sedimentology; magnetic susceptibility; sequences; carbonate platform; frasnian
Abstract :
[en] This paper: concerns the analysis of four outcrops in the Frasnian (Upper Devonian) of Belgium. We compare the results of a precise sedimentological analysis with magnetic susceptibility (MS) data. This comparison allows us to improve stratigraphic correlations and to test the relationship between magnetic susceptibility and sea level changes. Considering the sedimentological study, different microfacies have been identified, from the external belt dominated by relatively argillaceous open marine facies with crinoids, to the biostromal and the lagoonal belt dominated by algae-rich muddy facies. Fourth- and third-order sequences have also been identified and are probably related to sea level variations. Magnetic susceptibility data provides us very good fourth-order correlations and the link between magnetic susceptibility and different sedimentological parameters is obvious. More precisely, MS appears to be related to fourth- and third-order sequences and to microfacies. (c) 2006 Elsevier B.V. All rights reserved.
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Bibliography
Aitken J.D. Classification and environmental significance of cryptalgal limestone and dolomites, with illustration from the Cambrian and Ordovician of southwestern Alberta. Journal of Sedimentary Petrology 37 (1967) 1163-1178
Arai K., Sakai H., and Konishi K. High-resolution rock-magnetic variability in shallow marine sediment: a sensitive paleoclimatic metronome. Sedimentary Geology 110 (1997) 7-23
Blakemore R. Magnetotactic bacteria. Science 190 (1975) 377-379
Borradaile G.J. Magnetic susceptibility, petrofabric and strain. Tectonophysics 156 (1988) 1-20
Borradaile G.J., Chow N., and Werner T. Magnetic hysteresis of limestones: facies control?. Physics of the Earth and Planetary Interiors 76 (1993) 241-252
Boulvain F., Bultynck P., Coen M., Coen-Aubert M., Helsen S., Lacroix D., Laloux M., Casier J.G., Dejonghe L., Dumoulin V., Ghysel P., Godefroid J., Mouravieff N., Sartenaer P., Tourneur F., and Vanguestaine M. Les formations du Frasnien de la Belgique. Memoirs of the Geological Survey of Belgium 44 (1999) (125 pp.)
Boulvain F., Cornet P., da Silva A.C., Delaite G., Demany B., Humblet M., Renard M., and Coen-Aubert M. Reconstructing atoll-like mounds from the Frasnian of Belgium. Facies 50 (2004) 313-326
Brett C.E., and Baird G.C. Middle Devonian sedimentary cycles and sequences in the northern Appalachian Basin. Geological Society of America, Special Paper 306 (1996) 213-241
Burchette T.P. European Devonian reefs; a review of currents concepts and models. SEPM, Special Publication 30 (1981) 85-142
Chen D., Tucker M.E., Zhu J., and Jiang M. Carbonate sedimentation in a starved pull-apart basin, Middle to Late Devonian, southern Guilin, south China. Basin Research 13 (2001) 141-168
Chen D., Tucker M.E., Jiang M., and Zhu J. Long distance correlation between tectonic controlled, isolated carbonate platforms by cyclostratigraphy and sequence stratigraphy in the Devonian of south China. Sedimentology 48 (2001) 57-78
Cloetingh S. Intraplate stresses: a tectonic cause for third-order cycles in apparent sea level. In: Wilgus C.K., Hastings B.S., Kendall C.G.ST., Posamentier H.W., Ross C.A., and Van Wagoner J.C. (Eds). Sea Level Changes and Integrated Approach. SEPM, Special Publication vol. 42 (1988) 19-29
Copper P. Silurian and Devonian reefs: 80 million years of global greenhouse between two ice ages. SEPM, Special Publication, Phanerozoic Reef Patterns 72 (2002) 181-238
Cornet, P., 1975. Morphogenèse, caractères écologiques et distribution des stromatoporoïdes dévoniens au bord sud du bassin de Dinant (Belgique). Thèse inédite. Université Catholique de Louvain, Leuven.
Crick R.E., and Ellwood B.B. Magnetoscusceptibility event and cyclostratigraphy (MSEC). Subcommission on Devonian Stratigraphy, newsletter 14 (1997) 35-50
Crick R.E., Ellwood B.B., El Hassani A., Feist R., and Hladil J. Magnetosusceptibility event and cyclostratigraphy (MSEC) of the Eifelian-Givetian GSSP and associated boundary sequences in north Africa and Europe. Episodes 20 (1997) 167-175
Crick R.E., Ellwood B.B., El Hassani A., and Feist R. Proposed magnetostratigraphy susceptibility magnetostratotype for the Eifelian-Givetian GSSP (Anti-Atlas, Morocco). Episodes 23 (2000) 93-101
Crick R.E., Ellwood B.B., Hladil J., El Hassani A., Hrouda F., and Chlupac I. Magnetostratigraphy susceptibility of the Pridolian-Lochkovian (Silurian-Devonian) GSSP (Klonk, Czech Republic) and coeval sequence in Anti-Atlas Morocco. Palaeogeography, Palaeoclimatology, Palaeoecology 167 (2001) 73-100
Crick R.E., Ellwood B.B., Feist R., El Hassani A., Schindler E., Dreesen R., Over D.J., and Girard C. Magnetostratigraphy susceptibility of the Frasnian/Famennian boundary. Palaeogeography, Palaeoclimatology, Palaeoecology 181 (2002) 67-90
Curry W.B., Schneider D.A., and Party L.S. Ceara Rise sediments document ancient climate change. EOS 76 (1995) 40-45
da Silva, A.C., 2004. Sédimentologie de la plate-forme carbonatée frasnienne belge. Unpublished Thesis, Liege University, Belgium, p. 253.
da Silva A.C., and Boulvain F. Sedimentology, magnetic susceptibility and isotopes of a Middle Frasnian Carbonate platform: Tailfer section, Belgium. Facies 46 (2002) 89-102
da Silva A.C., and Boulvain F. From paleosols to carbonate mounds: facies and environments of Middle Frasnian carbonate platform in Belgium. Geological Quarterly 48 (2004) 253-266
Day J. Faunal signatures of Middle-Upper Devonian depositional sequences and sea level fluctuations in the Iowa Basin: US mid-continent. In: Witzke B.J., Ludvigson G.A., and Day J. (Eds). Paleozoic Sequence Stratigraphy, Views from the North American Craton. GSA Special Paper vol. 306 (1996) 277-300
Donovan D.T., and Jones E.J.W. Causes of world-wide changes in sea level. Journal of the Geological Society of London 136 (1979) 187-192
Dunham R.J. Classification of carbonate rocks according to depositional texture. In: Ham W.E. (Ed). Classification of Carbonate Rocks. American Association of Petroleum geologists, Memoir (1962) 108-121
Ellwood B.B., Crick R.E., and El Hassani A. Magnetosusceptibility event and cyclostratigraphy (MSEC) method used in geological correlation of Devonian rocks from Anti-Atlas Morocco. The American Association of Petroleum geologists, Bulletin 83 (1999) 1119-1134
Ellwood B.B., Crick R.E., El Hassani A., Benoist S.L., and Young R.H. Magnetosusceptibility event and cyclostratigraphy method applied to marine rocks: detrital input versus carbonate productivity. Geology 28 (2000) 1135-1138
Ellwood B.B., MacDonald W.D., Wheeler C., and Benoist S.L. The K-T boundary in Oman: identified using magnetic susceptibility field measurements with geochemical confirmation. Earth and Planetary Science Letters 206 (2003) 529-540
Elrick M. Cyclostratigraphy of Middle Devonian carbonates of the eastern great basin. Journal of Sedimentary Research B 65 (1995) 61-79
Elrick M. Sequence stratigraphy and platform evolution of Lower-Middle Devonian carbonates, eastern Great Basin. Geological Society of America, Bulletin 108 (1996) 392-416
Elrick M., and Read J.F. Cyclic ramp-to-basin carbonate deposits, Lower Mississippian Wyoming and Montana: a combined field and computer modeling study. Journal of Sedimentary Petrology 61 (1991) 1194-1224
Embry A.F., and Klovan J.E. Absolute water depth limits of Late Devonian paleoecological zones. Geologische Rundschau 61 (1972) 672-686
English L.T.P. The use of magnetic susceptibility and trace element geochemistry for the correlation of fine-grained siliciclastic sequences: a Late Llandovery example from northwest England. Geological Magazine 136 (1999) 423-436
Flügel E. Microfacies Analysis of Limestones (1982), Springer-Verlag, Berlin 633 pp.
Garland J., Tucker M.E., and Scrutton C.T. Microfacies analysis and metre-cyclicity in the Givetian back-reef sediments of south-east Devon. Read at the Annual Conference of the Ussher Society, January 1996 (1996) 31-36
George A.D., Chow N., and Trinajstic K.M. Integrated approach to platform-basin correlation and deciphering the evolution of Devonian reefs, northern Canning Basin, western Australia. Western Australian Basins Symposium: 3. Proceedings Petroleum Exploration Society of Australia (2002) 817-835
Ginsburg R.N. Landward movement of carbonate mud : new model for regressive cycles in carbonates (Abstract). The American Association of Petroleum geologists, Bulletin 55 (1971) 340
Goldhammer R.K., Lehmann P.J., and Dunn P.A. The origin of high-frequency platform carbonate cycles and third-order sequences (Lower Ordovician El Paso GP, West Texas): constraints from outcrop data and stratigraphy modelling. Journal of Sedimentary Petrology 63 (1993) 318-359
Gouwy S., and Bultynck P. Graphic correlation of Frasnian sections (Upper Devonian) in the Ardenns, Belgium. Bulletin de l'Institut Royal des Sciences Naturelles de Belgique 70 (2000) 25-52
Grover G.J., and Read J. Fenestral and associated vadose diagenetic fabrics of tidal flat carbonates, Middle Ordovician new market limestone, southwestern Virginia. Journal of Sedimentary Petrology 48 (1978) 453-473
Hardie L.A. Sedimentation on the Modern Carbonate Tidal Flats of Nothwest Andros Island, Bahamas (1977), The J. Hopkins University Press, Baltmores 202 pp.
James N.P. Reef environment in carbonate depositional environments. In: Scholle P.A., Bedout D.G., and Moore C.H. (Eds). Carbonate Depositional Environment. The American Association of Petroleum Geologist, Memoir, Tusla (1983) 345-440
James N.P. Shallowing-upward sequences in carbonates. In: Walker R.G. (Ed). Facies Models. 2nd edition. Geoscience Canada, Reprint Series vol. 1 (1984) 213-228
Johnson J.G., Klapper G., and Sandberg C.A. Devonian eustatic fluctuations in Euramerica. Geological Society of America, Bulletin 96 (1985) 567-587
Kershaw S. The application of stromatoporoid palaeobiology in palaeoenvironmental analysis. Palaeontology 41 (1998) 509-544
Kirschvink J.L., and Lowenstam H.A. Mineralization and magnetization of chiton teeth: paleomagnetic, sedimentologic, and biologic implications of organic magnetite. Earth and Planetary Science Letters 44 (1979) 193-204
Lean C.M.B., and McCave I.N. Glacial to interglacial mineral magnetic and palaeoceanographic changes at Catham Rise, SW Pacific Ocean. Earth and Planetary Science Letters 163 (1998) 247-260
Machel H.G., and Hunter I.G. Facies model for Middle to Late Devonian shallow-marine carbonates, with comparisons to modern reefs: a guide for facies analysis. Facies 30 (1994) 155-176
Mamet B.L. Sur les Umbellaceae. Canadian Journal of Earth Sciences 7 (1970) 1164-1171
May A. Paleoecology of Upper Eifelian and Lower Givetian coral limestones in the northwestern Sauerland (Devonian; Rhenish Massif). Facies 26 (1992) 103-116
McLean D.J., and Mountjoy E.W. Allocyclic control on Late Devonian buildup development, southern Canadian rocky mountains. Journal of Sedimentary Research B 64 (1994) 326-340
McNeill D.F., Ginsburg R.N., Chang S.B.R., and Kirschvink J.L. Magnetostratigraphic dating of shallow-water carbonates from San Salvador, Bahamas. Geology 16 (1988) 8-12
Méndez-Bedia I., Soto F.M., and Fernández-Martínez E. Devonian reef types in the Cantabrian mountains (NW Spain) and their faunal composition. Courier Forschungsinstitut Senckenberg 172 (1994) 161-183
Mörner N.A. Internal response to orbital forcing and external cyclic sedimentary sequences. In: De Boer P.L., and Smith D.G. (Eds). Orbital Forcing and Cyclic Sequences. Special Publication of the International Association of Sedimentologists (1994) 25-33
Osleger D. Subtidal carbonates cycles: implications for allocyclic vs. autocyclic controls. Geology 19 (1991) 917-920
Playford P.E. Palaeokarst, pseudokarst, and sequence stratigraphy in Devonian reef complexes of the Canning Basin, western Australia. In: Keep M., and Moss S.J. (Eds). The Sedimentary Basins of Western Australia: 3. Proceedings of Petroleum Exploration Society of Australia Symposium (2002) 763-793
Pohler S.M.L. Devonian carbonate buildup facies in an intra-oceanic island arc (Tamworth Belt, New South-Wales, Australia). Facies 39 (1998) 1-34
Purser, B.H., 1980. Sédimentation et diagenèse des carbonates néritiques récents. Tome1: Les éléments de la sédimentation et de la diagenèse, Ed. Technip, Paris. 367 pp.
Racki G. Evolution of the bank to reef complex in the Devonian of the Holy Cross mountains. Acta Palaeontologica Polonica 37 (1992) 87-182
Racki G., Racka M., Matyja H., and Devleeschouwer X. The Frasnian/Famennian boundary interval in the South Polish-Moravian shelf basins: integrated event-stratigraphical approach. Palaeogeography, Palaeoclimatology, Palaeoecology 181 (2002) 251-297
Robinson S.G. Lithostratigraphic applications for magnetic susceptibility logging of deep-sea sediment cores: examples from ODP Leg 115. In: Hailwood E.A., and Kidd R.B. (Eds). High Resolution Stratigraphy. Geological Society Special Publication (1993) 65-98
Roux A. Introduction à l'études des algues fossiles paléozoïques (de la bactérie à la tectonique des plaques). Bulletin des Centres de Recherches et d'Exploration-Production. Elf-Aquitaine 9 (1985) 465-699
Shen J.-W., and Zhang S.-L. A Late Devonian (Frasnian) coral-baffelstone reef at Houshan in Guilin, south China. Facies 37 (1997) 86-98
Stage M. Magnetic susceptibility as carrier of a climatic signal in chalk. Earth and Planetary Science Letters 188 (2001) 17-27
Stolz J.F., Chang S.B.R., and Kirschvink J.L. Magnetotactic bacteria and single-domain magnetite in hemipelagic sediments. Nature 321 (1986) 849-851
Strasser A. Shallowing-upward sequences in Purbeckian peritidal carbonates (lowermost Cretaceous, Swiss and French Jura Mountains). Sedimentology 35 (1988) 369-383
Tite M.S., and Linington R.E. Effect of climate on the magnetic susceptibility of soils. Nature 256 (1975) 565-566
Tucker M.E., Bradley D.C., Ver Straeten C.A., Harris A.G., Ebert J.R., and McCutcheon S.R. New U-Pb zircon ages and the duration and division of Devonian time. Earth and Planetary Science Letters 158 (1998) 175-186
Vail P.R., Mitchum Jr. R.M., and Thompson S. Seismic stratigraphy and global changes of sea level: Part 4. Global cycles of relative changes of sea level. In: Payton C.E. (Ed). Seismic Stratigraphy-Applications to Hydrocarbon Exploration. The American Association of Petroleum Geologist, Memoir (1977) 83-97
Walden J., Oldfield F., and Smith J. Environmental Magnetism: A Practical Guide. Technical Guide vol. 6 (1999), Quaternary Research Association, London 243 pp.
Weissenberger J.A.W. Frasnian reef and basinal strata of west central Alberta: a combined sedimentological and biostratigraphic analysis. Bulletin of Canadian Petroleum Geology 42 (1994) 1-25
Whalen M.T., and Day J.E. Magnetic susceptibility, biostratigraphy, and sequence stratigraphy: insights into Devonian carbonate platform development and basin infilling, western Alberta. American Association of Petroleum Geologists Annual Convention Abstracts vol. 14 (2005) A151
Whalen M.T., Eberli G.P., Van Buchem F.S.P., and Mountjoy E.W. Facies models and architecture of Upper Devonian carbonate platforms (Miette an Ancient wall), Alberta, Canada. In: Homewood P.W., and Eberli G.P. (Eds). Genetic Stratigraphy on the Exploration and the Production Scales. Case Studies from the Pennsylvanian of the Paradox Basin and the Upper Devonian of Alberta. Bulletin des Centres de Recherches et d'Exploration-Production. Elf-Aquitaine, Mémoire (2000) 139-178
Wilson J.L. Carbonate Facies in Geologic History (1975), Springer-Verlag, Berlin 473 pp.
Wood R. Palaeoecology of a Late Devonian back reef: Canning Basin, western Australia. Palaeontology 43 (2000) 671-703
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