[Paleontology • 2024] Coahuilasaurus lipani • a New Kritosaurin Hadrosaurid (Hadrosauridae: Saurolophinae) from the Upper Campanian Cerro Del Pueblo Formation, Northern Mexico

Coahuilasaurus lipani

Longrich, Velasco, Kirkland, Torres & Serrano-Brañas, 2024

 

DOI: 10.3390/d16090531  

Life reconstruction by C. Díaz Frías

Abstract

The Late Cretaceous of Western North America (Laramidia) supported a diverse dinosaur fauna, with duckbilled dinosaurs (Hadrosauridae) being among the most speciose and abundant members of this assemblage. Historically, collecting and preservational biases have meant that dinosaurs from Mexico and the American Southwest are poorly known compared to those of the northern Great Plains. However, evidence increasingly suggests that distinct species and clades inhabited southern Laramidia. Here, a new kritosaurin hadrosaurid, represented by the anterior part of a skull, is reported from the late Campanian of the Cerro del Pueblo Formation, ~72.5 Ma, in Coahuila, Mexico. The Cerro del Pueblo Formation kritosaur was originally considered to represent the same species as a saurolophine from the Olmos Formation of Sabinas, but the Sabinas hadrosaur is now considered a distinct taxon. More recently, the Cerro del Pueblo Formation kritosaur has been referred to Kritosaurus navajovius. We show it represents a new species related to Gryposaurus. The new species is distinguished by its large size, the shape of the premaxillary nasal process, the strongly downturned dentary, and massive denticles on the premaxilla’s palatal surface, supporting recognition of a new taxon, Coahuilasaurus lipani. The dinosaur assemblage of the Cerro del Pueblo Formation shows higher diversity than the contemporaneous fauna of the Horseshoe Canyon Formation in Alberta. Furthermore, Kritosaurini, Lambeosaurini, and Parasaurolophini all persist into the latest Campanian in southern Laramidia after disappearing from northern Laramidia. These patterns suggest declining herbivore diversity seen at high latitudes may be a local, rather than global phenomenon, perhaps driven by cooling at high latitudes in the Late Campanian and Maastrichtian.

Keywords: Dinosauria; Hadrosauridae; Saurolophinae; Kritosaurini; Cretaceous; Campanian; Laramidia; biogeography

 IGM 6685, holotype Coahuilasaurus lipani. (A), rostrum with posterior skull reconstructed in left lateral view; (B), scaled silhouette. The animal is estimated to have been around 8 m in length.

Dinosauria Owen 1842

Ornithopoda Marsh 1881 

Hadrosauridae Cope 1869 

Saurolophinae Brown 1914 (sensu Prieto-Márquez, 2010)

Kritosaurini Brett-Surman 1989 (sensu Prieto-Márquez, 2014)

Coahuilasaurus lipani gen. et sp. nov.

Etymology. Coahuila in reference to Coahuila State + Greek sauros, ‘lizard’; lipani references the Lipani Apache tribe of Coahuila.

Diagnosis. Large kritosaurin with an estimated length of ~8 m (Figure 5). Distinguished by the following unique character combination (* = autapomorphies). The anterior margin of premaxillae is strongly convex in lateral view; the anterodorsal margin of the narial process is subtly sinusoidal in lateral view, being concave anteriorly then weakly convex posteriorly *. The narial aperture is narrow and slot-like and strongly extended anteroventrally *. The premaxillary labrum is deep anteriorly, becoming shallower posteriorly. The posteroventral corner of the premaxillary beak is strongly angular, with the anteroventral margin and posteroventral margin forming approximately a right angle in lateral view *; the posteroventral margin of the premaxilla is strongly concave in lateral view. The premaxilla is short and broad in dorsal view. The oral margin of the beak bears a series of 5–6 small denticles. The palatal surface of the premaxilla forms a horseshoe-shaped ridge projecting far below the oral margin *; the ridge bears three pairs of massive, diamond-shaped denticles*. The nasal–premaxillary contact is posteriorly positioned, probably near the end of the nasal aperture. Very large narial flange of premaxilla *. The predentary oral margin is strongly concave in the lateral view and has a steeply inclined rostroventral margin, and the tip is hooked up strongly in lateral view (approached in Gryposaurus monumentensis). There is a narrow U-shaped notch between predentary lateral processes and ventral processes (shared with Gryposaurus monumentensis); the ventral processes are long and slender. The edentulous end of the dentary is strongly downturned, with a strongly convex anterodorsal margin, and a long ventral contact between the dentaries.

 

 Map showing localities of kritosaurins from the Late Cretaceous of western North America (Laramidia).
1,2, Gryposaurus notabilis (incl. G. incurvimanus) Dinosaur Park Formation, Alberta; 3, Gryposaurus latidens, Two Medicine Formation, Montana; 4, Gryposaurus sp., Bearpaw Shale, Montana; 5, Kritosaurini indet., North Horn Formation, Utah;
6, Rhinorex condrupus, Neslen Formation, Utah; 7, Gryposaurus monumentensis, Kaiparowits Formation, Utah; 8, Anazisaurus horneri, Farmington Formation of the Kirtland Formation of New Mexico; 9, Naashoibitosaurus ostromi, De-Na-Zin Member of the Kirtland Formation of New Mexico; 10, Kritosaurus navajovius, De-Na-Zin Member of the Kirtland Formation of New Mexico;
11, Naashoibito kritosaurin, Naashobito Member of the Kirtland Formation of New Mexico; 12, Gryposaurus (?) alsatei, upper Javelina Formation, Texas; 13, cf. Kritosaurus, UTEP P.37.7, basal Javelina Formation of Texas; Aguja Formation, Texas; 14, Aguja Fm. Kritosaur, AMNH 3079; 15, Coahuilasaurus lipani, Cerro del Pueblo Formation, Coahuila. Map by Ron Blakey.

Conclusions: 

A partial skull from the latest Campanian of the Cerro del Pueblo Formation of Coahuila, Mexico, represents a new species of kritosaurin, Coahuilasaurus lipani (Figure 20). Along with specimens from the Naashoibito Member of the Kirtland Formation in New Mexico, C. lipani documents the persistence of kritosaurins in the south after local extinction in northern Laramidia, a pattern also seen in Parasaurolophini and Lambeosaurini.

Southern faunas not only have distinct species, but different patterns of diversity change, compared to northern Laramidian faunas. Differences in species composition and community structure in different parts of Laramidia mean that further work on the dinosaurs of Mexico and the American Southwest is needed to understand the evolution of dinosaur diversity in western North America. Southern dinosaur faunas may have been characterized by both higher origination rates and lower extinction rates than northern faunas.

 Nicholas R. Longrich, Angel Alejandro Ramirez Velasco, Jim Kirkland, Andrés Eduardo Bermúdez Torres and Claudia Inés Serrano-Brañas. 2024. Coahuilasaurus lipani, a New Kritosaurin Hadrosaurid from the Upper Campanian Cerro Del Pueblo Formation, Northern Mexico. Diversity. 16(9), 531. DOI: doi.org/10.3390/d16090531  

[Paleontology • 2022] A Pathological Ulna of Amurosaurus riabinini (Hadrosauridae: Lambeosaurinae) from the Upper Cretaceous of Far Eastern Russia

 Amurosaurus riabinini  Bolotsky & Kurzanov, 1991

in Bertozzo, Bolotsky, Bolotsky, Poberezhskiy, ... et Murphy, 2022.

DOI: 10.1080/08912963.2022.2034805 

  twitter.com/Paleofolk

Illustration: Andrey Atuchin

 

ABSTRACT

Bone fractures are the most common type of injuries preserved in the dinosaur fossil record. Poor healing of deep lesions could lead to infection and misalignment of the fracture parts, causing the animals to limp and jeopardising their survival. A wide variety of fossilised fractures have been identified in dinosaur remains, and the type of bone response can provide information about their resilience and ability to survive even major traumatic events. Here we describe a pathological ulna of the lambeosaurine dinosaur Amurosaurus riabinini, from the Udurchukan Formation (Maastrichtian, Upper Cretaceous) of Blagoveshchensk (Amur Region, Russia). Its distal region is hypertrophied and swollen, and the distal articular surface is engulfed within a large overgrowth of newly formed bone. CT-scanning identifies an oblique fracture resulting from an impact, implying that the swollen portion corresponds to callus formation. The bone was still healing prior to the moment of death, although the misalignment of the fracture parts appears to have resulted in a malunion of the two fragments. During locomotion, the wrist would have suffered from a continuous weight-bearing pressure that placed stress upon the fracture site and probably caused the animal to limp and perhaps walk on three limbs.

KEYWORDS: Fracture, dinosaurs, Maastrichtian, lambeosaurinae, physical impairment, palaeopathology

 

Filippo Bertozzo, Ivan Bolotsky, Yuri L. Bolotsky, Alexey Poberezhskiy, Alastair Ruffell, Pascal Godefroit and Eileen Murphy. 2022. A Pathological Ulna of Amurosaurus riabinini from the Upper Cretaceous of Far Eastern Russia. Historical Biology: An International Journal of Paleobiology. DOI: 10.1080/08912963.2022.2034805 

  twitter.com/Paleofolk/status/1494951972176375814

[Paleontology • 2020] Evidence of Proteins, Chromosomes and Chemical Markers of DNA in Exceptionally Preserved Dinosaur Cartilage

Hypacrosaurus stebingeri Horner & Currie, 1994

in Bailleul, Zheng, Horner, et al., 2020. 

 DOI: 10.1093/nsr/nwz206 
Art by Michael Rothman.

Abstract

A histological ground-section from a duck-billed dinosaur nestling (Hypacrosaurus stebingeri) revealed microstructures morphologically consistent with nuclei and chromosomes in cells within calcified cartilage. We hypothesized that this exceptional cellular preservation extended to the molecular level and had molecular features in common with extant avian cartilage. Histochemical and immunological evidence supports in situ preservation of extracellular matrix components found in extant cartilage, including glycosaminoglycans and collagen type II. Furthermore, isolated Hypacrosaurus chondrocytes react positively with two DNA intercalating stains. Specific DNA staining is only observed inside the isolated cells, suggesting endogenous nuclear material survived fossilization. Our data support the hypothesis that calcified cartilage is preserved at the molecular level in this Mesozoic material, and suggest that remnants of once-living chondrocytes, including their DNA, may preserve for millions of years.

Keywords: cartilage, dinosaur, nuclei, chromosomes, collagen II, DNA markers

Ground section of Hypacrosaurus (MOR 548) supraoccipital shows exceptional histological preservation of calcified cartilage.
(A) An isolated supraoccipital (So) of Hypacrosaurus in dorsal view. (B–D) Ground section of another So showing calcified cartilage with hypertrophic chondrocyte lacunae. (C) Some cell doublets appear empty (green arrow), but others (pink arrow) present darker, condensed material consistent in shape and location with a nucleus (white arrows). (D) Dark, condensed, and elongated material with morphological characteristics of metaphase chromosomes. The limit of the cell lacuna is visible (black arrow). (E) Caudal view of a juvenile emu skull (∼8–10 months old) showing the So and exoccipitals (Exo) in articulation. (F, G) Ground section (stained with Toluidine blue) of calcified cartilage from this emu skull showing cell doublets (pink arrows) with remnants of nuclei (white arrows) and others without intracellular content (green arrow).

Reconstruction of the nesting ground of Hypacrosaurus stebingeri from the Two Medicine formation of Montana. In the center can be seen a deceased Hypacrosaurus nestling with the back of its skull embedded in shallow waters. A mourning adult is portrayed on the right.

Art by Michael Rothman.

CONCLUSIONS:

 The identification of chemical markers of DNA in Hypacrosaurus suggest it may preserve much longer than originally proposed [30,31]. Even though it is clear that contamination does exist in fossil material and complicates identifications of original organic molecules, it can be accounted for with proper controls. Contamination is not a plausible explanation in this case, and to this date, the possible preservation of original proteins and DNA in deep time has not been convincingly eliminated with data. Although extensive research and sequencing is required to further understand DNA preservation in Mesozoic material, along with its chemical and molecular alterations, our data suggest the preserved nuclear material in Hypacrosaurus was in a condensed state at the time of the death of the organism, which may have contributed to its stability. We propose that DNA condensation may be a favorable process to its fossilization. Additionally, as was suggested for protein fossilization [20,45,46], crosslinking may be another mechanism involved in the preservation of DNA in deep time. 

Alida M. Bailleul, Wenxia Zheng, John R. Horner, Brian K. Hall, Casey M. Holliday and Mary H. Schweitzer. 2020. Evidence of Proteins, Chromosomes and Chemical Markers of DNA in Exceptionally Preserved Dinosaur Cartilage. National Science Review. nwz206. DOI: 10.1093/nsr/nwz206

  

[Paleontology • 2020] The Oldest Lambeosaurine Dinosaur from Europe: Insights Into the Arrival of Tsintaosaurini

 Lambeosaurine Dinosaur from the Upper Cretaceous northeastern Spain.

in Conti, Vila, Sellés, et al., 2020. 

  DOI: 10.1016/j.cretres.2019.104286 

 Illustration: Oscar Sanisidro  www.icp.cat  

Abstract

Hollow-crested lambeosaurine hadrosaurids represent one of the latest and most rapid radiations of ornithischian dinosaurs, attaining a nearly global distribution during the Late Cretaceous. Although their presence in Europe is well documented, there are questions about the origin and timing of their arrival in this continent. The analysis of old and newfound lambeosaurine specimens from the Els Nerets locality (eastern Tremp Syncline, northeastern Spain) have shown that the ornithopod dinosaurs from this classic site belong to Lambeosaurinae. Recent chronostratigraphic data places the locality in the lower Maastrichtian, implying that the Els Nerets lambeosaurine is the first occurrence of the clade in Europe. The Els Nerets lambeosaurine exhibits some noticeable pelvic features only shared with the Asian taxon Tsintaosaurus spinorhinus and thus we hypothesize a close taxonomic affinity between the lambeosaurine from Els Nerets and the Eurasian Tsintaosaurini. Members of this tribe would have dispersed into the Ibero-Armorican Domain not later than the early Maastrichtian, coexisting with endemic dinosaurian groups for some time.

Keywords: Anatomy, Phylogeny, Biogeography, Cretaceous, Hadrosauridae, Lambeosaurinae

 Simone Conti, Bernat Vila, Albert G. Sellés, Àngel Galobart, Michael J. Benton and Albert Prieto-Márquez. 2020. The Oldest Lambeosaurine Dinosaur from Europe: Insights Into the Arrival of Tsintaosaurini. Cretaceous Research. 107; 104286. DOI: 10.1016/j.cretres.2019.104286

El primer dinosaure lambeosaurí d’Europa va viure als actuals Pirineus  www.icp.cat/index.php/ca/sala-de-premsa-4/noticies-icp/item/2968-primer-dinosaurie-lambeosauri-europa-icp

 twitter.com/ICP_MCrusafont/status/1199299635447291904

[Paleontology • 2017] Redescription of A Remarkably Large Gryposaurus notabilis (Dinosauria: Hadrosauridae) from Alberta, Canada

Two large raging bull gryposaurs fight for supremacy of the herd in violent clash on alluvial plains of Canada, 76 million years ago. 

 Bertozzo, Dal Sasso, Fabbri, et al., 2017. 

 Memorie della Società Italiana di Scienze Naturali e del Museo Civico di Storia Naturale di Milano. 43.

Illustration: Davide Bonadonna.

 cienzafacile.it 

Abstract 

 MSNM V345 is a partial skeleton of the North American hadrosaur species Gryposaurus notabilis, Lambe 1914, dis-covered in 1922 in the Dinosaur Park Formation of Dinosaur Provincial Park, Alberta, Canada. It was shipped in several crates to the Museo di Storia Naturale di Milano (MSNM), Italy, where it arrived in October 1958. Careless transportation during its long journey to Milan meant that the skeleton arrived extremely damaged and required heavy restoration work by MSNM staff.

A preliminary study of the specimen was conducted by Vittorio Vialli in 1960 while part of it was still under preparation. That study was followed by a more detailed, although still partial, osteological description by Giovanni Pinna in 1979. On the centennial of the species’ discovery, we decided to examine the specimen in even greater detail in order to improve knowledge on the dinosaur’s skeletal anatomy and help clarify the taxonomy of the genus.

Here, we redescribe the dinosaur’s osteology, focusing on unpublished elements, such as metapodials, phalanges, sacral vertebrae, and some caudal vertebrae, recently discovered to be located at the MSNM. Isolated appendicular elements found at the same quarry and tentatively referable to other individuals of the same taxon or to other dinosaur species are also briefly mentioned. Histological analysis of a core obtained from the femur revealed that it was made of fibrolamellar bone with a high number of Haversian systems. The presence of an external fundamental system indicates that the individual was fully adult at the moment of death.

Of note, the skeletal remains present with traces of at least four pathological conditions: a cavity in the predentary is speculated to be the result of osteomyelitis; the fifth dorsal vertebra is fused to the left rib through a overgrowth of bone, and is interpreted as osteosclerosis subsequent to a fracture; the neural spine of the 26th caudal vertebra is fractured and healed, and the centrum has a strap of bone growing up to the side of the preceding centrum, explainable as idiopathic skeletal hyperostosis.

A review of the skeletal reconstructions of the genus is also presented, followed by a summary of the skin remains and remarks on other anatomical traits. Altogether, the new data obtained on MSNM V345 have allowed us to present a more accurate and up-to-date skeletal reconstruction and in vivo restoration of G. notabilis.

Keywords: Hadrosauridae, Cretaceous, osteology, palaeopathology, anatomical illustration. 

scienzafacile.it

Two large raging bull gryposaurs fight for supremacy of the herd in violent clash on alluvial plains of Canada, 76 million years ago. Digital painting by Davide Bonadonna.

 Nelle piane alluvionali del Canada, 76 milioni di anni fa, due grossi maschi bellicosi di griposauro danno vita a un violentissimo scontro per la supremazia all’interno del branco. Illustrazione digitale e di Davide Bonadonna

scienzafacile.it

Reconstruction of Gryposaurus based on specimen MSNM V345.

drawing: Marco Auditore.

CONCLUSIONS: 

Specimen MSNM V345 is a large, robust individual of Gryposaurus notabilis. Our re-examination of all its bones housed at the MSNM has allowed us to revise previous estimates on the completeness of the skeleton, which now reaches 32.68% (39.54% when taking into account the hid-den cranial bones, and 48.37% when duplicating existing counterlateral elements). The skull of MSNM V345 is one of the largest known for Gryposaurus. Our recalculation of the size of the skeleton, which takes into account the spaces occupied in vivo by intervertebral and epiphyseal cartilage, gives us an overall length of 800 cm in a neutral pose and a height at the hip of 315 cm. The osteology of the individual shows features related to other G. notabilis specimens: a dorsoventrally narrow orbit, infratemporal fenestra twice higher than wide, a well-developed nasal arch, wide and irregular ventral embayment of the jugal, a long and narrow quadratojugal, a predentary with nine large denticles placed asymmetrically, and a tall neural spine on the second caudal vertebra.

The advanced ontogenetic age of the skeleton – which likely belonged to a senile individual – is corroborated by palaeohistological analysis showing the presence of EFSs and several generations of Haversian systems in a femur, indicative of a specimen that was fully adult at time of death.

Finally, this individual was affected by several skele-tal disorders. The predentary bears a large, central fora-men located in the caudomedian plane of the bone. The histology of this anomaly reveals the presence of large resorption cavities and a randomised pattern of osteocytes, indicators of osteomyelitis. The transverse process of dorsal vertebra 5 is fused with the proximal region of the rib, affected by an abnormal overgrowth of bone tissue. CT-scanning of this vertebra indicates hyper-trophied osteosclerosis likely consequent to traumatic fracture. The caudal vertebrae 25 and 26 had their cen-tra fused together, with that of vertebra 25 broken into two halves. CT-scanning indicates that this condition might represent skeletal hyperostosis or haemangioma.

Gryposaurus notabilis is one of the first hadrosaurs depicted for the general audience. Nevertheless, it is not as popular as other duck-billed dinosaurs, such as Edmontosaurus, Parasaurolophus, or Corythosaurus. We have proposed new skeletal and in vivo restorations using the anatomical data obtained from our analysis.

  

Filippo Bertozzo, Cristiano Dal Sasso, Matteo Fabbri, Fabio Manucci and Simone Maganuco. 2017.  Redescription of A Remarkably Large Gryposaurus notabilis (Dinosauria: Hadrosauridae) from Alberta, Canada. Memorie della Società Italiana di Scienze Naturali e del Museo Civico di Storia Naturale di Milano. 43.

  Researchgate.net/publication/325061036_Redescription_of_Gryposaurus_notabilis 

 twitter.com/PaleoAppi/status/958300673019400192

 twitter.com/d_bonadonna/status/959059219285708800

 scienzafacile.it/2018/02/24/alla-riscoperta-del-griposauro-di-milano/
facebook.com/notes/paleontologia-e-paleoarte/dalle-badlands-canadesi-a-milano-il-lungo-viaggio-di-gryposaurus-e-la-sua-riscop/1724934467559267/

 facebook.com/ArchaeologyatQueensBelfast/posts/1025721830900041

[Paleontology • 2018] A Nestling-sized Skeleton of Edmontosaurus (Ornithischia, Hadrosauridae) from the Hell Creek Formation of northeastern Montana, U.S.A., with An Analysis of Ontogenetic Limb Allometry

Edmontosaurus annectens (Marsh, 1892)

in Wosik, Goodwin & Evans, 2018

   DOI: 10.1080/02724634.2017.1398168    

  twitter.com/PolishPaleo

ABSTRACT  

The Hell Creek Formation preserves one of the most intensely studied late Cretaceous terrestrial fossil units. Over 22 dinosaur genera are currently recognized from this unit, but the record of juvenile individuals is surprisingly limited. Here, we document a nestling hadrosaur that represents the first occurrence of an articulated nestling dinosaur skeleton from the latest Cretaceous (late Maastrichtian) of North America. The specimen (UCMP 128181) preserves a partial scapula, nearly complete rib cage, vertebral series from the shoulder to mid-tail, a large portion of the pelvic girdle, and both hind limbs through a combination of bone and/or natural impressions in the concretion. It is assignable to the genus Edmontosaurus based on the shape of the prepubic process, or blade, of the pubis. The specimen represents the earliest ontogenetic growth stage of Edmontosaurus cf. annectens and possesses a femur length of 148 mm. It greatly contributes as a new end member to a sample of associated Edmontosaurus skeletons that is well suited for allometrically testing the hypothesized ontogenetic gait shift in hadrosaurs from bipedal juveniles to quadrupedal adults using individual limb proportions. Although UCMP 128181 does not preserve forelimbs, regressions based on associated Edmontosaurus skeletons (N = 25) reveal overall isometry of the forelimb relative to the hind limb, and within each limb. These data indicate that Edmontosaurus nestlings were anatomically capable of fully quadrupedal locomotion and provide no compelling evidence to support an ontogenetic gait shift in hadrosaurids.

UCMP-128181, Edmontosaurus cf. annectens

 morphosource.org  twitter.com/PolishPaleo 

Mateusz Wosik, Mark B. Goodwin and David C. Evans. 2018. A Nestling-sized Skeleton of Edmontosaurus (Ornithischia, Hadrosauridae) from the Hell Creek Formation of northeastern Montana, U.S.A., with An Analysis of Ontogenetic Limb Allometry.   Journal of Vertebrate Paleontology.  DOI: 10.1080/02724634.2017.1398168   

First baby #dinosaur skeleton from the Hell Creek Formation

Published in @SVP_vertpaleo with Mark Goodwin and @DavidEvans_ROM

Cover art by @SaurianGame. Funded by @ucmpberkeley Welles Fund.

  twitter.com/PolishPaleo/status/964884456917164032

 gspauldino.com/DinoArtbrooding.pdf

  

[Paleontology • 2016] Eotrachodon orientalis • A Primitive Hadrosaurid from southeastern North America and the Origin and Early Evolution of ‘Duck-billed’ Dinosaurs

Eotrachodon orientalis 

Prieto-Márquez, Erickson & Ebersole, 2016

DOI:  10.1080/02724634.2015.1054495

ABSTRACT

Eotrachodon orientalis gen. et sp. nov. (latest Santonian of Alabama, southeastern U.S.A.) is one of the oldest and most basal hadrosaurid dinosaurs and the only hadrosaurid from Appalachia (present day eastern North America) with a preserved skull. This taxon possesses a relatively derived narial structure that was until now regarded as synapomorphic for saurolophine (solid-crested or crestless) hadrosaurids. Maximum parsimony analysis places E. orientalis as the sister taxon to Saurolophidae (Saurolophinae + Lambeosaurinae). Character optimization on the phylogeny indicates that the saurolophine-like circumnarial structure evolved by the Santonian following the split between saurolophines and lambeosaurines but prior to the major hadrosaurid radiation. Statistical dispersal-vicariance analysis posits an Appalachian ancestral area for Hadrosauridae and subsequent dispersal of their ancestors into Laramidia (present-day western North America) during the Cenomanian.

Prieto-Márquez, A., G. M. Erickson, and J. A. Ebersole. 2016. A Primitive Hadrosaurid from southeastern North America and the Origin and Early Evolution of ‘Duck-billed’ Dinosaurs. Journal of Vertebrate Paleontology. DOI:  10.1080/02724634.2015.1054495

http://zoobank.org/urn:lsid:zoobank.org:pub:3AD914D2-A3A5-45FD-8C94-5EE80461FEBC

Research team identifies rare dinosaur from Appalachia 

http://news.fsu.edu/Top-Stories/Research-team-identifies-rare-dinosaur-from-Appalachia

http://phy.so/372681843 via @physorg_com

[Paleontology • 2015] Ugrunaaluk kuukpikensis • A New Arctic Hadrosaurid from the Prince Creek Formation (lower Maastrichtian) of northern Alaska

Ugrunaaluk kuukpikensis

Mori, Druckenmiller & Erickson, 2015

doi: 10.4202/app.00152.2015

The Liscomb bonebed in the Price Creek Formation of northern Alaska has produced thousands of individual bones of a saurolophine hadrosaurid similar to Edmontosaurus; however, the specific identity of this taxon has been unclear, in part because the vast majority of the remains represent immature individuals. In this study, we address the taxonomic status of the Alaskan material through a comparative and quantitative morphological analysis of juvenile as well several near adult-sized specimens with particular reference to the two known species of Edmontosaurus, as well as a cladistic analysis using two different matrices for Hadrosauroidea. In the comparative morphological analysis, we introduce a quantitative method using bivariate plots to address ontogenetic variation. Our comparative anatomical analysis reveals that the Alaskan saurolophine possesses a unique suite of characters that distinguishes it from Edmontosaurus, including a premaxillary circumnarial ridge that projects posterolaterally without a premaxillary vestibular promontory, a shallow groove lateral to the posterodorsal premaxillary foramen, a relatively narrow jugal process of the postorbital lacking a postorbital pocket, a relatively tall maxilla, a relatively gracile jugal, a more strongly angled posterior margin of the anterior process of the jugal, wide lateral exposure of the quadratojugal, and a short symphyseal process of the dentary. The cladistic analyses consistently recover the Alaskan saurolophine as the sister taxon to Edmontosaurus annectens + Edmontosaurus regalis. This phylogenetic assessment is robust even when accounting for ontogenetically variable characters. Based on these results, we erect a new taxon, Ugrunaaluk kuukpikensis gen. et sp. nov. that contributes to growing evidence for a distinct, early Maastrichtian Arctic dinosaur community that existed at the northernmost extent of Laramidia during the Late Cretaceous.

Key words: Dinosauria, Hadrosauridae, Saurolophinae, Edmontosaurini, Ugrunaaluk, Edmontosaurus, ontogeny, Cretaceous, Prince Creek Formation, Arctic.

skull of juvinile Ugrunaaluk kuukpikensis 

 skull reconstruction: Micheal Holland 

by Havens Studio Gallery: facebook.com/529388067127145/photos/855247407874541

 Ugrunaaluk kuukpikensis illustrates a scene from ancient Alaska during the Cretaceous Period.

illustration: James Havens

Fig. 4. Cranial reconstruction of Ugrunaaluk kuukpikensis gen. et sp. nov. from the early Maastrichtian Prince Creek Formation in left lateral view.

doi: 10.4202/app.00152.2015

Systematic Paleontology

Ornithischia Seeley, 1887

Ornithopoda Marsh, 1881

Hadrosauridae Cope, 1869

Saurolophinae Brown, 1914 sensu Prieto-Márquez, 2010a

Edmontosaurini Brett-Surman, 1989

Genus Ugrunaaluk nov.

urn:lsid:zoobank.org:act:8B8256BA-F280-4460-B0F0-31762267586E

Etymology: Transliterated from the Alaskan Iñupiaq noun ugruŋnaq, referring to a grazing animal with a long set of grinding teeth, and the adjective -aluk, old. Literally, “ancient grazer”. Intended pronunciation: “oo-GREW-nah-luk”. The name honors the Alaskan Native Iñupiaq culture from the area where the type material was discovered.

Type species: Ugrunaaluk kuukpikensis sp. nov., monotypic

urn:lsid:zoobank.org:act:1CAF186F-11A2-4A9E-A8F9-C3789B97459F 

Figs. 4–10. 

Etymology: The specific name is derived from the Iñupiaq word kuukpik, which refers to the Colville River, Alaska, USA along which the type material was found.

Type locality: Liscomb bonebed, along the Colville River, northern Alaska, USA. The exact location is on file with the Bureau of Land Management Arctic Field Office.

Type horizon: Upper portion of the Prince Creek Formation, lower Maastrichtian (Upper Cretaceous).

Fig. 2. Temporal distribution of Edmontosaurus species and the Prince Creek Formation taxon in the Late Cretaceous.

doi: 10.4202/app.00152.2015

Conclusions

In this study, we; (i) identify and name a new taxon of saurolophine hadrosaurid, Ugrunaaluk kuukpikensis gen. et sp. nov. from the Prince Creek Formation of Alaska; (ii) demonstrate that skeletally immature specimens can be reliably used in addressing taxonomic problems within

Hadrosauridae based on a detailed understanding of the growth patterns of closely related taxa; and (iii) show that Ugrunaaluk kuukpikensis gen. et sp. nov. does not represent a juvenile form of either recognized species of Edmontosaurus. Further morphological description of the new Alaskan taxon and greater clarification of its differences from Edmontosaurus will require discovery of adult material from the Prince Creek Formation and/or description of other juvenile specimens from E. regalis and E. annectens.

The establishment of a new species of hadrosaurid, Ugrunaaluk kuukpikensis gen. et sp. nov. further clarifies the faunal composition of the Prince Creek Formation and contributes to a growing body of evidence that the paleo-Arctic hosted a distinct and endemic polar, early Maastrichtian dinosaurian fauna. Ongoing field work in the formation and taxonomic clarifications of existing material will help to further establish the faunal composition of the unit and add critical new data to test hypotheses of dinosaur provinciality in Laramidia during the latest Cretaceous.

  

Hirotsugu Mori, Patrick S. Druckenmiller, and Gregory M. Erickson. 2015. A New Arctic Hadrosaurid from the Prince Creek Formation (lower Maastrichtian) of northern Alaska. Acta Palaeontologica Polonica. in press.  doi: 10.4202/app.00152.2015

  

Alaskan duck-billed dinosaur find spurs physiological mystery http://www.slashgear.com/alaskan-duck-billed-dinosaur-find-spurs-physiological-mystery-22405828/ via @slashgear

Newly discovered hadrosaur dino was one serious, cold-winter survivor

http://www.cnet.com/news/new-hadrosaur-may-have-lived-in-cold-darkness/

[Paleontology • 2014] Rhinorex condrupus • A New saurolophine hadrosaurid (Dinosauria: Ornithopoda) from the Campanian of Utah, North Americ

Rhinorex condrupus Gates & Scheetz, 2014

Rhinorex attacked by Deinosuchus, a Cretaceous crocodile

illustration: Julius Csotonyi

Abstract

A new hadrosaurid is described from the Upper Cretaceous Neslen Formation of central Utah. Rhinorex condrupus gen. et sp. nov. is diagnosed on the basis of two unique traits, a hook-shaped projection of the nasal anteroventral process and dorsal projection of the posteroventral process of the premaxilla, and is further differentiated from other hadrosaurid species based on the morphology of the nasal (large nasal boss on the posterodorsal corner of the circumnarial fossa, small protuberences on the anterior process, absence of nasal arch), jugal (vertical postorbital process), postorbital (high degree of flexion present on posterior process), and squamosal (inclined anterolateral processes). This new taxon was discovered in estuarine sediments dated at approximately 75 Ma and just 250 km north of the prolific dinosaur-bearing strata of the Kaiparowits Formation, possibly overlapping in time with Gryposaurus monumentensis. Phylogenetic parsimony and Bayesian analyses associate this new taxon with the Gryposaurus clade, even though the type specimen does not possess the diagnostic nasal hump of the latter genus. Comparisons with phylogenetic analyses from other studies show that a current consensus exists between the general structure of the hadrosaurid evolutionary tree, but on closer examination there is little agreement among species relationships.

Keywords: Hadrosauridae, ornithopod, Cretaceous, Utah, Book Cliffs, Neslen Formation, biogeography, phylogenetics Related arti

Terry A. Gates & Rodney Scheetz. 2014. A New saurolophine hadrosaurid (Dinosauria: Ornithopoda) from the Campanian of Utah, North America.
Journal of Systematic Paleontology. doi: 10.1080/14772019.2014.950614

http://phenomena.nationalgeographic.com/2014/09/19/new-dinosaur-rhinorex-raises-cretaceous-quandary/

http://www.sci-news.com/paleontology/science-rhinorex-condrupus-new-herbivorous-dinosaur-utah-02158.html

http://phys.org/news/2014-09-hadrosaur-noses-spotlight.html