Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-17T16:28:30.800Z Has data issue: false hasContentIssue false
  • English
  • Français

Correlation of Late Proterozoic tillites in the North Atlantic region and Europe

Published online by Cambridge University Press:  01 May 2009

M. J. Hambrey
M. J. Hambrey
Affiliation:
Department of Earth Sciences, Downing Street, Cambridge CB2 3EQ
Get access Rights & Permissions [Opens in a new window]

Summary

Well-established Late Proterozoic tillites are widely distributed in Svalbard, East and North Greenland, the Norwegian and Swedish Caledonides, Scotland, northwestern Ireland, western USSR, the Urals, Newfoundland and the Appalachians. Recent biostratigraphic and geochronometric data have provided the following sequence of glacial events. The earliest evidence of glaciation is represented by tillites in Newfoundland, Scotland and possibly NE Svalbard, and may have taken place in Late Riphean (sensu Vidal) or Sturtian (sensu Harland) time, perhaps c. 800 Ma ago. A glacial period in Vendian time, the Varangian, centred on 650 Ma was a much more severe climatic event, represented in all the above mentioned areas except Newfoundland. Two Varangian glacial epochs are recorded in Svalbard, East Greenland, northern Norway and possibly western USSR, and although most of the deposits are marine, terrestrial conditions prevailed in some areas with associated periglacial phenomena. The earlier epoch was completed before 650 Ma; the later one occurred within the range c. 650–610 Ma.

A tectonic reconstruction of the region places eastern Svalbard adjacent to East Greenland, which has implications for major strike-slip motions in late and post-Caledonian times. A discrete ice-sheet is envisaged, centred on the western USSR (terrestrial tillites) with ice flowing out to the then peripheral area of the northwestern Europe continental margin and to the Urals where shallow platformal glaciomarine sediments accumulated.

Type
Articles
Information
Geological Magazine , Volume 120 , Issue 3 , May 1983 , pp. 209 - 232
Copyright
Copyright © Cambridge University Press 1983

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

REFERENCES

[References followed by code letter (e.g. F13) refer to papers in: Hambrey, M. J. & Harland, W. B. (Eds and collators). 1981. Earth's pre-Pleistocene glacial record, xv + 1004 pp. Cambridge: Cambridge University Press.]Google Scholar
Anderson, M. M. & King, A. F. 1981. Precambrian tillites of the Conception Group on the Avalon Peninsula, southeastern Newfoundland. (F20).Google Scholar
Anderton, E. 1982. Dalradian deposition and the late Precambrian-Cambrian history of the North Atlantic region: a review of the early evolution of the lapetus Ocean. Jl geol. Soc. Lond. 139, 421–31.CrossRefGoogle Scholar
Áren, B. 1981. Possible Vendian tillites in eastern Poland. (E24).Google Scholar
Bidgood, D. E. T. & Harland, W. B. 1961. Palaeomagnetism in some East Greenland sedimentary rocks. Nature, Lond. 189, 633–4.Google Scholar
Billings, M. P. 1982. Ordovician cauldron subsidence of the Blue Hills Complex, eastern Massachusetts. Bull. geol. Soc. Am. 93, 909–20.Google Scholar
Birkenmajer, K. 1975. Caledonides of Svalbard and plate tectonics. Bull. geol. Soc. Denmark 24, 119.Google Scholar
Bjørlykke, K. 1967. The Eocambrian ‘Reusch Moraine’ at Bigganjargga and the geology around Varangerfjord, northern Norway. Norg. geol. Undersøkelse 251, 1844.Google Scholar
Bjørlykke, K. 1978. The eastern marginal zone of the Caledonide Orogen in Norway. In IGCP Project 27 ‘Caledonian-Appalachian Orogen of the North Atlantic region’. Pap. Can. geol. Surv. 78–13, 4855.Google Scholar
Bjørlykke, K. & Nystuen, J. P. 1981. Late Precambrian tillites of South Norway. (E16).Google Scholar
Brochwicz-Lewiński, W. 1981. Possible Late Precambrian or Cambrian tilloids, southern Poland. (E23).Google Scholar
Brückner, W. D. & Anderson, M. M. 1971. Late Precambrian glacial deposits in southeastern Newfoundland-a preliminary note. Proc. geol. Ass. Can. 24, 95102.Google Scholar
Bucher, W. H. 1964. The third confrontation. In Problems of Palaeoclimatology, (ed. Nairn, A. E. M.), pp. 39. Wiley.Google Scholar
Chumakov, N. M. 1968. Okharaktere pozdnedokembriyskogo oledeneniya Shpitsbergena (On the character of the Late Precambrian glaciation of Spitsbergen). Doklady AN SSSR. Seriya geologicheskaya 180, no. 6, 1446–9.Google Scholar
Chumakov, N. M. 1978. Dokembriyskiye tillity i tilloidy (Precambrian Tillites and Tilloids). Moscow: ‘Nauka’.Google Scholar
Chumakov, N. M. 1981(a). Late Precambrian glacial deposits of the Vilchitsy Formation of western regions of the USSR. (E25).Google Scholar
Chumakov, N. M. 1981(b). Late Precambrian glacial deposits of the Blon Formation, Belorussia, USSR (E26).Google Scholar
Chumakov, N. M. 1981(c). Late Precambrian tillites of the Ryazan’ Province and adjacent regions of the USSR (E28).Google Scholar
Chumakov, N. M. 1981(d). Late Precambrian tillites of the Yablonovka Formation of the Karelian Neck, USSR (E29).Google Scholar
Chumakov, N. M. 1981(e). Late Precambrian tilloids of Podolia and Moldavia, USSR (E27).Google Scholar
Chumakov, N. M. 1981(f). Late Precambrian Churochnaya tillites of the Polyudov Ridge, USSR (E30).Google Scholar
Chumakov, N. M. 1981(g). Late Precambrian tilloids of the Middle Urals, USSR (E31).Google Scholar
Chumakov, N. M. 1981(h). Late Precambrian Kurgashlya tilloids, southern Urals, USSR (E32).Google Scholar
Chumakov, N. M. 1981 (i). Upper Proterozoic rocks and their stratigraphic significance. Precambrian Research 15, 373–95.CrossRefGoogle Scholar
Chumakov, N. M. & Semikhatov, M. A. 1981. Riphean and Vendian of the USSR. Precambrian Research 15, 229–53.CrossRefGoogle Scholar
Church, W. R. 1969. Metamorphic rocks of the Burlington Peninsula and adjoining area of Newfoundland, and their bearing on continental drift in the North Atlantic. In North Atlantic Geology and Continental Drift, (ed. M., Kay), pp. 212–33. Mem. Ass. Petrol. Geol. 12.Google Scholar
Clauer, N. 1981. Rb-Sr and K-Ar dating of Precambrian clays and glauconites. Precambrian Research 15, 331–53.CrossRefGoogle Scholar
Clemmensen, L. B. 1981. Late Precambrian tilloids of Peary Land, North Greenland (F26).Google Scholar
Crowell, J. C. 1964. Turbidity currents and glaciation. In Problems of Palaeoclimatology, (ed. Nairn, A. E. M., pp. 8699. Wiley.Google Scholar
De Wit, M. J. 1981. Late Precambrian metaconglomerate, Burlington Peninsula, Newfoundland (F21).Google Scholar
Doré, F. 1981. Late Precambrian tilloids of Normandy (Armorican Massif) (E21).Google Scholar
Edwards, M. B. 1975. Glacial retreat sedimentation in the Smalfjord Formation, Late Precambrian, North Norway. Sedimentology 22, 7594.CrossRefGoogle Scholar
Edwards, M. B. & Føyn, S. 1981. Late Precambrian tillites in Finnmark, North Norway (E12).Google Scholar
Elston, D. P. & Bressler, S. L. 1980. Paleomagnetic poles and polarity zonation from the Middle Proterozoic Belt Supergroup, Montana and Idaho. J. geophys. Res. 85, 339–55.CrossRefGoogle Scholar
Fiala, F. 1981. Latest Precambrian tilloids of Eastern Bohemia, Czechoslovakia (E22).Google Scholar
Fleming, W. L. S. & Edmonds, J. M. 1941. Hecla Hoek rocks of New Friesland (Spitsbergen). Geol. Mag. 78, 405–28.Google Scholar
Flint, R. F. 1971. Glacial and Quaternary Geology. New York: Wiley.Google Scholar
Frakes, L. A. 1979. Climates throughout Geologic Time. Amsterdam: Elsevier.Google Scholar
Gayer, R. A. 1966. The geology of the Femmilsjøen region of north-west Ny Friesland, Spitsbergen. Skr. norsk Polarinst. 145.Google Scholar
Garwood, E. J. & Gregory, J. W. 1898. Contributions to the glacial geology of Spitsbergen, Q. Jl. geol. Soc. Lond. 54, 197225.Google Scholar
Golovanov, N. P. 1967. Stromatolites of Riphean age from the Murchisonfjorden region (Nordaustlandet). In Stratigraphy of Spitsbergen ed. Sokolov, V. N.) (translated by Francis, E. T. and G., Klener, 1977), (pp. 228). British Library, Lending Division, Boston Spa.Google Scholar
Graindor, M.-J. 1954. Note préliminaire sur la glaciation infra-cambrienne dans le massif Armoricain. Bull. Soc. géol. Fr. (6), 4, 1724.CrossRefGoogle Scholar
Hambrey, M. J. 1982. Late Precambrian diamictites of northeastern Svalbard. Geol. Mag. 119, 527–51.Google Scholar
Hambrey, M. J. & Harland, W. B. (eds) 1981(a). Earth's pre-Pleistocene Glacial Record. Cambridge: Cambridge University Press.Google Scholar
Hambrey, M. J. & Harland, W. B. 1981(b). The evolution of climates. In The Evolving Earth (ed. Cocks, L. R. M.), pp. 137–52. Cambridge: British Museum and Cambridge University Press.Google Scholar
Hambrey, M. J., Harland, W. B. & Waddams, P. 1981. Late Precambrian tillites of Svalbard (ElO).Google Scholar
Hambrey, M. J. & Waddams, P. 1981. Deformed stones of varied lithology in Late Precambrian tillites, western Spitsbergen. J. geol. Soc. 138, 445–53.Google Scholar
Harland, W. B. 1964(a). Evidence of Late Precambrian glaciation and its significance. In Problems of Palaeoclimatology, (ed. Nairn, A. E. M.), pp. 119–49 and 179–84. Wiley.Google Scholar
Harland, W. B. 1964(b). Critical evidence for a great Infra-Cambrian glaciation. Geol. Rundschau 54, 4561.CrossRefGoogle Scholar
Harland, W. B. 1969(a). Contribution of Spitsbergen to understanding of tectonic evolution of North Atlantic Region. In North Atlantic Geology and Continental Drift, (ed. M., Kay), pp. 817–51. Mem. Ass. Petrol. Geol. 12.Google Scholar
Harland, W. B. 1969(b). Fleur de Lys ‘Tilloid’. In North Atlantic Geology and Continental Drift (ed. M., Kay), pp. 234–5. Mem. Ass. Petrol. Geol. 12.Google Scholar
Harland, W. B. 1978. The Caledonides of Svalbard. In IGCP Project 27 ‘Appalachian Orogen of the North Atlantic Region’, Pap. Can. Geol. Surv. 78–13.Google Scholar
Harland, W. B. 1979. A reconsideration of Late Precambrian stratigraphy of Southern Spitsbergen. Polarforschung 48 (1/2), 4461.Google Scholar
Harland, W. B. 1981. Chronology of Earth's glacial and tectonic record. J. geol. Soc. 138, 197203.CrossRefGoogle Scholar
Harland, W. B. (In the Press, a). The Proterozoic glacial record. Wisconsin Proterozoic symposium volume. Mem. geol. Soc. Am.Google Scholar
Harland, W. B. (In the Press, b). Caledonide Spitsbergen. In The Caledonide Orogen - Scandinavia and Related Areas (ed. Gee, D. G. and Sturt, B. A.). IGCP Uppsala Caledonide Symposium, 08 1981. Chichester: Wiley.Google Scholar
Harland, W. B. & Bidgood, D. E. T. 1959. Palaeomagnetism in some Norwegian sparagmites and the Late Pre-Cambrian Ice Age. Nature Lond. 184, 1860.Google Scholar
Harland, W. B., Cutbill, J. L., Friend, P. F., Gobbett, D. J., Holliday, D. W., Maton, P. I., Parker, J. R. & Wallis, R. H. 1974. Billefjorden Fault Zone, Spitsbergen. Skr. norsk Polarinst. 161.Google Scholar
Harland, W. B., Cox, A., Llewellyn, P. G., Pickton, C. A. G., Smith, A. G. & Walters, R. 1982. A geologic Time Scale. Cambridge: Cambridge University Press.Google Scholar
Harland, W. B. & Gayer, R. A. 1972. The Arctic Caledonides and earlier oceans. Geol. Mag. 109, 289314.Google Scholar
Harland, W. B. & Herod, K. N. 1975. Glaciations through time. In Ice Ages: Ancient and Modern (ed. Wright, A. E. and F., Moseley). Geol. J. Spec. Issue 6, 189216. Liverpool: Seel House Press.Google Scholar
Harland, W. B., Herod, K. N. & Krinsley, D. H. 1966. The definition and identification of tills and tillites. Earth Sci. Rev. 2, 225–56.CrossRefGoogle Scholar
Harland, W. B., Horsfield, W. T., Manby, G. M. & Morris, A. P. 1979. An outline pre-Carboniferous stratigraphy of central western Spitsbergen. Skr. norsk. Polarinst. 167, 90177.Google Scholar
Harland, W. B. & Wilson, C. B. 1956. The Hecla Hoek succession in Ny Friesland, Spitsbergen: Geol. Mag. 103, 7097.CrossRefGoogle Scholar
Harland, W. B. & Wright, N. J. R. 1979. Alternative hypothesis for the pre-Carboniferous evolution of Svalbard. Skr. norsk Polarinst., 167, 90117.Google Scholar
Harris, A. L., Baldwin, C. T., Bradbury, H. J., Johnson, H. D. & Smith, R. A. 1978. Ensialic basin sedimentation: the Dalradian Super-group. In Crustal Evolution in Northwestern Britain and Adjacent Regions (ed. Bowes, D. R. and Leake, B. E.). Geol. J. Spec. Issue 10, 115138. Liverpool: Seel House Press.Google Scholar
Henriksen, N. 1981. The Charcot Land tillite of Scoresby Sund, East Greenland (F24).Google Scholar
Henriksen, N. & Higgins, A. K. 1976. East Greenland Caledonian Fold Belt. In Geology of Greenland (ed. A., Escher and Watt, W. S.), pp. 182246. Copenhagen: Grønlands Geologiske Undersøgelse.Google Scholar
Higgins, A. K. 1981. The Late Precambrian Tillite Group of the Kong Oscars Fjord and Kejser Franz Josefs Fjord region of East Greenland (F25).Google Scholar
Hjelle, A., Ohta, Y. & Winsnes, T. S. 1979. Hecla Hoek rocks of Oscar II Land and Prins Karls Forland, Svalbard. Skr. norsk Polarinst. 167, 145–69.Google Scholar
Holtedahl, O. 1922. A tillite-like conglomerate in the ‘Eocambrian’ sparagmite of southern Norway. Am. J. Sci. 5, 165–73.Google Scholar
Knoll, A. H. 1982. Microfossil-based biostratigraphy of the Precambrian Hecla Hoek sequence, Nordaustlandet, Svalbard. Geol. Mag. 119, 269–79.CrossRefGoogle Scholar
Kulling, O. 1930. Stratigraphic studies of the geology of North-east Greenland. Meddr. Grønland 74, 13, 317–40.Google Scholar
Kulling, O. 1934. Scientific results of the Swedish-Norwegian Arctic Expedition in the summer of 1931. Part XI ‘The Hecla Hoek Formation’ round Hinlopenstretet. Geogr. Annlr. 2, 161254.Google Scholar
Kulling, O. 1938. Notes on varved boulder-bearing mudstone in Eocambrian glacials in the mountains of northern Sweden. Geol. För. Stockh. Förh. 60, 392–6.Google Scholar
Kulling, O. 1951. Spår av Varangeristiden i Norbotton. Sver. geol. Unders. Ser. C. 503.Google Scholar
Kumpulainen, R. 1981. The Late Precambrian Lillfjället Formation in the southern Swedish Caledonides. (E15).Google Scholar
Major, H & Winsnes, T. S. 1955. Cambrian and Ordovician fossils from Sørkapp Land, Spitsbergen. Skr. norsk Polarinst. 106.Google Scholar
Morris, W. A. 1976. Transcurrent motion determined paleomagnetically in the northern Appalachians and Caledonides and the Acadian Orogeny. Can. J. Earth Sci. 13, 1236–43.Google Scholar
Nesbitt, H. W. & Young, G. M. 1982. Early Proterozoic climates and plate motions inferred from major element chemistry of lutites. Nature, Lond. 299, 715717.CrossRefGoogle Scholar
Phillips, W. E. A. & Friderichsen, J. D. 1981. The Late Precambrian Gåseland tillite, Scoresby Sund, East Greenland (F23).Google Scholar
Phillips, W. E. A., Taylor, W. E. G. & Murphy, T. 1976. A Caledonian plate tectonic model. J. Geol. Soc. 132, 579609.CrossRefGoogle Scholar
Poulsen, C. 1930. Contributions to the stratigraphy of the Cambro-Ordovician of East Greenland. Meddr. Grønland 74, 12, 297316.Google Scholar
Pringle, I. R. 1973. Rb-Sr age determinations on shales associated with the Varanger ice age. Geol. Mag. 109, 465–72.CrossRefGoogle Scholar
Rehmer, J. 1981. The Squantum tilloid Member of the Roxbury Conglomerate of Boston, Massachusetts (F19).Google Scholar
Reusch, H. 1891. Skuringsmaerker og moraenegrus eftervist i Finnmarken fra en periode meget aeldre end ‘isteden’. Norges geol. Unders. Aarbog. 1891, 7885.Google Scholar
Schermerhorn, L. J. G. 1974. Late Precambrian mixtites: glacial and/or nonglacial? Am. J. Sci. 274, 673824.Google Scholar
Schwab, F. L. 1981. Late Precambrian tillites of the Appalachians (F18).Google Scholar
Semikhatov, M. A. 1980. On the Upper Precambrian stromatolite standard of north Eurasia. Earth Sci. Rev. 16, 235–47.CrossRefGoogle Scholar
Smith, A. G., Hurley, A. M. & Briden, J. C. 1981. Phanerozoic Paleo-continental World Maps. Cambridge: Cambridge University Press.Google Scholar
Spencer, A. M. 1971. Late pre-Cambrian glaciation in Scotland. Mem. Geol. Soc. Lond. No. 6.Google Scholar
Spencer, A. M. 1975. Late Precambrian glaciation in the North Atlantic region. In Ice Ages: Ancient and Modern (ed. Wright, A. E. and F., Moseley). Geol. J. Spec. Issue 6, 217–40. Liverpool: Seel House Press.Google Scholar
Spencer, A. M. 1981. Late Precambrian Port Askaig tillite in Scotland (E18).Google Scholar
Strömberg, A. G. B. 1981. The Precambrian Sito tillite and the Vakkejokk breccia in the northern Swedish Caledonides (E13).Google Scholar
Swett, K. 1981(a). A probable sub-Cambrian glacial erosional surface in southern Labrador and eastern Quebec (F22).Google Scholar
Swett, K. 1981(b). Cambro-Ordovician strata in Ny Friesland, Spitsbergen and their palaeotectonic significance. Geol. Mag. 118, 225–50.Google Scholar
Thelander, T. 1981. Late Precambrian(?) Långmarkberg Formation in the central Swedish Caledonides (E14).Google Scholar
Treagus, J. E. 1981. The Lower Dalradian Kinlochlaggan Boulder Bed, central Scotland (E19).Google Scholar
Troelsen, J. C. 1956. The Cambrian of North Greenland and Ellesmere Island. In El sistema Cambrico, su palaegeografia y el problema de su base. 20 Congr. géol. int. México. Symp. 3 (1), 7190.Google Scholar
Trompette, R. 1982. Upper Proterozoic (1800–570 Ma) stratigraphy: a survey of lithostratigraphic, paleontological, radiochronological and magnetic correlations. Precamb. Res. 18, 2752.Google Scholar
Van der Voo, R. 1980. Reply concerning ‘A paleomagnetic pole position from the folded Upper Catskill red beds, and its tectonic implications’. Geology 8, 259–60.Google Scholar
Vidal, G. 1979. Late Precambrian acritarchs from the Eleonore Bay Group and Tillite Group in East Greenland. Rapp. Grønlands geol. Unders. 78, 119.Google Scholar
Vidal, G. 1981. Micropalaeontology and biostratigraphy of the Upper Proterozoic and Lower Cambrian sequence in East Finnmark, northern Norway. Norges geol. Unders. 362, 152.Google Scholar
Vidal, G. & Bylund, G. 1981(a). Micropalaeontology and palaeomagnetism of the tillite-bearing Proterozoic to Lower Palaeozoic sequences in Finnmark (northern Norway) (Appendix to paper by Edwards, M. B. & Føyn, S. 1981) (E12).Google Scholar
Vidal, G. & Bylund, G. 1981(b). Late Precambrian boulder beds in Visinsgö Beds, south Sweden (E17).Google Scholar
Waddams, P. 1983(a). Late Precambrian resedimented conglomerates from Bellsund, Spitsbergen. Geol. Mag. 120, 153–64.CrossRefGoogle Scholar
Waddams, P. 1983(b). The Late Precambrian succession in north-west Oscar II Land, Spitsbergen. Geol. Mag. 120, 223–42.Google Scholar
Wenk, E. 1961. On the crystalline basement and the basal part of the pre-Cambrian Eleonore Bay Group in the south-western part of Scoresby Sund. Meddr. Grønland 168 (1).Google Scholar
Williams, G. E. 1975. Late Precambrian glacial climate and the Earth's obliquity. Geol. Mag. 112, 441–65.Google Scholar
Wilson, C. B. & Harland, W. B. 1964. The Polarisbreen Series and other evidences of late Pre-Cambrian ice ages in Spitsbergen. Geol. Mag. 101, 198219.Google Scholar
Winterer, E. L. 1964. Late Precambrian pebbly mudstone in Normandy, France: tillite or tilloid? In Problems in Palaeoclimatology (ed. Nairn, A. E. M., pp. 159–78. London: Interscience.Google Scholar
Winsnes, T. S. 1955. A preliminary description of the Hecla Hoek rocks and its Cambrian and Ordovician faunas. In Cambrian and Ordovician Fossils from Sorkapp Land, Spitsbergen (ed. H., Major and Winsnes, T. W.). Skr. norsk Polarinst. 106, 3147.Google Scholar