Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-18T06:43:44.095Z Has data issue: false hasContentIssue false
  • English
  • Français

A preliminary study of Ashgill carbonate beds from the lower part of the Fosses Formation (Condroz, Belgium)

Published online by Cambridge University Press:  01 May 2009

Francis Tourneur ,
Michel Vanguestaine ,
Caroline Buttler ,
Bernard Mamet ,
Nicolas Mouravieff ,
Edouard Poty  and
Alain Préat
Francis Tourneur
Affiliation:
Services associés de Paléontologie, Université de Liège, 7, Place du 20 Août, B-4000 Liège, Belgium
Michel Vanguestaine
Affiliation:
Services associés de Paléontologie, Université de Liège, 7, Place du 20 Août, B-4000 Liège, Belgium
Caroline Buttler
Affiliation:
Department of Geology, National Museum of Wales, Cathays Park, Cardiff CF1 3NP, U.K.
Bernard Mamet
Affiliation:
Département de Géologie, Université de Montréal, C.P. 6128, Montréal H3C 3J7, Canada
Nicolas Mouravieff
Affiliation:
Unité de Paléontologie et de Paléogéographie, Université Catholique de Louvain, 3, Place Louis Pasteur, B-1348 Louvain-la-Neuve, Belgium
Edouard Poty
Affiliation:
Services associés de Paléontologie, Université de Liège, 7, Place du 20 Août, B-4000 Liège, Belgium
Alain Préat
Affiliation:
Sciences de la Terre et de l'Environnement, Université Libre de Bruxelles, 50, Avenue Franklin Roosevelt, B-1050 Bruxelles, Belgium
Get access Rights & Permissions [Opens in a new window]

Abstract

The sedimentology and palaeontology of carbonate beds in the lower part of the Fosses Formation (Ashgill of the Condroz area, central Belgium) have been investigated. Two depositional interpretations are suggested: deposition either near a platform-ramp margin as bioclastic turbidites and interbedded shales or on a shelf as a transgressive sequence following a regressive event. Faunal affinities with the Baltic area and Wales are confirmed, and the location of Belgium in the tropics during the Ashgill is supported by the calcareous algae and the coral fauna.

Type
Articles
Information
Geological Magazine , Volume 130 , Issue 5 , September 1993 , pp. 673 - 679
Copyright
Copyright © Cambridge University Press 1993

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.)

References

Bassler, R. S. 1911. The early palaeozoic Bryozoa of the Baltic provinces. Bulletin of the United States National Museum no. 77, 382 pp.Google Scholar
Bouma, A. H. 1962. Sedimentology of some Flysch Deposits. Amsterdam: Elsevier, 168 pp.Google Scholar
Buttler, C. J. 1991 a. A new upper Ordovician bryozoan fauna from the Slade and Redhill Beds, South Wales. Palaeontology 34, 77108.Google Scholar
Buttler, C. J. 1991 b. Bryozoans from the Llanbedrog Mudstones (Caradoc), north Wales. Bulletin of the British Museum of Natural History (Geology) 47, 153–68.Google Scholar
Combaz, A. 1967. Un microbios du Trémadocien dans un sondaged'Hassi-Messaoud. Actes de la Société Linnéenne de Bordeaux 104 (29), 126.Google Scholar
Dumont, A. 1848. Mémoire sur les terrains ardennais et rhénan de l'Ardenne, du Rhin, du Brabant et du Condros. Mémoires de l'Academie royale de Belgique no. 20, 613 pp.CrossRefGoogle Scholar
Dybovski, W. N. 1878. Die Chaetetiden der Ostbaltischen Silur-Formation. Kaiserlich Mineralogisch Gesellschaft St. Petersburg Verhandlungen 14 (2), 134 pp. (in Russian).Google Scholar
Eichwald, C. E. '. 18551860. Lethaea rossica ou Paléontologie de la Russie 1 (1). Stuttgart: E. Schweizerbart, 681 pp.Google Scholar
Eisenack, A. 1931. Neue Mikrofossilien des baltischen Silurs. I. Paläontologische Zeitschrift 13, 74118.CrossRefGoogle Scholar
Eisenack, A. 1959. Neotypen baltischer Silur-Chitinozoen und neue Arten. Neues Jahrbuch für Geologie und Paläontologie Abhandlungen 108 (I), 120.Google Scholar
Gosselet, J. 1873. Esquisse géologique du département du Nordet des contrées voisines. Premier fascicule. Terrains primaires. Lille, 107 pp.Google Scholar
Hall, J. 1852. Palaeontology of New York, volume 2. In Natural History of New York, Part VI. Albany, N. Y.: Carroll and Cook, 362 pp.Google Scholar
Høeg, O. A. 1932. Ordovician algae from the Trondheim area. Skrifter utgitt av det Norske Videnskaps Akademie: Oslo Mathematisk–Naturvitenskapelige Klasse 4, 6396.Google Scholar
Hubmann, B. 1991. Silurian Catenipora Lamarck–a guide to ancient latitudinal and faunal relationships. Anzeiger der Österreichen Akademie der Wissenschaft, mathematische–naturwissenschaftliche Klasse 128, 113–20.Google Scholar
Kiaer, J. 1904. Revision der mittelsilurischen Heliotlitiden und neue Beiträge zur Stammegeschichte derselben. Videnskabsselskabet: Christiana, Skrifter 1, Mathematisk–Naturvitenskapppelige Klasse, 1903 10, 158.Google Scholar
Kiaer, J. 1930. Denfossiliförende ordovisk–siluriske lagrekke pa Stord. Bergens Museum Årbok 1929, Naturviten-skapelige Rekke, 11, 75 pp.Google Scholar
Lamarck, J. B. P. A. De M., De. 1816. Histoire naturelle des animaux vertébrés 2, 568 pp. Paris.Google Scholar
Lang, W. D., Smith, S. & Thomas, H. D. 1940. Index of Palaeozoic Coral Genera. London: British Museum (Natural History), 231 pp.Google Scholar
Lespérance, P. J. & Sheehan, P. M. 1988. Trilobites et Brachiopodes ashgilliens (Ordovicien supérieur) de 1'“Assise” de Fosse, Bande de Sambre-Meuse (Belgique). Bulletin de l'Institut royal des Sciences naturelles de Belgique, Sciences de la Terre 57, 91123.Google Scholar
Malaise, C. 1873. Description du terrain silurien du centre de la Belgique. Mémoires couronnés et des savants étrangers de l'Academie royale de Belgique, in-quarto no. 37, 122 pp.CrossRefGoogle Scholar
Martin, F. 1969. Les Acritarches de l'Ordovicien et du Silurien belges, détermination et valeur stratigraphique. Mémoires de l'Institut royal des Sciences naturelles de Belgique no. 160, 175 pp.Google Scholar
Michot, P. 1928. La bande silurienne de Sambre et Meuse entre Fosse et Bouffioulx. Annales de la Société géologique de Belgique, Mémoires 51, 37103.Google Scholar
Michot, P. 1934. La stratigráphie du Silurien de la bande de Sambre-et-Meuse. Mémoires de la Classe des Sciences de l'Academie royale de Belgique, in-octavo, 2ème série no. 13, 108 pp.Google Scholar
Michot, P. 1980. Le segment tectogénique calédonien belge. Mémoires de la Classe des Sciences de l'Academie royale de Belgique, in-octavo, 2ème série no. 43, 61 pp.Google Scholar
Moskalenko, T. A. 1956. Deyaki Dasycladaceae z Ordovika Pribaltiki (Dasycladaceae algae from the Ordovician of the Pre-Baltic). Nauchn. Zapiski Chernivetsk Universitet, ser. geog. nauk., 22 (2), 232–53.Google Scholar
Neuman, B. 1969. Upper Ordovician Streptelasmatid corals from Scandinavia. Bulletin of the Geological Institute of the University of Uppsala 1, 173.Google Scholar
Nicholson, H. A. & Etheridge, R. Jr 1877. On Prasopora grayae, a new genus and species of Silurian corals. Annals and Magazine of Natural History 20 (4), 388–92.CrossRefGoogle Scholar
Pickering, K. T., Bassett, M. G. & Siveter, D. J. 1988. Late Ordovician–early Silurian destruction of the Iapetus Ocean: Newfoundland, British Isles and Scandinavia – a discussion. Transactions of the Royal Society of Edinburgh: Earth Sciences 79, 361–82.CrossRefGoogle Scholar
Pickering, K. T., Hiscott, R. N. & Hein, F. J. 1989. Deep Marine Environments. London: Unwin Hyman, 416 pp.Google Scholar
Poncet, J. 1987. Paléobiogéographie du genre Vermiporella (algue verte calcaire) à l'Ordovicien moyen et supérieur. Annales de la Société géologique du Nord 106, 279–84.Google Scholar
Poncet, J. & Roux, A. 1990. Palaeobiogeography of Ordovician calcareous algae. Palaeogeography, Palaeoclimatology, Palaeoecology 81, 110.CrossRefGoogle Scholar
Regnell, G. 1951. Revision of the Caradocian–Ashgillian Cystoid Fauna of Belgium – with Notes on Isolated Pelmatozoan Fragments. Mémoires de l'Institut royal des Sciences naturelles de Belgique no. 120, 47 pp.Google Scholar
Ropot, L. V. & Pushkin, V. I. 1987. Ordovik Belorussky. Akademy Nauk SSSR Belorussky, 234 pp. (In Russian).Google Scholar
Rothpletz, A. 1913. Ueber die Kalkalgen, Spongiostromen und einige andere Fossilen aus dem Obersilur Gottlands. Sveriges Geologiska Undersökning, Serie C, 10, 54 pp.CrossRefGoogle Scholar
Roux, A. 1991. Ordovician algae and global tectonics. In Calcareous Algae and Stromatolites (ed. Riding, R.), pp. 335–48. Springer Verlag.CrossRefGoogle Scholar
Seilacher, A. 1982. Distinctive features of sandy tempestites. In Cyclic and Event Stratification (eds Einsele, G. and Seilacher, A.), pp. 331–49. Heidelberg, New York: Springer Verlag.Google Scholar
Sheehan, P. M. 1988. Late Ordovician (Ashgillian) Brachiopods from the region of the Sambre and Meuse Rivers, Belgium. Bulletin de l'Institut royal des Sciences naturelles de Belgique, Sciences de la Terre 57, 581.Google Scholar
Stainier, A. 1926. Observations sur la pointe silurienne de Puagne (note préliminaire). Bulletin de la Société belge de Géologie, de Paléontologie et d'Hydrologie 36, 113–15.Google Scholar
Stockmans, F. & Willière, Y. 1960. Hystrichosphères du Dévonien belge (Sondage de l'Asile d'aliénés à Tournai). Senckenbergiana Lethaea 41 (1–6), 111.Google Scholar
Stolley, E. 1893. Ueber Silurische Siphoneen. Neues Jahrbuch für Mineralogie, Geologie und Paläontologie 2, 135–46.Google Scholar
Taylor, P. D. & Cope, J. C. W. 1987. A trepostome bryozoan from the Lower Arenig of South Wales: implications of the oldest described bryozoan. Geological Magazine 124, 367–71.CrossRefGoogle Scholar
Wedekind, R. 1927. Die Zoantharia Rugosa von Gotland (bes. Nordgotland). Sveriges Geologiska Undersökning, Serie C, 19, 94 pp.Google Scholar
Yang Shengwu 1985. Ordovician tabulate coral assemblages of Britain and their zoogeographical relationships. Palaeontographica Americana 54, 169–73.Google Scholar