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YES! We want to be a part of the excitement around Dinosaurs Unearthed to be held at our new, bigger space at Courtland Center from June 16, 2018 -January 6, 2019. We will be a sponsor of the following specimen(s) in the exhibit, and help create smiles and great memories for visitors. THE REALLY BIG ONES ALLOSAURUS - $1,000 TYLOSAURUS - $1,000 APATOSAURUS - $1,000 TYRANNOSAURUS REX - $2,000 MEDIUM-SIZED DINOSAURS — $500 each DILOPHOSAURUS STEGOSAURUS ADOPTED GIGANTORAPTOR ADOPTED TRICERATOPS ADOPTED METRICANTHOSAURUS TYRANNOSAURUS REX JUVENILE FEATHEREDADOPTED PINACOSAURUS ADOPTED VELOCIRAPTOR FEATHERED ADOPTED YANGCHUANOSAURUS SMALLER OF THE BUNCH — $250 each ANGUSTINARIPTERUS ADOPTED PROTOCERATOPS ADOPTED CONFUCIUSORNIS SINOSAUROPTERYX ADOPTED MICRORAPTORADOPTED SKELETONS OMEISAURUS - $1,000 YANGCHUANOSAURUS - $500 ADOPTED TUOJIANGOSAURUS - $500 BISHANOPLIOSAURUS - $250 *Adoptions are on a first-come, first-served basis. COMPANY NAME NAME TO APPEAR ON SIGNAGE CONTACT PERSON ADDRESS CITY STATE ZIP CODE TELEPHONE EMAIL Payment Options CHARGE TO CREDIT CARD: __ VISA __ MASTERCARD __ AMEX __ DISCOVER CARD ENCLOSED CHECK FOR $ CARD NUMBER SECURITY CODE Make payable to Sloan*Longway NAME AS IT APPEARS ON CARD SIGNATURE Adoptions are on a first-come, first-served basis. If you are mailing the form or a check, please call 810-237-7379 to check the availability of your dinosaur and reserve before mailing. Forms and payment can be mailed to: Sloan Museum, 1221 E. Kearsley St. Flint, MI 48503. For more information, please call 810-237-7391 or email [email protected]. THE DINOSAURS! SPONSOR BENEFITS Adoption Website Sponsor Signage Adoption Admission Dinosaur Names Fee Acknowledgement at Dinosaur Certificate Passes THE REALLY BIG ONES TYRANNOSAURUS REX $2,000 Yes Yes Yes 10 ALLOSAURUS $1,000 Yes Yes Yes 8 APATOSAURUS $1,000 Yes Yes Yes 8 TYLOSAURUS $1,000 Yes Yes Yes 8 MEDIUM-SIZED DINOSAURS DILOPHOSAURUS $500 Yes Yes Yes 4 GIGANTORAPTOR ADOPTED $500 Yes Yes Yes 4 METRICANTHOSAURUS $500 Yes Yes Yes 4 PINOCOSAURUS ADOPTED $500 Yes Yes Yes 4 STEGOSAURUS ADOPTED $500 Yes Yes Yes 4 TRICERATOPS ADOPTED $500 Yes Yes Yes 4 T. REX JUVENILE FEATHEREDADOPTED $500 Yes Yes Yes 4 VELOCIRAPTOR FEATHEREDADOPTED $500 Yes Yes Yes 4 YANGCHUANOSAURUS $500 Yes Yes Yes 4 SMALLER OF THE BUNCH AGUSTINARIPTERUS ADOPTED $250 Yes Yes Yes 2 CONFUCIUSORNIS $250 Yes Yes Yes 2 MICRORAPTOR ADOPTED $250 Yes Yes Yes 2 PROTOCERATOPS ADOPTED $250 Yes Yes Yes 2 SINOSAUROPTERYX ADOPTED $250 Yes Yes Yes 2 SKELETONS OMEISAURUS $1,000 Yes Yes Yes 8 TUONIANGOSAURUS $500 Yes Yes Yes 4 YANGCHUANOSAURUSADOPTED $500 Yes Yes Yes 4 BISHANOPLIOSAURUS $250 Yes Yes Yes 2 *Adoptions are on a first-come, first-served basis..

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Tyrannosaurus Rex by Guy Belleranti
Name: ______________________________ Tyrannosaurus Rex By Guy Belleranti One of the most dangerous dinosaurs was the Tyrannosaurus rex. It looked like a huge lizard with sharp teeth. It lived over 60 million years ago. From nose to tail, T-rex was as long as a school bus. It was taller than a house. It weighed more than an airplane. T-rex’s head was as long as a kitchen table. T-rex was the biggest meat-eating dinosaur. It could eat hundreds of pounds of meat in one bite. Animals that eat meat have sharp teeth. T-rex had 60 of them! Some of the teeth were as big as bananas. When T-rex lost a tooth, it grew a new one. T-rex stood on two powerful legs. It also had two small arms. Its strong tail helped keep it from falling over. It might be fun to see a live Tyrannosaurus rex, but I wouldn’t want to meet one. Would you? Super Teacher Worksheets - www.superteacherworksheets.com Name: ______________________________ Tyrannosaurus Rex By Guy Belleranti 1. How many teeth did a Tyrannosaurus rex have? a. thirty b. sixteen c. sixty d. seventy 2. How long ago did Tyrannosaurus rex live? ________________________________________________________________ 3. What did Tyrannosaurus rex eat? a. leaves from tall trees b. other dinosaurs c. small insects d. people 4. A T-rex was as long as a ______________________________________. 5. A T-rex weighed as much as an _______________________________. 6. Which dinosaurs had sharp teeth? a. all dinosaurs b. dinosaurs that had tails c. dinosaurs that were big d.
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Fused and Vaulted Nasals of Tyrannosaurid Dinosaurs: Implications for Cranial Strength and Feeding Mechanics
Fused and vaulted nasals of tyrannosaurid dinosaurs: Implications for cranial strength and feeding mechanics ERIC SNIVELY, DONALD M. HENDERSON, and DOUG S. PHILLIPS Snively, E., Henderson, D.M., and Phillips, D.S. 2006. Fused and vaulted nasals of tyrannosaurid dinosaurs: Implications for cranial strength and feeding mechanics. Acta Palaeontologica Polonica 51 (3): 435–454. Tyrannosaurid theropods display several unusual adaptations of the skulls and teeth. Their nasals are fused and vaulted, suggesting that these elements braced the cranium against high feeding forces. Exceptionally high strengths of maxillary teeth in Tyrannosaurus rex indicate that it could exert relatively greater feeding forces than other tyrannosaurids. Areas and second moments of area of the nasals, calculated from CT cross−sections, show higher nasal strengths for large tyrannosaurids than for Allosaurus fragilis. Cross−sectional geometry of theropod crania reveals high second moments of area in tyrannosaurids, with resulting high strengths in bending and torsion, when compared with the crania of similarly sized theropods. In tyrannosaurids trends of strength increase are positively allomeric and have similar allometric expo− nents, indicating correlated progression towards unusually high strengths of the feeding apparatus. Fused, arched nasals and broad crania of tyrannosaurids are consistent with deep bites that impacted bone and powerful lateral movements of the head for dismembering prey. Key words: Theropoda, Carnosauria, Tyrannosauridae, biomechanics, feeding mechanics, computer modeling, com− puted tomography. Eric Snively [[email protected]], Department of Biological Sciences, University of Calgary, 2500 University Drive NW, Calgary, Alberta T2N 1N4, Canada; Donald M. Henderson [[email protected]], Royal Tyrrell Museum of Palaeontology, Box 7500, Drumheller, Alberta T0J 0Y0, Canada; Doug S.
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MEET the DINOSAURS! WHAT’S in a NAME? a LOT If You Are a Dinosaur!
MEET THE DINOSAURS! WHAT’S IN A NAME? A LOT if you are a dinosaur! I will call you Dyoplosaurus! Most dinosaurs get their names from the ancient Greek and Latin languages. And I will call you Mojoceratops! And sometimes they are named after a defining feature on their body. Their names are made up of word parts that describe the dinosaur. The name must be sent to a special group of people called the International Commission on Zoological Nomenclature to be approved! Did You The word DINOSAUR comes from the Greek word meaning terrible lizard and was first said by Know? Sir Richard Owen in 1841. © 2013 Omaha’s Henry Doorly Zoo & Aquarium® | 3 SEE IF YOU CAN FIND OUT THE MEANING OF SOME OF OUR DINOSAUR’S NAMES. Dinosaur names are not just tough to pronounce, they often have meaning. Dinosaur Name MEANING of Dinosaur Name Carnotaurus (KAR-no-TORE-us) Means “flesh-eating bull” Spinosaurus (SPY-nuh-SORE-us) Dyoplosaurus (die-o-pluh-SOR-us) Amargasaurus (ah-MAR-guh-SORE-us) Omeisaurus (Oh-MY-ee-SORE-us) Pachycephalosaurus (pak-ee-SEF-uh-low-SORE-us) Tuojiangosaurus (toh-HWANG-uh-SORE-us) Yangchuanosaurus (Yang-chew-ON-uh-SORE-us) Quetzalcoatlus (KWET-zal-coe-AT-lus) Ouranosaurus (ooh-RAN-uh-SORE-us) Parasaurolophus (PAIR-uh-so-ROL-uh-PHUS) Kosmoceratops (KOZ-mo-SARA-tops) Mojoceratops (moe-joe-SEH-rah-tops) Triceratops (try-SER-uh-TOPS) Tyrannosaurus rex (tuh-RAN-uh-SORE-us) Find the answers by visiting the Resource Library at Carnotaurus A: www.OmahaZoo.com/Education. Search word: Dinosaurs 4 | © 2013 Omaha’s Henry Doorly Zoo & Aquarium® DINO DEFENSE All animals in the wild have to protect themselves.
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At Carowinds
at Carowinds EDUCATOR’S GUIDE CLASSROOM LESSON PLANS & FIELD TRIP ACTIVITIES Table of Contents at Carowinds Introduction The Field Trip ................................... 2 The Educator’s Guide ....................... 3 Field Trip Activity .................................. 4 Lesson Plans Lesson 1: Form and Function ........... 6 Lesson 2: Dinosaur Detectives ....... 10 Lesson 3: Mesozoic Math .............. 14 Lesson 4: Fossil Stories.................. 22 Games & Puzzles Crossword Puzzles ......................... 29 Logic Puzzles ................................. 32 Word Searches ............................... 37 Answer Keys ...................................... 39 Additional Resources © 2012 Dinosaurs Unearthed Recommended Reading ................. 44 All rights reserved. Except for educational fair use, no portion of this guide may be reproduced, stored in a retrieval system, or transmitted in any form or by any Dinosaur Data ................................ 45 means—electronic, mechanical, photocopy, recording, or any other without Discovering Dinosaurs .................... 52 explicit prior permission from Dinosaurs Unearthed. Multiple copies may only be made by or for the teacher for class use. Glossary .............................................. 54 Content co-created by TurnKey Education, Inc. and Dinosaurs Unearthed, 2012 Standards www.turnkeyeducation.net www.dinosaursunearthed.com Curriculum Standards .................... 59 Introduction The Field Trip From the time of the first exhibition unveiled in 1854 at the Crystal
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Rule Booklet
Dig for fossils, build skeletons, and attract the most visitors to your museum! TM SCAN FOR VIDEO RULES AND MORE! FOSSILCANYON.COM Dinosaurs of North America edimentary rock formations of western North America are famous for the fossilized remains of dinosaurs The rules are simple enough for young players, but and other animals from the Triassic, Jurassic, and serious players can benefit Cretaceous periods of the Mesozoic Era. Your objective from keeping track of the cards that is to dig up fossils, build complete skeletons, and display have appeared, reasoning about them in your museum to attract as many visitors as possible. probabilities and expected returns, and choosing between aggressive Watch your museum’s popularity grow using jigsaw-puzzle and conservative plays. scoring that turns the competition into a race! GAME CONTENTS TM 200,000300,000 160,000 VISITORS VISITORS PER YEAR 140,000 VISITORS PER YEAR 180,000 VISITORS PER YEAR 400,000 VISITORS PER YEAR Dig for fossils, build skeletons, and 340,000 VISITORS PER YEAR RD COLOR ELETONS CA GENUS PERIODDIET SK FOSSIL VISITORSPARTS 360,000 VISITORS PER YEAR PER YEAR attract the most visitors to your museum! VISITORS PER YEAR PER YEAR Tyrannosaurus K C 1 4 500,000 Brachiosaurus J H 1 3 400,000 ON YOUR TURN: TM SCAN FOR VIDEO Triceratops K H 1 3 380,000 RULES AND MORE! Allosaurus J C 2 Dig3 a first360,000 card. If it is a fossil, keep it hidden. FOSSILCANYON.COM Ankylosaurus K H 2 If it3 is an340,000 action card, perform the action.
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Tyrannosaurus Rex.Pmd
North Dakota Stratigraphy Tyrannosaurus rex ROCK ROCK UNIT COLUMN PERIOD EPOCH AGES MILLIONS OF YEARS AGO Common Name: Holocene Oahe .01 Tyrant reptile king Coleharbor Pleistocene QUATERNARY Classification: 1.8 Pliocene Unnamed 5 Miocene Class: Reptilia 25 Arikaree Order: Saurischia Family: Tyrannosauridae Brule Oligocene 38 Tyrannosaurus rex shed tooth. Tooth collected in Morton South Heart Chadron Chalky Buttes County. Height of tooth is 64 mm. North Dakota State Fossil Camels Butte Eocene Golden Collection. 55 Valley Bear Den Description: Sentinel Butte Tyrannosaurus rex was one of the largest carnivorous (meat TERTIARY eating) dinosaurs and was one of the largest terrestrial carnivores yet known. The adults grew to lengths of 40 feet from the end of the tail to tip of the nose and weighed about 8 tons. When they Bullion Paleocene Creek stood on their hind legs they were up to about 20 feet tall. They had huge heads, about 5 feet long, and possessed large, Slope approximately 50, dagger-like teeth, some as large as bananas. Cannonball The teeth, which were serrated, could puncture bone and carve Ludlow through flesh of prey. Its back legs were long, heavily built, and 65 powerful with 3 clawed toes on each foot. Each foot was broad Hell Creek with three forward-pointing toes. Each toe ended in a sharply- curved talon. T. rex’s arms were very short and contained hands Fox Hills with only two, clawed fingers on each hand. Its tail was long, heavy, and held off the ground to act as a counterbalance. They ACEOUS could tear off as much as about 500 pounds of flesh at one time Pierre with their powerful jaws.
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Skulls of Tarbosaurus Bataar and Tyrannosaurus Rex Compared
Giant theropod dinosaurs from Asia and North America: Skulls of Tarbosaurus bataar and Tyrannosaurus rex compared Jørn H. Hurum and Karol Sabath Acta Palaeontologica Polonica 48 (2), 2003: 161-190 The skull of a newly prepared Tarbosaurus bataar is described bone by bone and compared with a disarticulated skull of Tyrannosaurus rex. Both Tarbosaurus bataar and Tyrannosaurus rex skulls are deep in lateral view. In dorsal view, the skull of T. rex is extremely broad posteriorly but narrows towards the snout; in Ta. bataar the skull is narrower (especially in its ventral part: the premaxilla, maxilla, jugal, and the quadrate complex), and the expansion of the posterior half of the skull is less abrupt. The slender snout of Ta. bataar is reminiscent of more primitive North American tyrannosaurids. The most obvious difference between T. rex and Ta. bataar is the doming of the nasal in Ta. bataar which is high between the lacrimals and is less attached to the other bones of the skull, than in most tyrannosaurids. This is because of a shift in the handling of the crushing bite in Ta. bataar . We propose a paleogeographically based division of the Tyrannosaurinae into the Asiatic forms (Tarbosaurus and possibly Alioramus) and North American forms (Daspletosaurus and Tyrannosaurus). The division is supported by differences in anatomy of the two groups: in Asiatic forms the nasal is excluded from the major series of bones participating in deflecting the impact in the upper jaw and the dentary-angular interlocking makes a more rigid lower jaw. Key words: Dinosauria, Theropoda, Tyrannosauridae, Tarbosaurus, Tyrannosaurus, skull, anatomy, Mongolia.
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Postcranial Skeletal Pneumaticity in Sauropods and Its
Postcranial Pneumaticity in Dinosaurs and the Origin of the Avian Lung by Mathew John Wedel B.S. (University of Oklahoma) 1997 A dissertation submitted in partial satisfaction of the requirements for the degree of Doctor of Philosophy in Integrative Biology in the Graduate Division of the University of California, Berkeley Committee in charge: Professor Kevin Padian, Co-chair Professor William Clemens, Co-chair Professor Marvalee Wake Professor David Wake Professor John Gerhart Spring 2007 1 The dissertation of Mathew John Wedel is approved: Co-chair Date Co-chair Date Date Date Date University of California, Berkeley Spring 2007 2 Postcranial Pneumaticity in Dinosaurs and the Origin of the Avian Lung © 2007 by Mathew John Wedel 3 Abstract Postcranial Pneumaticity in Dinosaurs and the Origin of the Avian Lung by Mathew John Wedel Doctor of Philosophy in Integrative Biology University of California, Berkeley Professor Kevin Padian, Co-chair Professor William Clemens, Co-chair Among extant vertebrates, postcranial skeletal pneumaticity is present only in birds. In birds, diverticula of the lungs and air sacs pneumatize specific regions of the postcranial skeleton. The relationships among pulmonary components and the regions of the skeleton that they pneumatize form the basis for inferences about the pulmonary anatomy of non-avian dinosaurs. Fossae, foramina and chambers in the postcranial skeletons of pterosaurs and saurischian dinosaurs are diagnostic for pneumaticity. In basal saurischians only the cervical skeleton is pneumatized. Pneumatization by cervical air sacs is the most consilient explanation for this pattern. In more derived sauropods and theropods pneumatization of the posterior dorsal, sacral, and caudal vertebrae indicates that abdominal air sacs were also present.
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Immigrant Species, Or Native Species?
The Journal of Paleontological Sciences: JPS.C.2017.01 TESTING THE HYPOTHESES OF THE ORIGIN OF TYRANNOSAURUS REX: IMMIGRANT SPECIES, OR NATIVE SPECIES? __________________________________________________________________________________________________________________ Chan-gyu Yun Vertebrate Paleontological Institute of Incheon, Incheon 21974, Republic of Korea & Biological Sciences, Inha University, Incheon 22212, Republic of Korea [email protected] __________________________________________________________________________________________________________________ Abstract: It is an undoubtable fact that Tyrannosaurus rex is the most iconic dinosaur species of all time. However, it is currently debatable whether this species has a North American origin or Asian origin. In this paper, I test these two hypotheses based on current fossil records and former phylogenetic analyses. Phylogenetic and fossil evidence, such as derived tyrannosaurine fossils of Asia, suggests that the hypothesis of an Asian origin of Tyrannosaurus rex is the most plausible one, but this is yet to be certain due to the scarcity of fossil records. INTRODUCTION The most famous and iconic dinosaur of all time, Tyrannosaurus rex, is only known from upper Maastrichtian geological formations in Western North America (e.g. Carr and Williamson, 2004; Larson, 2008). However, older relatives of Tyrannosaurus rex (e.g. Daspletosaurus, Tarbosaurus) are known from both Asia and North America. This leads to an evolutionary question: is the origin of Tyrannosaurus rex from Asia, or North America? About six of the currently valid tyrannosaurine taxa were described in the twenty-first century (based on parsimony analysis of Brusatte and Carr, 2016), with new species which are being described (Sebastian Dalman, Pers. Comm., 2016; Thomas Carr, Pers. Comm., 2016). It can be said that "now" is the "golden age” for studying tyrannosaurine evolution.
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Hierarchical Clustering Analysis Suppcdr.Cdr
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Cranial Anatomy of Allosaurus Jimmadseni, a New Species from the Lower Part of the Morrison Formation (Upper Jurassic) of Western North America
Cranial anatomy of Allosaurus jimmadseni, a new species from the lower part of the Morrison Formation (Upper Jurassic) of Western North America Daniel J. Chure1,2,* and Mark A. Loewen3,4,* 1 Dinosaur National Monument (retired), Jensen, UT, USA 2 Independent Researcher, Jensen, UT, USA 3 Natural History Museum of Utah, University of Utah, Salt Lake City, UT, USA 4 Department of Geology and Geophysics, University of Utah, Salt Lake City, UT, USA * These authors contributed equally to this work. ABSTRACT Allosaurus is one of the best known theropod dinosaurs from the Jurassic and a crucial taxon in phylogenetic analyses. On the basis of an in-depth, ﬁrsthand study of the bulk of Allosaurus specimens housed in North American institutions, we describe here a new theropod dinosaur from the Upper Jurassic Morrison Formation of Western North America, Allosaurus jimmadseni sp. nov., based upon a remarkably complete articulated skeleton and skull and a second specimen with an articulated skull and associated skeleton. The present study also assigns several other specimens to this new species, Allosaurus jimmadseni, which is characterized by a number of autapomorphies present on the dermal skull roof and additional characters present in the postcrania. In particular, whereas the ventral margin of the jugal of Allosaurus fragilis has pronounced sigmoidal convexity, the ventral margin is virtually straight in Allosaurus jimmadseni. The paired nasals of Allosaurus jimmadseni possess bilateral, blade-like crests along the lateral margin, forming a pronounced nasolacrimal crest that is absent in Allosaurus fragilis. Submitted 20 July 2018 Accepted 31 August 2019 Subjects Paleontology, Taxonomy Published 24 January 2020 Keywords Allosaurus, Allosaurus jimmadseni, Dinosaur, Theropod, Morrison Formation, Jurassic, Corresponding author Cranial anatomy Mark A.
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Junior Paleontologists Journal – Week 3
Junior Paleontologists Journal – Week 3 Welcome back, Junior Paleontologists! Are you ready to continue your adventures with dinosaurs and other fossils for another week? Dinosaur Detectives: Did you figure out what the tracks of Dilophosaurus looked like? Here is a picture of Dilophosaurus tracks from our exhibit at MNA: Does this look like the tracks you drew or imagined? There are some tracks like these in sandstones near Tuba City, Arizona. Now for Week 3: Our first dinosaur was Coelophysis from the Triassic Period. Our second was Dilophosaurus from the Jurassic Period. This week we will look at a dinosaur from the Cretaceous Period. It is a very different dinosaur, with the very difficult name Nothronychus. Besides its strange name, this dinosaur might be the strangest, weirdest dinosaur in the world! This is my favorite middle-size dinosaur because it is so weird, and because with a field crew I excavated it from southern Utah. This one is a little bigger than Dilophosaurus from last week, and much heavier. We have a complete skeleton on display at the Museum of Northern Arizona. First, let’s have some fun with two very hard words: “Nothronychus” and “therizinosaurs.” This dinosaur’s name is Nothronychus. Say it out loud: NO- throw-NIE-kus. Practice that, say it three times in a row. NO-throw-NIE-kus NO-throw-NIE-kus NO-throw-NIE-kus This dinosaur has a family with other dinosaurs, all of them very weird. The family is called the “therizinosaurs” or THAIR-uh-ZINE-o-saurs. The first part of the name sounds like the TH in “throw.” Now say it three times in a row.
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