption that rostral denticles were lost within sclerohynchoids and represents an apomorphic rather than a plesiomorphic trait, bearing in mind that the fossil record, of course, is highly biased.

Taxonomic Implications
The stratigraphic ranges of the 22 described Ptychotrygon species from the Cretaceous highlight several peculiarities (Fig. 6). Several species seemingly have the same spatial and temporal range, such as P. benningensis, P. chattahoocheensis, P. eutawensis, and P. rugosum, all from the lower to middle Santonian of North America (Case et al., 2001), or P. boothi, P. ellae, and P. greybullensis from upper Campanian deposits of North America (Case, 1987). Both, P. boothi and P. ellae (Case, 1987) occur in the same locality and formation (Case Estuary, Mesaverde Fm., Wyoming) and display very similar morphologies. The main difference is the presence of a well-developed central cusp on the medial transverse crest in the tooth crowns of P. boothi, which is absent with P. ellae and suggests a case of sexual dental dimorphism (see below). We suggest, following Article 23 of the International Code of Zoological Nomenclature, to consider these two Campanian species as synonyms and, by applying the priority principle of the ICZN article 23.1, to synonymize P. ellae with P. boothi.
The two Santonian species, P. benningensis and P. rugosum, described by Case et al. (2001) from the Eutaw Formation (Georgia, U.S.A.) were discussed by Cicimmuri et al. (2014) and P. benningensis, described first as Erguitaia benningensis, consequently was assigned to Texatrygon, while the species rugosum, described first as Erguitaia rugosa by Case et al. (2001) and then attributed to Ptychotrygon by Cappetta (2006), was retained as P. rugosum. The attribution of the species P. rugosum to the genus Ptychotrygon is doubtful considering its tooth morphology. This species is characterized by a hexagonal tooth crown in occlusal view and an occlusal surface that is characterized by numerous but short transverse crests that are mainly located on the labial occlusal face. The occlusal face is relatively flat and continues into a broad rectangular apron. The lingual crown ornamentation is characterized by anastomosing and discontinuous ridges, which are associated with a shallow central depression on the lingual face. This tooth morphology is more reminiscent of teeth of Asflapristis cristadentis, described from the Turonian of Morocco (Villalobos-Segura et al., 2019b) than of that of Ptychotrygon. The species Asflapristis rugosa comb. nov. (Article 34.2 and 48 of the ICZN) differs from A. cristadentis in a deeper tooth root, more transverse crests and an ornamentation that is restricted to the lingual face instead of to the labial face of the tooth crown as in A. cristadentis. The new combination strongly increases the spatial distribution and stratigraphic range of the genus Asflapristis that was only described from the Turonian of North Africa, and now is also known from the Santonian of North America. Important characters are not described for P. eutawensis (Case et al., 2001). For further comparison and diagnosis, holo-and paratypes should be re-investigated.
The species P. clementsi was erected by Case et al. (2017) based on two isolated teeth, corresponding to the holotype and the paratype. These specimens lack well-marked transverse crests and occlusal or margino-labial ornamentations, and are rather globular and blunt, due to the poor preservation state. Consequently, the assignment of these specimens to a distinct species of Ptychotrygon is rather ambiguous and we suggest considering them as Ptychotrygon? sp. Therefore, P. clementsi should be regarded as a nomen dubium.

Sexual Dental Dimorphism
The absence of a well-developed cusp on the transverse medial crest in several teeth of the new species described herein probably indicates sexual dental dimorphism. Sexual dimorphic patterns are well known in the dentition of various extant and extinct batomorphs and selachiomorphs (e.g., Cappetta, 1973;Kajiura & Tricas, 1996;Underwood et al., 1999;Everhart, 2007;de Sousa Rangel et al., 2016;Berio et al., 2020). Especially in batomorphs, males display at least seasonally different tooth morphologies from females, in that their teeth develop an accentuated cusp, which is used to hold on to the pectoral fins of the female during copulation. Sexual dental dimorphic patterns in ptychotrygonids already were suggested by Case et al. (2001). We consequently assume, even though the sample of teeth of the new species described here is limited, that this species had sexually dimorphic dental patterns.

Dermal Denticles
The dermal denticles recovered from site 3LAG0 representing two distinct morphotypes correspond well to those known from the skeletal remains of Asflapristis (Villalobos-Segura et al., 2019b). In this respect, the first morphotype ( Fig. 5A-F) resembles rounded dermal denticles in the mouth region of Asflapristis. Incomplete dermal denticles found in association with A. cristadentis and described as thorn-like rostral denticles (Villalobos-Segura et al., 2019b), seem to correspond to the second type of dermal denticles described above (Fig. 5G-N). Similar denticles are reported in association with ptychotrygonid teeth from the Late Cretaceous of France and England, described as sclerorhynchoid indeterminate and Micropristis? sp. rostral teeth (Vullo et al., 2003;Guinot et al., 2012). These dermal denticles, like those of Sclerorhynchus atavus, belong to the antero-morphology to the second type of dermal denticles described here (Jansen et al., 2012;Hoganson et al., 2019). However, a preserved rostrum of Ischyrhiza mira shows that the rostral denticles of Ischyrhiza are very different to those of morphotype 2 described here (Sternes & Shimada 2019 This also implies that the elements identified as rostral denticles by Jansen et al. (2012) and Hoganson et al. (2019) are in fact dermal denticles from the antero-lateral cephalic region. Confusion of cephalic dermal denticles and rostral denticles results from similar morphologies of these structures in different sclerorhynchoid genera, such as Micropristis or Sclerorhynchus (Cappetta, 1981;Vullo et al., 2003;Guinot et al., 2012;Welten et al., 2015). The development of cephalic dermal denticles and rostral denticles, even though superficially similar, correspond to a regionalization of the modified rostral and cephalic denticles as hypothesized by Welten et al. (2015).
Ptychotrygon ameghinorum sp. nov. is the only attested sclerorhynchoid taxon based on the isolated teeth from 3LAG0 deposits that are mainly dominated by dipnoans and teleosteans. Instead of teeth, lateral cephalic denticles of sclerorhynchoid do not bear significant information supporting a diagnosis. Besides, the cephalic denticles described here cannot be attributed to Kiestus, Ischyrhiza, or any sclerorhynchoid by the absence of teeth related to these taxa in 3LAG0 deposits. By the presence of Ptychotrygon ameghinorum sp. nov. in association with lateral cephalic denticles in 3LAG0 deposits, and the absence of additional sclerorhynchoid taxa in 3LAG0 layers, the attribution of these lateral cephalic denticles to Ptychotrygon ameghinorum sp. nov. is the parsimonious decision.

Stratigraphy and Paleobiogeography
Ptychotrygon ameghinorum sp. nov. is the first reported and described species of Ptychotrygon from the southern hemisphere. Previously scarce material from late Campanian to Maastrichtian Peruvian deposits was assigned to Ptychotrygon but without species attribution (Cappetta in Jaillard et al., 1993). However, the preservation of the single tooth is poor, as only a part of the crown is preserved and the authors provided no illustration. This material occurrence has not been referred at a later date by the author in Cappetta (2004. Therefore, we consider this record as doubtful. The oldest records of Ptychotrygon are from the Albian (P. geyeri Kriwet, 1999b) and Albian to lower Cenomanian (P. pustulata Kriwet, Nunn, and Klug, 2009) from Spain.
This suggests that the center of origin for this genus was somewhere in southwest Europe, probably on the Iberian Peninsula. However, this needs to be corroborated by additional diversity analyses, which are not the focus of this study. Ptychotrygon displayed its greatest taxonomic diversity and distribution during the Cenomanian, with the first records outside Europe in North Africa, South and North America (Fig. 6). The Coniacian saw the lowest diversity, P. triangularis (Reuss, 1845) being the singular species reported from this time interval in North America (Hamm & Cicimurri, 2011). This low diversity, however, most likely represents a collecting bias, because the diversity of Ptychotrygon before (Turonian) and after (Santonian) the Coniacian was significantly larger. The stratigraphic and geographic distribution of Ptychotrygon apparently increased significantly from the Santonian to the Maastrichtian but all described Ptychotrygon species are from North America. This seemingly diverging occurrence pattern in North America and the rest of the world could represent also a collecting bias rather than a real diversity signal and indicates that the North American fossil record is obviously better sampled whereas European marine deposits apparently were less studied. Although Ptychotrygon was reported from the Maastrichtian of Morocco and Egypt, these specimens were not identified at the species level (Cappetta, 1991;Noubhani & Cappetta, 1997). Our short stratigraphic and paleobiogeographic review demonstrates that our knowledge of Ptychotrygon in terms of species abundances and occurrences still is very incomplete. But it is obvious that Ptychotrygon was a victim of the K/Pg boundary event (see also Kriwet & Benton, 2004).

Conclusion
Ptychotrygon ameghinorum sp. nov. is the first unambiguous species of Ptychotrygon from the southern hemisphere and represents the southern-most record of ptychotrygonids, increasing its known distribution significantly. A review of all 22 previously described species demonstrated that some taxa have to be either synonymized or transferred to other ptychotrygonid genera. This leaves 19 valid species including P. ameghinorum sp. nov.
( Fig. 7), with a stratigraphic range from the Albian to the Maastrichtian. During the early Late Cretaceous (Cenomanian-Turonian), Ptychotrygon is well known and distributed in the Tethyan realm in North Africa, Europe, and North America (Werner, 1989;Cappetta & Case, 1999;Cappetta, 2004;Vullo et al., 2005;Kriwet et al., 2009;Néraudeau et al., 2016). The first occurrence of Ptychotrygon in the Cenomanian of the Santa Cruz Province in southern Patagonia is striking, because southern Patagonian elasmobranch associations, at least in the Maastrichtian, are dominated by cold-water taxa with affinities to the Weddellian Bioprovince such as Paraorthacodus or Notidanodon (Ameghino, 1893;Bogan et al., 2016).
Northern and central Patagonian Maastrichtian elasmobranch faunas, conversely, show strong Tethyan influences during the Late Cretaceous, including warm-water taxa such as as Serratolamna, Squalicorax, or Hypolophodon (Bogan & Agnolin, 2010;Bogan & Gallina, 2011). The faunal differentiations in Patagonia thus seem to be strongly influenced by ocean circulation patterns. Sclerorhynchoid sawfishes, however, have not been reported from the Weddellian Bioprovince up to now, which indicates that the Weddellian influence on the Austral Basin during the Cenomanian might have been only minor or completely absent. This also would imply that the faunal differentiations related to oceanic currents might have occurred after the Cenomanian. More material from the Cenomanian from northern and southern Patagonia is necessary to establish such patterns in detail. Migration of Ptychotrygon to southern South America was facilitated by the successive opening of the southern Atlantic. Whether Ptychotrygon was able to establish itself as a successful element of Late Cretaceous South American elasmobranch faunas remains unanswered currently due to the lack of material, which in Patagonia clearly is biased towards large-toothed taxa. More targeted bulk sampling of Cenomanian to Maastrichtian deposits of Patagonia to retrieve abundant micro-toothed taxa is mandatory for better understanding evolutionary and diversity patterns of southern hemisphere elasmobranchs.  Changing landscape of the study area during the different phases of the sediment deposition of the Mata Amarilla Formation. Locality No. 8 corresponds to the locality 3LAG0 (from Varela et al., 2013).