DOCSLIB.ORG

The Large Superpredators' Teeth from Middle Triassic of Poland

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
The Large Superpredators' Teeth from Middle Triassic of Poland 91 Contemporary Trends in Geoscience vol . 2 DOI: 10.2478/ctg-2014-0013 Dawid Surmik1, Tomasz Brachaniec2 The large superpredators’ teeth from Middle 1Faculty of Earth Science, University of Silesia, Triassic of Poland Department of Paleontology and Stratigraphy, Bedzinska Str. 60, 41-200 Sosnowiec. Email: [email protected] 2 Faculty of Earth Science, University of Silesia, Department of Geochemistry, Mineralogy and Petrography, Bedzinska Str. 60, 41-200 Sosnowiec. Email: [email protected]. Key words: Abstract predator, teeth, archosaur, Żyglin, An unusual large teeth, finding from time to Gogolin, Middle Triassic, Poland. time in marine sediments of Muschelkalk, Silesia, Poland indicate the superpredators occurrence. According to size and morpho- logical features the teeth are similar to ar- chosaurs or giant marine reptiles. Unauthenticated Download Date | 10/22/16 11:01 AM Contemporary trends in Geoscience vol . 2 92 Introduction We report findings of two teeth of large pred- affiliation of mentioned remains to terres- ators from outcrops in Żyglin and Gogolin, trial or aquatic archosaurs or giant marine Silesia, Poland. We discuse the taxonomical reptiles, like piscivorous ichthyosaurs. Geological settings Żyglin is a hamlet of Miasteczko Śląskie silesiacus). The main Muschelkalk outcrops town, near Tarnowskie Góry, Upper Silesia, in Gogolin and Zakrzów are right now not Southern Poland. This locality is famous accessible because of side devastation and from great abundance of Middle Triassic overgrown by plants. marine reptiles remains, especially notho- As in Żyglin and Gogolin areas, in local saurs (Surmik 2010). The outcrops in Gogolin quarries, the carbonate rocks of Lower area, including nearby Zakrzów, (former- Gogolin Formation are exposed, and rep- ly in German – Sacrau) quarry are famous resens the shallow-water marine carbonate historical localities, well known in scien- succession, constituting the lowest part of tific literature due to findings of numerous the Lower Muschelkalk, rich in vertebrate taxa of Muschelkalk sauropterygians, in- fossils from an Early Anisian. cluding holotypes (e.g. Proneusticosaurus Material & Methods We presented two similar predators’ teeth Lowest Anisian) and is located on small frag- from Middle Triassic (Muschelkalk) of ment of crinoid limestone with Dadocrinus Silesia. The first specimen (Fig. 1A) was gracilis (Fig.1B). found at local quarry in Żyglin by one of To make macroscopic photos of investi- us (T.B.) and comes from weathering crust gate teeth, camera Canon 350D was used. of the Lower Gogolin formation (the Lowest Tooth from Żyglin quarry was ammonium Anisian). Second one specimen comes from chloride-coated. Lower Gogolin formation of Gogolin (the Discussion Originally, both of mentioned teeth have presence of edge serration, however it still been considered as archosaurian, especial- shows a slightly curvature and specific both ly tooth from Żyglin quarry is distinct be- sides flattening. cause of the fairly strong curvature and the The serrated edges with both sides flattening serrated cutting edges (Fig. 2). is a characteristic feature of archosaurs, how- Żyglin tooth is 23mm in length and is very ever serration occurs also in huge Middle similar to rauisuchian teeth, for example Triassic piscivorous ichthyosaurs from cen- Qianosuchus. Chinese taxon Qianosuchus is tral Nevada, USA (Frobisch et al. 2013). Also aquatic poposaurid, lived in near-shore en- tooth curvature is known already in the ear- vironments (Li et al. 2006). The taxon was ly reptiles, so both of these features have described from marine deposits of Middle no appreciable systematic significance and Triassic (Anisian) of Guanling Formation, should be analyzed in terms of functional Pan County in China. Mysterious tooth from morphology than phylogenetic relationships. Żyglin quarry also comes from Anisian ma- Historical records from Muschelkalk of rine sediments. Silesia described the remains, originally as- The specimen from Gogolin measures signed to the archosaurs. The oldest scientif- 37mm in length and includes central and ic literature (see in Surmik 2010) quote dor- apical part of crown. We suspect that it sal vertebra of “Thecodontosaurus” primus, is only a fragment of the whole specimen. comes from Gogolin Formation of Gogolin Unfortunately, a poor state of preservation quarry and femur of “Zanclodon” silesiacus makes it impossible to identification of the from the same outcrop. Unauthenticated Download Date | 10/22/16 11:01 AM 93 Contemporary Trends in Geoscience vol . 2 Both of these finds are now considered to (Sulej et al. 2011 and literature cited therein). be the remains of a large specimens of prol- Also the remains of ichtyosaurian/ichty- acertiform genus – Tanystropheus (Surmik opterygians were described from Lower 2010). Genus Ticinosuchus, probably from Muschelkalk of Poland (Surmik, 2010 and Anisian/Ladynian borderline of Stare Gliny literature cited therein). Huene (1916) men- quarry deposits, near Olkusz was mentioned tions Pachygonosaurus (nomen dubium) by Benton (1986). dorsal vertebra and Mixosaurus cf. atavus Remains of archosaurs were found in grey (current name Contectopalatus atavus, see clays of Ladynian outcrop in Miedary (Sulej Maisch & Matzke, 2001) scapula. et al. 2011), near Tarnowskie Góry. The anal- Also Hagdorn & Rieppel (1999) mention gi- ysis of archosaurian tooth found in men- ant genus Cymbospondylus, and Sander & tioned locality indicates the strong affini- Mazin (1993) described lower jaw of Tholodus ty to Batrachotomus kupferzellensis from with characteristic durophagous dentition. Ladynian sediment of Southern Germany Fig. 2. The serrated cutting edges of tooth from Żyglin quarry. Fig.1. Superpredators’ teeth from Middle Triassic of Poland. A) Specimen from Żyglin quarry, B) Specimen from Gogolin quarry. Summary The teeth described here confirmed the oc- the land. Tooth from Gogolin seems archo- currence of large predators in the early stages saurian teeth, however the fact that it cannot of marine transgression in the lowest part of be dissected from the rock (as an important Anisian at Upper Silesia. Tooth from Żyglin museum specimen) decreases its scientific quarry is closer to archosaurs (rauisuchi- value, because it makes impossible to rec- ans) in origin, and probably it has been de- ognize significant features. livered to marine deposits by elution from Unauthenticated Download Date | 10/22/16 11:01 AM Contemporary trends in Geoscience vol . 2 Dawid Surmik, Tomasz Brachaniec 94 The large superpredators’ teeth from Middle Triassic of Poland Acknowledgments We would like to thank Dr. Wojciech Krawczyński for taking a photos of tooth from Żyglin quarry. References Benton, M.J. (1986) The Late Triassic reptile Surmik D. (2010) Zróżnicowanie takso- Teratosaurus – a rauisuchian not a dino- nomiczne i wybrane aspekty tafonomii saur, Palaeontology, 29, 293-301. gadów morskich wapienia muszlowego Frobisch, N.B., Frobisch, J., Sander, Śląska, Niepublikowana praca magister- P.M. Schmitz, L., Rieppel, O. (2013) ska, Archiwum Uniwersytetu Śląskiego, Macropredatory ichthyosaur from the Sosnowiec: 110. Middle Triassic and the origin of mod- Surmik, D. (2012) Ząb dużego archozau- ern trophic networks, PNAS, doi: 10.1073/ ra z wapienia muszlowego Gogolina. In: pnas.1216750110. Conference abstracts. IV Konferencja Li, C., Wu, X.C., Cheng, Y.N., Sato, T., Naukowa „Młodzi w Paleontologii”, Sopot: Wang, L. (2006) An unusual archosau- 83-84. rian from the marine Triassic of China, Naturwissenschaften, 93, 200-206. Sulej, T., Niedźwiedzki, G., Niedźwiedzki, R., Surmik, D., Stachacz, M. (2011) Nowy zespół kręgowców z marginalno-morskich i lądowych osadów dolnego kajpru (la- dyn, środkowy trias) z Miedar na Śląsku, Przegląd Geologiczny, 59, 426-430. Unauthenticated Download Date | 10/22/16 11:01 AM.
Load more

Recommended publications
  • A New Species of the Sauropsid Reptile Nothosaurus from the Lower Muschelkalk of the Western Germanic Basin, Winterswijk, the Netherlands
    A new species of the sauropsid reptile Nothosaurus from the Lower Muschelkalk of the western Germanic Basin, Winterswijk, The Netherlands NICOLE KLEIN and PAUL C.H. ALBERS Klein, N. and Albers, P.C.H. 2009. A new species of the sauropsid reptile Nothosaurus from the Lower Muschelkalk of the western Germanic Basin, Winterswijk, The Netherlands. Acta Palaeontologica Polonica 54 (4): 589–598. doi:10.4202/ app.2008.0083 A nothosaur skull recently discovered from the Lower Muschelkalk (early Anisian) locality of Winterswijk, The Nether− lands, represents at only 46 mm in length the smallest nothosaur skull known today. It resembles largely the skull mor− phology of Nothosaurus marchicus. Differences concern beside the size, the straight rectangular and relative broad parietals, the short posterior extent of the maxilla, the skull proportions, and the overall low number of maxillary teeth. In spite of its small size, the skull can not unequivocally be interpreted as juvenile. It shows fused premaxillae, nasals, frontals, and parietals, a nearly co−ossified jugal, and fully developed braincase elements, such as a basisphenoid and mas− sive epipterygoids. Adding the specimen to an existing phylogenetic analysis shows that it should be assigned to a new species, Nothosaurus winkelhorsti sp. nov., at least until its juvenile status can be unequivocally verified. Nothosaurus winkelhorsti sp. nov. represents, together with Nothosaurus juvenilis, the most basal nothosaur, so far. Key words: Sauropterygia, Nothosaurus, ontogeny, Anisian, The Netherlands. Nicole Klein [nklein@uni−bonn.de], Steinmann−Institut für Geologie, Mineralogie und Paläontologie, Universtät Bonn, Nußallee 8, 53115 Bonn, Germany; Paul C.H. Albers [[email protected]], Naturalis, Nationaal Natuurhistorisch Museum, Darwinweg 2, 2333 CR Leiden, The Netherlands.
    [Show full text]
  • Silicification and Organic Matter Preservation In
    Central European Geology, Vol. 60/1, 35–52 (2017) DOI: 10.1556/24.60.2017.002 First published online February 28, 2017 Silicification and organic matter preservation in the Anisian Muschelkalk: Implications for the basin dynamics of the central European Muschelkalk Sea Annette E. Götz1*, Michael Montenari1, Gelu Costin2 1School of Physical and Geographical Sciences, Keele University, Staffordshire, United Kingdom 2Department of Earth Science, Rice University, Houston, TX, USA Received: July 19, 2016; accepted: October 3, 2016 Anisian Muschelkalk carbonates of the southern Germanic Basin containing silicified ooidal grainstone are interpreted as evidence of changing pH conditions triggered by increased bioproductivity (marine phytoplankton) and terrestrial input of plant debris during maximum flooding. Three distinct stages of calcite ooid replacement by silica were detected. Stage 1 reflects authigenic quartz development during the growth of the ooids, suggesting a change in the pH–temperature regime of the depositional environment. Stages 2 and 3 are found in silica-rich domains. The composition of silica-rich ooids shows significant Al2O3 and SrO but no FeO and MnO, indicating that late diagenetic alteration was minor. Silicified interparticle pore space is characterized by excellent preservation of marine prasinophytes; palynological slides show high abundance of terrestrial phytoclasts. The implications of our findings for basin dynamics reach from paleogeography to cyclostratigraphy and sequence stratigraphy, since changes in the seawater chemistry and sedimentary organic matter distribution reflect both the marine conditions as well as the hinterland. Basin interior changes might overprint the influence of the Tethys Ocean through the eastern and western gate areas. Stratigraphically, such changes might enhance marine flooding signals.
    [Show full text]
  • GUIDEBOOK the Mid-Triassic Muschelkalk in Southern Poland: Shallow-Marine Carbonate Sedimentation in a Tectonically Active Basin
    31st IAS Meeting of Sedimentology Kraków 2015 GUIDEBOOK The Mid-Triassic Muschelkalk in southern Poland: shallow-marine carbonate sedimentation in a tectonically active basin Guide to field trip B5 • 26–27 June 2015 Joachim Szulc, Michał Matysik, Hans Hagdorn 31st IAS Meeting of Sedimentology INTERNATIONAL ASSOCIATION Kraków, Poland • June 2015 OF SEDIMENTOLOGISTS 225 Guide to field trip B5 (26–27 June 2015) The Mid-Triassic Muschelkalk in southern Poland: shallow-marine carbonate sedimentation in a tectonically active basin Joachim Szulc1, Michał Matysik2, Hans Hagdorn3 1Institute of Geological Sciences, Jagiellonian University, Kraków, Poland ([email protected]) 2Natural History Museum of Denmark, University of Copenhagen, Denmark ([email protected]) 3Muschelkalk Musem, Ingelfingen, Germany (encrinus@hagdorn-ingelfingen) Route (Fig. 1): From Kraków we take motorway (Żyglin quarry, stop B5.3). From Żyglin we drive by A4 west to Chrzanów; we leave it for road 781 to Płaza road 908 to Tarnowskie Góry then to NW by road 11 to (Kans-Pol quarry, stop B5.1). From Płaza we return to Tworog. From Tworog west by road 907 to Toszek and A4, continue west to Mysłowice and leave for road A1 then west by road 94 to Strzelce Opolskie. From Strzelce to Siewierz (GZD quarry, stop B5.2). From Siewierz Opolskie we take road 409 to Kalinów and then turn we drive A1 south to Podskale cross where we leave south onto a local road to Góra Sw. Anny (accomoda- for S1 westbound to Pyrzowice and then by road 78 to tion). From Góra św. Anny we drive north by a local road Niezdara.
    [Show full text]
  • An Introduction to the Triassic: Current Insights Into the Regional Setting and Energy Resource Potential of NW Europe
    See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/322739556 An introduction to the Triassic: Current insights into the regional setting and energy resource potential of NW Europe Article in Geological Society London Special Publications · January 2018 DOI: 10.1144/SP469.1 CITATIONS READS 3 92 3 authors, including: Tom Mckie Ben Kilhams Shell U.K. Limited Shell Global 37 PUBLICATIONS 431 CITATIONS 11 PUBLICATIONS 61 CITATIONS SEE PROFILE SEE PROFILE Some of the authors of this publication are also working on these related projects: Reconstructing the Norwegian volcanic margin View project Paleocene of the Central North Sea: regional mapping from dense hydrocarbon industry datasets. View project All content following this page was uploaded by Ben Kilhams on 22 November 2019. The user has requested enhancement of the downloaded file. Downloaded from http://sp.lyellcollection.org/ by guest on January 26, 2018 An introduction to the Triassic: current insights into the regional setting and energy resource potential of NW Europe MARK GELUK1*, TOM MCKIE2 & BEN KILHAMS3 1Gerbrandylaan 18, 2314 EZ Leiden, The Netherlands 2Shell UK Exploration & Production, 1 Altens Farm Road, Nigg, Aberdeen AB12 3FY, UK 3Nederlandse Aardolie Maatschappij (NAM), PO Box 28000, 9400 HH Assen, The Netherlands *Correspondence: [email protected] Abstract: A review of recent Triassic research across the Southern Permian Basin area demon- strates the role that high-resolution stratigraphic correlation has in identifying the main controls on sedimentary facies and, subsequently, the distribution of hydrocarbon reservoirs. The depositio- nal and structural evolution of these sedimentary successions was the product of polyphase rifting controlled by antecedent structuration and halokinesis, fluctuating climate, and repeated marine flooding, leading to a wide range of reservoir types in a variety of structural configurations.
    [Show full text]
  • (Diapsida: Saurosphargidae), with Implications for the Morphological Diversity and Phylogeny of the Group
    Geol. Mag.: page 1 of 21. c Cambridge University Press 2013 1 doi:10.1017/S001675681300023X A new species of Largocephalosaurus (Diapsida: Saurosphargidae), with implications for the morphological diversity and phylogeny of the group ∗ CHUN LI †, DA-YONG JIANG‡, LONG CHENG§, XIAO-CHUN WU†¶ & OLIVIER RIEPPEL ∗ Laboratory of Evolutionary Systematics of Vertebrates, Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences, PO Box 643, Beijing 100044, China ‡Department of Geology and Geological Museum, Peking University, Beijing 100871, PR China §Wuhan Institute of Geology and Mineral Resources, Wuhan, 430223, PR China ¶Canadian Museum of Nature, PO Box 3443, STN ‘D’, Ottawa, ON K1P 6P4, Canada Department of Geology, The Field Museum, 1400 S. Lake Shore Drive, Chicago, IL 60605-2496, USA (Received 31 July 2012; accepted 25 February 2013) Abstract – Largocephalosaurus polycarpon Cheng et al. 2012a was erected after the study of the skull and some parts of a skeleton and considered to be an eosauropterygian. Here we describe a new species of the genus, Largocephalosaurus qianensis, based on three specimens. The new species provides many anatomical details which were described only briefly or not at all in the type species, and clearly indicates that Largocephalosaurus is a saurosphargid. It differs from the type species mainly in having three premaxillary teeth, a very short retroarticular process, a large pineal foramen, two sacral vertebrae, and elongated small granular osteoderms mixed with some large ones along the lateral most side of the body. With additional information from the new species, we revise the diagnosis and the phylogenetic relationships of Largocephalosaurus and clarify a set of diagnostic features for the Saurosphargidae Li et al.
    [Show full text]
  • Beiträge Zur Kenntniss Der Obertriadischen Cephalopoden-Faunen
    562 Retiews—Himalayan Triassic Fossils. Maryland. It is strange that the British Survey has always laboured under difficulties, and that its staff and equipment have been inadequate to deal with many matters of economic interest which other countries find it wise to thoroughly investigate. III.— (1) BEITRAGE ZUR KKNNTNISS DER OBERTRIADISCHEN CEPHALO- PODEN-FAUNEN DES HIMALAYA. By Dr. EDMUND MOJSISOVICS EDLBR VON MOJSVAE. Denkschr. d. k. Akad. d. Wissenschaften, Wien, math.-naturw. Classe, Bd. lxiii, pp. 575-701, pis. i-xxii, 1896. (2) HIMALAYAN FOSSILS. THE CEPHALOPODA OF THE MHSOHELKALK. By CARL DIENER. Mem. Geol. Surv. India. Palseontologia Indica, ser. xv, vol. ii, part 2, 118 pp., xxxi pis., 1895. HEN the older collections from the Himalayan Trias were W described, species were regarded in a much wider sense than obtains nowadays ; hence, before the correlation of the Indian Trias with the Triassic rocks of other countries could be attempted, it was necessary for these collections to be re-examined and fully described. Accordingly, at the suggestion of Mr. Griesbach (now Director), the Geological Survey of India consented to send all their collections of Himalayan fossils to Professor Suess in Vienna, in order that they might be worked out by Austrian specialists. (1) The Cephalopoda were entrusted to Dr. E. Mojsisovics, who has done so much work on the Cephalopoda of the Austrian Trias; and he at once saw that by far the larger number of the specimens came from the lower portion of the Trias, and that the upper beds were represented by only a few specimens. Kecognizing the scientific interest which a more detailed knowledge of the Himalayan Trias would have, in some " Preliminary Eemarks on the Cephalopoda of the Himalayan Trias," which Dr.
    [Show full text]
  • Steam-Water Relative Permeability
    Hydrochemical properties of deep carbonate aquifers, SW-German Molasse Basin Ingrid Stober Karlsruhe Institute of Technology KIT, Institute of Applied Geosciences, Adenauerring 20b, D-76131 Karlsruhe, Germany [email protected] Keywords: Karstified limestone aquifer, deep seated fluids, hydrochemistry, geothermal energy ABSTRACT The Upper Jurassic (Malm) limestone and the middle Triassic Muschelkalk limestone are the major thermal aquifers in the southwest German alpine foreland. The aquifers are of interest for production of geothermal energy and for balneological purposes. The hydrochemical properties of the two aquifers differ in several aspects. The total amounts of dissolved solids (TDS) are much higher within the Upper Muschelkalk aquifer than within the Upper Jurassic. Water composition data reflect the origin and hydrochemical evolution of deep water. Rocks and their minerals control the chemical signature of the water. With increasing depth, the total of dissolved solids increases. In both aquifers, the water evolve to a NaCl-dominated fluid regardless of the aquifer rock. The salinity of the aquifers has different sources. In the case of the Upper Muschelkalk it is linked to deep circulation-systems, while the hydrochemical properties in the Upper Jurassic developed due to changing overburden and hydraulic potential. 1. INTRODUCTION The deep Upper Jurassic carbonates are the most important reservoir rocks for hydrothermal energy use in Southern Germany. Especially in the Munich area of Bavaria (Germany), several geothermal power plants and district heating systems were installed since 2007. In Baden-Württemberg (SW-Germany), the Upper Jurassic thermal aquifer is of shallower depth (Fig.1), therefore colder and the thermal water is rather used for balneological purposes including heating of nearby buildings.
    [Show full text]
  • Exceptional Vertebrate Biotas from the Triassic of China, and the Expansion of Marine Ecosystems After the Permo-Triassic Mass Extinction
    Earth-Science Reviews 125 (2013) 199–243 Contents lists available at ScienceDirect Earth-Science Reviews journal homepage: www.elsevier.com/locate/earscirev Exceptional vertebrate biotas from the Triassic of China, and the expansion of marine ecosystems after the Permo-Triassic mass extinction Michael J. Benton a,⁎, Qiyue Zhang b, Shixue Hu b, Zhong-Qiang Chen c, Wen Wen b, Jun Liu b, Jinyuan Huang b, Changyong Zhou b, Tao Xie b, Jinnan Tong c, Brian Choo d a School of Earth Sciences, University of Bristol, Bristol BS8 1RJ, UK b Chengdu Center of China Geological Survey, Chengdu 610081, China c State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences (Wuhan), Wuhan 430074, China d Key Laboratory of Evolutionary Systematics of Vertebrates, Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences, Beijing 100044, China article info abstract Article history: The Triassic was a time of turmoil, as life recovered from the most devastating of all mass extinctions, the Received 11 February 2013 Permo-Triassic event 252 million years ago. The Triassic marine rock succession of southwest China provides Accepted 31 May 2013 unique documentation of the recovery of marine life through a series of well dated, exceptionally preserved Available online 20 June 2013 fossil assemblages in the Daye, Guanling, Zhuganpo, and Xiaowa formations. New work shows the richness of the faunas of fishes and reptiles, and that recovery of vertebrate faunas was delayed by harsh environmental Keywords: conditions and then occurred rapidly in the Anisian. The key faunas of fishes and reptiles come from a limited Triassic Recovery area in eastern Yunnan and western Guizhou provinces, and these may be dated relative to shared strati- Reptile graphic units, and their palaeoenvironments reconstructed.
    [Show full text]
  • Palaeomagnetic Poles from the Germanic Basin (Winterswijk, the Netherlands) Lars P
    van Hinsbergen et al. Journal of Palaeogeography (2019) 8:30 https://doi.org/10.1186/s42501-019-0046-2 Journal of Palaeogeography ORIGINAL ARTICLE Open Access Triassic (Anisian and Rhaetian) palaeomagnetic poles from the Germanic Basin (Winterswijk, the Netherlands) Lars P. P. van Hinsbergen1, Douwe J. J. van Hinsbergen2*, Cor G. Langereis2, Mark J. Dekkers2, Bas Zanderink2,3 and Martijn H. L. Deenen2 Abstract In this paper, we provide two new Triassic palaeomagnetic poles from Winterswijk, the Netherlands, in the stable interior of the Eurasian plate. They were respectively collected from the Anisian (~ 247–242 Ma) red marly limestones of the sedimentary transition of the Buntsandstein Formation to the dark grey limestones of the basal Muschelkalk Formation, and from the Rhaetian (~ 208–201 Ma) shallow marine claystones that unconformably overlie the Muschelkalk Formation. The magnetization is carried by hematite or magnetite in the Anisian limestones, and iron sulfides and magnetite in the Rhaetian sedimentary rocks, revealing for both a large normal polarity overprint with a recent (geocentric axial dipole field) direction at the present latitude of the locality. Alternating field and thermal demagnetization occasionally reveal a stable magnetization decaying towards the origin, interpreted as the Characteristic Remanent Magnetization. Where we find a pervasive (normal polarity) overprint, we can often still determine well-defined great-circle solutions. Our interpreted palaeomagnetic poles include the great-circle solutions. The Anisian magnetic pole has declination D ± ΔDx =210.8±3.0°, inclination I±ΔIx = − 26.7 ± 4.9°, with a latitude, longitude of 45.0°, 142.0° respectively, K = 43.9, A95 =2.9°, N = 56.
    [Show full text]
  • 190 World's First Herbivorous Filter-Feeding Marine Reptile
    BCAS Vol.30 No.3 2016 Earth Sciences World’s First Herbivorous Filter- feeding Marine Reptile ome strange creatures cropped up in the wake Its head was poorly preserved, but it seemed to have of one of Earth’s biggest mass extinctions a flamingo-like beak. However, in a paper published S252 million years ago. In 2014, scientists May 6 in Science Advances, Dr. LI Chun, Institute of discovered a bizarre fossil – a crocodile-sized sea- Vertebrate Paleontology and Paleoanthropology (IVPP), dwelling reptile, Atopodentatus unicus, that lived 242 Chinese Academy of Sciences, and his international million years ago in what today is southwestern China. team described two new specimens and revealed what Fossil and reconstruction of Atopodentatus unicus (Image by IVPP) 190 Bulletin of the Chinese Academy of Sciences Vol.30 No.3 2016 Science Watch Earth Sciences was really going on—that "beak" is actually part of a among marine reptiles. It is older than other marine hammerhead-shaped jaw apparatus, which the reptile used animals that ate plants with a filter-feeding system by to feed on plants on the ocean floor. It's the earliest known about eight million years, said the team. example of an herbivorous marine reptile. Atopodentatus appeared during the Triassic period These two newly discovered specimens of soon after the biggest mass extinction of species in Earth's Atopodentatus were collected from the Middle Triassic history, illustrating that life recovered and diversified (Anisian) Guanling Formation of Luoping County, Yunnan more quickly than previously thought. Other oddball Province, southwestern China. The new specimens clearly creatures also swam the seas at the time, including a demonstrate that rather than being downturned, the reptile called Dinocephalosaurus whose neck comprised rostrum developed into a “hammerhead” with pronounced half of its 17-foot (5.25 meters) length.
    [Show full text]
  • A Hiatus Obscures the Early Evolution of Modern Lineages of Bony Fishes
    Zurich Open Repository and Archive University of Zurich Main Library Strickhofstrasse 39 CH-8057 Zurich www.zora.uzh.ch Year: 2021 A Hiatus Obscures the Early Evolution of Modern Lineages of Bony Fishes Romano, Carlo Abstract: About half of all vertebrate species today are ray-finned fishes (Actinopterygii), and nearly all of them belong to the Neopterygii (modern ray-fins). The oldest unequivocal neopterygian fossils are known from the Early Triassic. They appear during a time when global fish faunas consisted of mostly cosmopolitan taxa, and contemporary bony fishes belonged mainly to non-neopterygian (“pale- opterygian”) lineages. In the Middle Triassic (Pelsonian substage and later), less than 10 myrs (million years) after the Permian-Triassic boundary mass extinction event (PTBME), neopterygians were already species-rich and trophically diverse, and bony fish faunas were more regionally differentiated compared to the Early Triassic. Still little is known about the early evolution of neopterygians leading up to this first diversity peak. A major factor limiting our understanding of this “Triassic revolution” isaninter- val marked by a very poor fossil record, overlapping with the Spathian (late Olenekian, Early Triassic), Aegean (Early Anisian, Middle Triassic), and Bithynian (early Middle Anisian) substages. Here, I review the fossil record of Early and Middle Triassic marine bony fishes (Actinistia and Actinopterygii) at the substage-level in order to evaluate the impact of this hiatus–named herein the Spathian–Bithynian gap (SBG)–on our understanding of their diversification after the largest mass extinction event of the past. I propose three hypotheses: 1) the SSBE hypothesis, suggesting that most of the Middle Triassic diver- sity appeared in the aftermath of the Smithian-Spathian boundary extinction (SSBE; ฀2 myrs after the PTBME), 2) the Pelsonian explosion hypothesis, which states that most of the Middle Triassic ichthyo- diversity is the result of a radiation event in the Pelsonian, and 3) the gradual replacement hypothesis, i.e.
    [Show full text]
  • Redalyc.Diagenesis and Geochemistry of Upper Muschelkalk
    Geologica Acta: an international earth science journal ISSN: 1695-6133 [email protected] Universitat de Barcelona España Tucker, Maurice; Marshall, Jim Diagenesis and Geochemistry of Upper Muschelkalk (Triassic) Buildups and Associated Facies in Catalonia (NE Spain): a paper dedicated to Francesc Calvet Geologica Acta: an international earth science journal, vol. 2, núm. 4, 2004, pp. 257-269 Universitat de Barcelona Barcelona, España Available in: http://www.redalyc.org/articulo.oa?id=50520402 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative Geologica Acta, Vol.2, Nº4, 2004, 257-269 Available online at www.geologica-acta.com Diagenesis and Geochemistry of Upper Muschelkalk (Triassic) Buildups and Associated Facies in Catalonia (NE Spain): a paper dedicated to Francesc Calvet 1 2 MAURICE TUCKER and JIM MARSHALL 1 Department of Earth Sciences University of Durham Durham DH1 3RL, UK. E-mail: [email protected] 2 Department of Earth Sciences, University of Liverpool Brownlow Street, Liverpool L69 3GP, UK. E-mail: [email protected] ABSTRACT Carbonate buildups are well developed in the Triassic Upper Muschelkalk of eastern Spain in the La Riba Unit, but they are completely dolomitised. These mud-mounds with reefal caps have well-developed fibrous and botry- oidal marine cements which were probably high-Mg calcite and aragonite originally. The dolomite is fabric retentive indicating an early origin, but the ␦18O values are quite negative (average -3.‰), interpreted as indicat- ing recrystallisation during shallow burial, but without fabric destruction.
    [Show full text]