Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-08T11:28:11.685Z Has data issue: false hasContentIssue false
  • English
  • Français

The Place of the Trimingham and Norwich Chalk in the Campanian-Maestrichtian Succession1

Published online by Cambridge University Press:  01 May 2009

J. A. Jeletzky
J. A. Jeletzky
Affiliation:
(Geological Survey of Canada, Ottawa)
Get access Rights & Permissions [Opens in a new window]

Abstract

The Maestrichtian is considered an independent stage younger than and equal in rank to the Senonian stage; in its type-area it includes, besides the Maestricht Tuff, such older formations as the Chalk of Ciply and of Spiennes, the Kunrade Limestone, upper beds of the Gulpen Chalk, and even some part of the Hervian Greensands. The zone of Pachydiscus egertoni forms the base of the Maestrichtian stage.

In its type locality the Campanian stage includes the zone of Bostrychoceras polyplocum; at the same time its uppermost beds are at any rate not older than the uppermost beds of the Senonian stage in its type area. The zone of B. polyplocum thus forms a part of the Senonian stage.

The true Belemnella lanceolata (Schloth.) is restricted to the Trimingham Chalk. Belemnitella ex. gr. mucronata (including “Belemnites lanceolatus” von Sharpe and Blackmore non Schloth.) are, on the contrary, all but confined to the Norwich Chalk and older beds of the English Upper Chalk. Accordingly, a new zonal name “Zone of Belemnella lanceolata” is recommended for the Trimingham Chalk, and the zone of Belemnitella mucronata should, in the opinion of the writer, be restricted to beds older than the Trimingham Chalk.

The Trimingham Chalk is assigned to the Lower Maestrichtian, while the Norwich Chalk represents the Upper Campanian (including the B. polyplocum zone).

Type
Articles
Information
Geological Magazine , Volume 88 , Issue 3 , June 1951 , pp. 197 - 208
Copyright
Copyright © Cambridge University Press 1951

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

1

Published with the permission of the Director-General of Scientific Services, Department of Mines and Technical Surveys, Ottawa.

References

REFERENCES

Abrard, R., 1931. Révision de la feulle de Provins au 80·000 m. Bull. Sérv. Carte Géol. France (34), No. 179, 24–5.Google Scholar
Abrard, R., 1948. Géologie de la France. Paris.Google Scholar
Arkell, W. J., 1946. Standard of the European Jurassic. Bull. Geol. Soc. America, 57, 134.Google Scholar
Arkhangelsky, A. D., 1912. Verkhne-melovye otlozheniya wostoka Evropeiskoi Rossii (The Upper Cretaceous deposits of the Eastern part of European Russia). Materialy dlya geologii Rossii, 25 St. Petersburg (Russian).Google Scholar
Brotzen, F., 1945. De geologiska resultaten från borrningarna vid Hollviken. Preliminar rapport. Del I: Kritan. Sveriges Geologiska Under-sökning. Årsbok 38, Ser. C, No. 465 (Swedish with English summary).Google Scholar
Brydone, R. M., 1900. Stratigraphy and fauna of Trimingham Chalk. London.Google Scholar
Brydone, R. M., 1906 a. Further notes on the stratigraphy and fauna of the Trimingham Chalk. Geol. Mag., 53, 1322, 72–8, 124–131.Google Scholar
Brydone, R. M., 1906 b. The Trimingham Chalk as a zone. Geol. Mag., 53, 285–6.Google Scholar
Brydone, R. M., 1908. On the subdivisions of the Chalk of Trimingham (Norfolk). Quart. Journ. Geol. Soc., 64, 401412.Google Scholar
Brydone, R. M., 1938. On Correlation of Some of the Norfolk Exposures of Chalk with Belemnitella mucronata. London.Google Scholar
Bubnoff, S., 1935. Geologie von Europa. Bd. 2. Das ausseralpine Westeuropa T.2, Die Entwicklung des Oberbaues. Berlin.Google Scholar
Coquand, H., 1857 a. Notice sur la formation crétacé de la Charente. Bull. Soc. Géol. France (2), 14, 5598.Google Scholar
Coquand, H., 1857 b. Position des Ostrea columba et biauriculata dans le groupe de la craié inférieure. Bull. Soc. Géol. France (2), 14, 745766.Google Scholar
Cornet, L., and Briart, A., 1874. Aperçu sur la géologie des énvirons de Mons. Bull. Soc. Géol. France (3), 2, 534553.Google Scholar
Crick, G. C., 1910. On Belemnocamax Boweri n. gen. n. sp. a new Cephalopod from the lower chalk of Lincolnshire. Proc. Geol. Assoc., 21, 360–5.Google Scholar
Dumont, A., 1849. Rapport sur la carte géologique du Royame. Bull. Acad. Roy. Belgique, 16, 351373.Google Scholar
Evans, J. W., and Stubblefield, C. J., 1929. Handbook of the Geology of Great Britain. London.Google Scholar
Gignoux, M., 1943. La géologie stratigraphique. 3me ed., Paris.Google Scholar
Grossouvre, A. De., 1901. Récherches sur la craie supérieure. I. Stratigraphie générale. Avec une monographie du genre Micraster par J. Lambert. Mémoires pour servir à l'explication de la carte géologique de la France. Fasc. 1–2, Paris.Google Scholar
Haug, E., 19081911. Traite de géologie. Paris.Google Scholar
Jeletzky, J. A., 1948 a. Sowerby's and Sharpe's Belemnites lanceolatus and their relation to Belemnites lanceolatus Schlotheim, 1813. Geol. Mag., 85, 338348.Google Scholar
Jeletzky, J. A., 1948 b. Zur Kenntnis der Oberkreide der Dnjepr-Donetz Senke… Geol. Fören. Förh., 70, 583602.Google Scholar
Jeletzky, J. A., 1949 a. Uber die taxonomische Bedeutung einiger morphologischen Elemente des Rostrums bei belemnitellengartigen Formen… Neues Jahrb. Min., Monatshefte, Ser. B, 257287.Google Scholar
Jeletzky, J. A., 1949 b. Upper Cretaceous stratigraphy. Geol. Fören. Förh., 71, 497500.Google Scholar
Jukes-Browne, A. J., 1904. The Cretaceous rocks of Gt. Britain. III. Upper Chalk. Mem. Geol. Survey.Google Scholar
Jukes-Browne, A. J., 1906. The zone of Ostrea lunata. Geol. Mag., 53, 93–4, 335–6.Google Scholar
Kuhn, O., and Zinke, G., 1939. Die helvetische Kreide von Mattsee. Neues Jahr. Min., etc., Beil. Bd. 81, 327346.Google Scholar
Leriche, M., 1927. Les poissons du crétacé marin de la Belgique et du Limburg hollandais; les résultats stratigraphiques de leur étude. Bull. Soc. Beige de Géol., 37, 199299.Google Scholar
Mikhailov, N. P., 1947. O granitze mezhdu kampanskim i maastrichtskim yarusami (The boundary between Campanian and Maestrichtian stages). Doklady Akad. Nauk. U.S.S.R., 58, 2021–3 (Russian).Google Scholar
Mikhailov, N. P., 1948. Zonalnoie delenie verkhnei chasti melovykh otlozhenii Kryma i Zapadnoi Ukrainy po golovonogim (The zonal subdivision of the upper part of the Cretaceous deposits of Crimea and Western Ukraine according to Cephalopods). Bull. Soc. Nat. Moscou, N.S., Otd. Geol., 23, 210 (Russian).Google Scholar
Muller, S. W., 1941. Standard of the Jurassic system. Bull. Geol. Soc. America, 52, 14271444.Google Scholar
Muller, S. W., and Schenck, H. G., 1943. Standard of the Cretaceous system. Bull. Amer. Assoc. Petrol. Geologists, 27, 262278.Google Scholar
Nowak, J., 1913. Untersuchungen uber die Cephalopoden der oberen Kreide in Polen. 3. Bull. Acad. Sci. Cracovie, Ser. B, 336412.Google Scholar
Nowak, J., 1917. Die Verbreitung der Cephalopoden im polnischen Senon. Bull. Acad. Sci. Cracovie, Ser. A. 129152.Google Scholar
d'Orbigny, A., 1842. Paléontologie française. Terrains crétacées, t. 2. Paris.Google Scholar
d'Orbigny, A., 1852. Cours elémentaire de paléontologie et de gélogie stratigraphiques. Paris.Google Scholar
Pożariski, W., 1938. Senonsstratigraphie im Durchbruch der Weichsel zwischen Rachow und Pulawy in Mittelpolen. Bull. Inst. Geol. Pologne, No. 6 (Polish with German summary).Google Scholar
Schatsky, N. S., 1924. La stratigraphie et la téctonique du Crétacé supénieur et du Paléogene dans l'extremites septentrionale de la chaine du Donetz. Trudy Osoboy Komissii Kurskich Magnitnych Anomalii. Geol. Otdel, v, 82152 (Russian, with French summary).Google Scholar
Sharpe, D., 18531857. Chalk Cephalopoda. Mon. Palaeont. Soc. London.Google Scholar
Spath, L. F., 1926. On new ammonites from the English Chalk. Geol. Mag., 63, 7783.Google Scholar
Spencer, W. K., 1914. The Evolution of the Cretaceous Asteroidea. Phil. Trans. Roy. Soc., 204, B.Google Scholar
Troelsen, J., 1937. Om den stratigraphiske Indeling af Skrivekridtet i Danmark. Medd. Dansk Geol. Foren., 9, 260–3 (Danish).Google Scholar
Umbgrove, J. H. F., 19251926. Bijdrage tot de Kennis der Stratigraphie, Tektoniek en Petrographie van bet Senoon in Zuid-Limburg. Leidische Geol. Mededeel., 1, 255332 (Dutch).Google Scholar
Voigt, E., 1929. Die Lithogenese der Flach and Tiefwassersedimente des jüngeren Oberkreidemeeres… Jahrb. Halleschen Verbandes zur Erforschung Mitteldeutscher Bodenschätze, 8, N.F.Google Scholar
Weijden, W. J. M. van den, 1943. Die Macrofauna der Hervenischen Kreide mit besonderer Berücksichtigung der Lamellibranchiaten. Mededeelingen Geol. Stichting, Ser. C–IV–2, No. 1.Google Scholar
Williams-Mitchell, E., 1948. The zonal value of Foraminifera in the Chalk of England. Proc. Geol. Assoc., 59, 91112.Google Scholar
Withers, T. H., 1935. Catalogue of Fossil Cirripedia. 2, Cretaceous. British Museum (Natural History).Google Scholar