New psittacosaurid highlights skull enlargement in horned dinosaurs PAUL C. SERENO, ZHAO XIJIN, LORIN BROWN, and TAN LIN Sereno, P.C., Zhao, X.−J., Brown, L., and Tan, L. 2007. New psittacosaurid highlights skull enlargement in horned dino− saurs. Acta Palaeontologica Polonica 52 (2): 275–284. A new psittacosaurid is based on a nearly complete articulated skeleton from northeastern China that differs principally in skull size as compared to the most common and widespread species, Psittacosaurus mongoliensis. The skull of Psittacosaurus major sp. nov., is 25% larger despite very similar postcranial skeletal dimensions. Such selective skull en− largement is very unusual. Skull size in ceratopsians, in general, scales with positive allometry relative to body mass: spe− cies of greater mass have proportionately larger skulls. This pattern stands in marked contrast to that for other vertebrate herbivores, in which larger−bodied species either have proportionately similar or smaller skulls relative to body mass. Larger−bodied ceratopsians evolved skulls that are 50% or more of trunk length—as measured without their expansive cranial frill. Although contemporaneous duck−billed dinosaurs also exhibit some positive allometry in the skull, skull length remains approximately 35% of trunk length. The evolution of extraordinary absolute and relative skull size among ceratopsians appears to have been driven by sexual selection and involved the tandem evolution of reduced head mobility and an obligate quadrupedal posture. Key words: Ornithischia, Marginocephalia, Psittacosaurus, Cretaceous, Yixian Formation, China. Paul C. Sereno [[email protected]], Department of Organismal Biology and Anatomy, University of Chicago, 1027 East 57th Street, Chicago, IL 60637, USA; Zhao Xijin [[email protected]], Institute of Vertebrate Paleontology and Paleoanthropology, Academia Sinica, Beijing 100044, China; Lorin Brown [[email protected]], 1650 45th Street, Munster, IN 46321, USA; Tan Lin [[email protected]], Long Hao Geologic and Paleontological Research Center, Bureau of Land and Resources, Hohhot 010010, Nei Mongol Autonomous Region, China. Introduction Institutional abbreviations.—AMNH, American Museum of Natural History, New York; LH, Long Hao Institute for Stra− Comparison of skull length versus body mass in most tetra− tigraphic Paleontology, Hohhot, Nei Mongol Autonomous pods shows that larger animals of similar design have skulls Region, China. that are proportionately the same or somewhat smaller in length. Skull length, in other words, scales isometrically or somewhat negatively in the vast majority of tetrapods (MacFadden 1986; Van Valkenburgh 1990). Across mam− Systematic paleontology malian ungulates, skull length and body mass are so tightly correlated that the former often has been used as a proxy for Dinosauria Owen, 1842 the latter (Janis 1990). Ornithischia Seeley, 1888 Here we describe a very peculiar case among dinosaurs Ceratopsia Marsh, 1890 where one species has a skull some 25–30% larger than a Psittacosauridae Osborn, 1923 closely related species despite similar postcranial dimen− sions. The case involves a new species of the Early Creta− Genus Psittacosaurus Osborn, 1923 ceous−age parrot−beaked dinosaur Psittacosaurus. It high− Psittacosaurus major sp. nov. lights the unusual role played by skull size in ceratopsian Derivation of the name: From the Latin, major, meaning greater. evolution. Ceratopsids of Late Cretaceous age, in turn, Holotype: LH PV1, articulated skull and nearly complete postcranial ske− evolved the largest skulls of any terrestrial herbivores, leton (Figs. 1–3). The skull is nearly complete lacking only the right, and whether measured in relative or absolute dimensions. This most of the left, palpebral, and portions of the right postorbital and trend in skull enlargement in larger−bodied species can be squamosal. The postcranial skeleton lacks the left pubis, right radius and characterized quantitatively by plotting skull length as a portions of the right manus, left tibia and fibula, and portions of the left pes. function of estimated body mass. Type locality: Near Beipiao City, Liaoning Province, China. Acta Palaeontol. Pol. 52 (2): 275–284, 2007 http://app.pan.pl/acta52/app52−275.pdf 276 ACTA PALAEONTOLOGICA POLONICA 52 (2), 2007 100 mm Fig. 1. Skull of Psittacosaurus major sp. nov., LHPV 1, Near Beipiao City, Liaoning Province, China, lower portion of the Lower Cretaceous Yixian Forma− tion, in lateral (A) and dorsal (B)views.A1 and A2, photographs; A2 and B2, explanatory drawings of the same. In A2 and B2 the cross−hatching indicates the broken bone and the tone the matrix. Type horizon: Lower portion of the Yixian Formation, Lower Creta− sal skull roof as a result of the narrowest proportions of the ceous (Berriasian to Valanginian in age; Wang et al. 1998). nasals and frontals among psittacosaur species; the most Diagnosis.—Psittacosaurid with a large skull relative to its prominent dentary flanges of any psittacosaur species with postcranial skeleton (30% larger than Psittacosaurus mon− a depth approximately one−third that of the mandibular goliensis and most other species); transversely narrow dor− ramus; ventrolaterally projecting jugal horn; absence (clo− SERENO ET AL.—NEW PSITTACOSAURID AND SKULL ENLARGEMENT IN HORNED DINOSAURS 277 Table 1. Select measurements (cm) of Psittacosaurus mongoliensis (AMNH 6253; Sereno 1987) and Psittacosaurus major sp. nov. (LH PV1). Parentheses indicate estimate. Psittacosaurus Psittacosaurus Measurement mongoliensis major sp. nov. Skull Length in midline 15.21 20.3 Width across jugals 14.21 18.5 Axial column (centrum length) Cervical 2 2.4 2.4 Cervical 3 1.9 1.8 Cervical 4 1.8 1.8 Fig. 2. Relative size of the skull of the adult holotypic specimens of Cervical 5 1.9 2.0 Psittacosaurus mongoliensis (black) and Psittacosaurus major sp. nov. Cervical 6 (1.8) 2.2 (grey) in lateral (A) and dorsal (B) views. Cervical 7 1.7 1.6 Cervical 8 1.9 1.8 sure) of the external mandibular fenestra as in Psittaco− Cervical 9 2.1 1.8 saurus sinensis and P. neimongoliensis; seven sacral verte− Dorsal 15 (2.1) (2.2) brae (one dorsosacral added with rib attachment to the distal Caudal 6 1.8 1.8 end of the preacetabular process), one more than in other psittacosaur species. Appendicular skeleton (maximum length) Scapula 14.8 17.1 Description.—Almost all of the diagnostic features of Psit− tacosaurus major sp. nov. reside in the skull (Figs. 1, 2). In Humerus 12.6 14.9 lateral view, the oval profile of the skull of P. major is the re− Radius 8.1 9.1 sult of the relatively short snout and pronounced dentary Metacarpal III 3.1 3.1 flanges (Fig. 1A). Preorbital length is approximately 33% of Femur 15.7 17.2 skull length, similar to that in P. sinensis and intermediate Tibia 18.11 19.7 between that in P. meileyingensis (27%) and P. mongoliensis Metatarsal III 7.9 8.6 (37%; Sereno 1987). In profile P. major most closely resem− 1 AMNH 6254 bles P. meileyingesis (Sereno and Zhao 1988) as both species have pronounced, projecting mandibular flanges and an an− gular with very deep proportions (deeper than the suran− The maxillary and dentary crowns, as exposed in lateral gular). In the posteroventral corner of the skull, the jugal and view, are very similar to that in Psittacosaurus mongoliensis quadrate and the quadratojugal and squamosal approach (Sereno and Zhao 1988). The lateral aspect of each maxillary each other more closely than in other species but do not es− crown is divided into three parts—a central low primary tablish sutural contact. The mandibular fenestra, which is re− ridge and two lobes to either side. Low secondary ridges are tained as a small opening between the dentary, surangular present on the lobes, the anterior narrower than the posterior and angular in all other psittacosaurid species, is closed in P. lobe. the lateral aspect of the dentary crowns is smooth. A major as preserved on both sides of the skull. bulbous primary ridge on the medial side is exposed along In dorsal view, the skull is very similar to that of P. the apical wear facet in cross−section. mongoliensis except for the narrow proportions of the nasals The vertebral column is nearly identical in form and size and frontals (Fig. 1B). Only a narrow median exposure of the to that in P. mongoliensis (Table 1). The axis is not notice− nasals separates the prefrontals, and the sides of the snout are ably longer or more robust despite the relative increase in exposed to each side of the nasals in dorsal view. The frontals the size of the skull. The sacrum has incorporated an addi− do not expand broadly posterior to the orbit. As a result, more tional dorsal vertebra for a total of seven (Fig. 3). There are of the laterotemporal region is exposed in dorsal view than in only six sacral vertebrae in other psittacosaurid species in P. mongoliensis. The junction of the postorbital and frontal is which the sacrum is known. In these species, the rib of the swollen. Along the postorbital bar, the edge of the postorbital first sacral contacts the base of the preacetabular process. In is everted but not swollen into a boss as in P. sienesis. The P. major, in contrast, the rib of the first sacral sacral articu− ventrolaterally projecting jugal horns are more prominently lates with a raised articular facet close to the distal end of developed than in P. mongoliensis and P. meileyingensis and the preacetabular process, and the second sacral contacts do not project as strongly laterally as in P. sinensis and P. the base of the process (Fig. 3). An additional dorsosacral, xingjiangensis (Sereno et al. 1988). In lateral view, the tip of thus, appears to have been added in P. major. The centrum the jugal horn is situated ventral, rather than anterior, to the of this dorsosacral vertebra is fully coossified with that of laterotemporal fenestra.
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