The formation of micritic limestones and the development of limestone-marl alternations in the Silurian of Gotland, Sweden
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Baird, G. C. (1976): Coral encrusted concretions: a key to recognition of a ‘shale on shale’ erosion surface.—Lethaia9, 293–302, 9 Figs., Oslo
Bathurst, R. G. C. (1970): Problems of lithification in carbonate muds.—Geologist’s Association Proceedings81, 429–440, London
— (1975): Carbonate Sediments and their Diagenesis.—Developments in Sedimentology 2nd ed., 658p., 359 Figs., 24 Tables, Amsterdam (Elsevier)
Bathurst, R. G. C. (1980): Lithification of carbonate sediments. —Science Progress66, 451–471, 3 Figs., Oxford
— (1987): Diagenetically enhanced bedding in argillaceous platform limestones: stratified cementation and selective compaction.—Sedimentology34, 749–778, 28 Figs., 1 Table, Oxford
— (1991): Pressure-dissolution and limestone bedding: the influence of stratified cementation.—In:Einsele, G., Ricken, W. &Seilacher, A. (eds.): Cycles and Events in Stratigraphy. —450–463, 6 Figs., Berlin (Springer)
— (1993): Microfabrics in carbonate diagenesis: a critical look at forty years in research.—In:Rezak, R. &Lavoie, D. L. (eds.): Carbonate Microfabrics.—3–14, New York (Springer)
Beiersdorf, H. &Knitter, H. (1986): Diagenetic layering and lamination.—Mitteilungen aus dem Geologisch-Paläontologischen Institut der Universität Hamburg60, 267–273, 5 Figs., Hamburg
Byers, C. W. &Stasko, L. E. (1978): Trace fossils and sedimentologic interpretation-McGregor Member of Platteville Formation (Ordovician) of Wisconsin.—Journal of Sedimentary Petrology48, 1303–1309, 5 Figs., Tulsa
Canfield, D. E. &Raiswell, R. (1991): Carbonate precipitation and dissolution—its relevance to fossil preservation.—In:Allison, A. &Briggs, D. E. G. (eds.): Taphonomy—Releasing the Data Locked in the Fossil Record.—411–453, 11 Figs., 2 Tables, New York (Plenum Press)
Coniglio, M. &James, M. (1985): Calcified algae as sediment contributors to early Paleozoic limestones: evidence from deep-water sediments of the Cow Head Group, Western Newfoundland.—Journal of Sedimentary Petrology55/5, 746–754, 11 Figs., Tulsa
Dee, G. T. (1986): Patterns produced by precipitation at a moving reaction front.—Physical Review Letters57/3, 275–278, 4 Figs., 1 Table, New York
Dix, G. R. &Mullins, H. T. (1988): Rapid burial diagenesis of deep-water carbonates: Exuma Sound, Bahamas.—Geology16, 680–683, 3 Figs., Boulder
Dunham, R. J. (1962): Classification of carbonate rocks according to depositional texture.—American Association of Petroleum Geologists Memoir1, 108–121, 7 Pls., 1 Table, Tulsa
Ebhardt, G. (1968): Experimental compaction of carbonate sediments.—In:Müller, G. &Friedman, G. M. (eds.): Recent Developments in Carbonate Sedimentology.—58–65, 8 Figs., 1 Table, Berlin (Springer)
Eder, W. (1982): Diagenetic redistribution of carbonate, a process in forming limestone-marl alternations (Devonian and Carboniferous, Rheinisches Schiefergebirge, W. Germany). —In:Einsele, G. &Seilacher, A. (eds.): Cyclic and Event Stratification.—98–112, 12 Figs., Berlin (Springer)
Einsele, G. (1982a): General remarks about the nature, occurrence and recognition of cyclic sequences (periodites).—In:Einsele, G. &Seilacher, A. (eds.): Cyclic and Event Stratification. —3–7, 1 Fig., Berlin (Springer)
— (1982b): Limestone-marl cycles (periodites): diagnosis, significance, causes—a review.—In:Einsele, G. &Seilacher, A. (eds.): Cyclic and Event Stratification.—8–53, 14 Figs., 2 Tables, Berlin (Springer)
Einsele, G. &Ricken, W. (1991): Limestone-marl alternations—an overview.—In:Einsele, G., Ricken, W. &Seilacher, A. (eds.): Cycles and Events in Stratigraphy.—23–47, 10 Figs., 1 Table, Berlin (Springer)
Einsele, G., Ricken, W. &Seilacher, A. (1991): Cycles and events in stratigraphy—basic concepts and terms.—In:Einsele, G., Ricken, W. &Seilacher, A. (eds.): Cycles and Events in Stratigraphy.—1–19, 8 Figs. Berlin (Springer)
Enos, P. &Sawatsky, L. H. (1981): Pore networks in Holocene carbonate sediments.—Journal of Sedimentary Petrology51(3), 961–985, 20 Figs., 4 Tables, Tulsa
Fischer, A. G., Honjo, S. &Garrison, R. E. (1967): Electron Micrographs of Limestones and their Nannofossils, 141 p. 94 Figs., Princeton (Univ. Press)
Flügel, E. (1967): Elektronenmikroskopische Untersuchungen an mikritischen Kalken.—Geologische Rundschau56, 341–358, 2 Pls., 2 Figs., 1 Table, Stuttgart
Folk, R. L. (1959): Practical petrographic classification of limestones.—American Association of Petroleum Geologists Bulletin43/1, 1–38, 41 Figs., 2 Tables, Tulsa
Folk, R. L. (1965): Some aspects of recrystallization in ancient limestones. —In:Pray, L.C. & Murray, R.C. (eds.): Dolomitization and limestone diagenesis.—SEPM Special Publication13, 14–48, 14 Figs., 7 Tables, Tulsa
— (1974): The natural history of crystalline calcium carbonate: effect of magnesium content and salinity.—Journal of Sedimentary Petrology44/1, 40–53, 9 Figs., 1 Table, Tulsa
Friedman, G. M. (1964): Early diagenesis and lithification in carbonate sediments.—Journal of Sedimentary Petrology34/4, 777–813, 53 Figs., Tulsa
— (1975): The making and unmaking of limestones or the downs and ups of porosity.—Journal of Sedimentary Petrology45/2, 379–398, 22 Figs., 1 Table, Tulsa
Frykman, P. (1989): Carbonate ramp facies of the Klinteberg Formation, Wenlock-Ludlow transition on Gotland, Sweden. —Sveriges Geologiska Undersökning Serie C820, 1–79, Stockholm
Gartner, S. (1977): Nannofossils and biostratigraphy: an overview. —Earth-Science Reviews13, 227–250, 3 Figs., Amsterdam
Ginsburg, R. N. (1957): Early diagenesis and lithification of shallow-water carbonate sediments in South Florida.—SEPM Special Publication13, 80–99, 18 Figs., Tulsa
Gründel, J. &Rösler, H. J. (1963): Zur Entstehung der oberdevonischen Kalkknollengesteine Thüringens.—Geologie12, 1009–1038, 23 Figs., 5 Tables, Berlin
Hallam, A. (1964): Origin of the limestone-shale rhythm in the Blue Lias of England: a composite theory.—Journal of Geology72, 157–169, 6 Figs., 1 Table, Chicago
— (1986): Origin of minor limestone-shale cycles: climatically induced or diagenetic?—Geology14, 609–612, 4 Figs., Boulder
Halley, R. B. (1987): Burial diagenesis of carbonate rocks.— Colorado School of Mines Quarterly82, 1–15, 16 Figs., Golden
Harland, B., Armstrong, L. L., Cox, A. V., Craig, L. E., Smith, A. G. &Smith, D. G. (1990): A geologic time scale.—263p., Cambridge (Univ. Press)
Hede, J. E. (1921): Gottlands Silurstratigrafi.—Sveriges Geologiska Undersökning Serie C305, 1–100, 12 Figs., Stockholm
Hede, J. E. (1960): The Silurian of Gotland.—In:Regnéll, G. & Hede, J. E. (eds.): The Lower Paleozoic of Scania.—44–87, 2 Figs., International Geological Congress, Guide to excursions A22 and C17
Henningsmoen, G. (1974): A comment. Origin of limestone nodules in the Lower Palaeozoic of the Oslo Region.—Norsk Geologisk Tidsskrift54, 401–412, 3 Figs., Oslo
Honjo, S. (1969): Study of fine grained carbonate matrix: sedimentation and diagenesis of ‘micrite’.—Paleontological Society of Japan Special Paper14, 67–82, 2 Tables, Tokyo
Illies, H. (1949): Über die erdgeschichtliche Bedeutung der Konkretionen.—Zeitschrift der Deutschen Geologischen Gesellschaft101, 95–98, Hannover
Jacob, K. H., Dietrich, S. &Krug, H.-J. (1994): Self-organization of mineral fabrics.—In:Kruhl, J. H. (ed.): Fractals and Dynamic Systems in Geoscience.—259–268, 6 Figs., Berlin (Springer)
Jeppsson, L., Viira, V. &Männik, P. (1994): Silurian conodont-based correlations between Gotland (Sweden) and Saaremaa (Estonia).—Geological Magazine131/2, 201–218, 5 Figs., London
Jones, B., Oldershaw, A. E. &Narbonne, G. M. (1979): Nature and origin of rubbly limestone in the Upper Silurian Read Bay Formation of Arctic Canada.—Sedimentary Geology24, 227–252, 1 Pl., 12 Figs., 1 Table, Amsterdam
Kennedy, W. J. &Klinger, W. J. (1972): Hiatus concretions and hardgrounds horizons in the Cretaceous of Zululand (South Africa).—Palaeontology15/4, 539–549, 3 Pls., 3 Figs.
Kent, E. (1936): The formation of the hydraulic limestones of the Lower Lias.—Geological Magazine73, 476–478, 2 Figs., London
Lasemi, Z. &Sandberg, P. A. (1983): Recognition of original mineralogy in micrites (abstract).—American Association of Petroleum Geologists Bulletin67, 499–500, Tulsa
— & — (1984): Transformation of aragonite-dominated lime muds to microcrystalline limestones.—Geology12, 420–423, 1 Fig., Boulder
Lasemi, Z. &Sandberg, P. A. (1993): Microfabric and compositional clues to dominant mud mineralogy of micrite precursors.—In:Rezak, R. &Lavoie, D. L. (eds.) Carbonate Microfabrics.—173–185, 6 Figs., 2 Tables, New York (Springer)
Lasemi, Z., Sandberg, P. A. &Boardman, M. R. (1990): New microtextural criterion for differentiation of compaction and early cementation in fine-grained limestones.—Geology18, 370–373, 2 Figs., Boulder
Laufeld, S. &Bassett, M. G. (1981): Gotland: the anatomy of a Silurian carbonate platform.—Episodes2, 23–27, 10 Figs., Ottawa
Laufeld, S. &Jeppsson, L. (1976): Silification and bentonites in the Silurian of Gotland.—Geologiska Föreningens i Stockholm Förhandlingar98, 31–44, 4 Figs., Stockholm
Lindström, M. (1979): Diagenesis of Lower Ordovician hardgrounds in Sweden.—Geologica et Palaeontologica13, 9–30, 3 Pls., 5 Figs., Marburg
Martinsson, A. (1967): The succession and correlation of ostracode faunas in the Silurian of Gotland.—Geologiska Föreningens i Stockholm Förhandlingar89, 350–386, 2 Figs., Stockholm
Möller, N.K. &Kvingan, K. (1988): The genesis of nodular limestones in the Ordovician and Silurian of the Oslo Region. —Sedimentology35, 405–420, 8 Figs., 1 Table, Oxford
Moshier, S. O. (1989): Microporosity in micritic limestones: a review.—Sedimentary Geology63, 191–213, 15 Figs., Amsterdam
Munnecke, A. & Servais, T.: Scanning electron microscopy of polished, slightly etched rock surfaces: a method to observe palynomorphsin situ.—5 Pls., 3 Figs., submitted to Palynology, Dallas
Noble, J. A. &Howells, K. D. M. (1974): Early marine lithification of the nodular limestones in the Silurian of New Brunswick. —Sedimentology21, 597–609, 5 Figs., 1 Table, Oxford
Ortoleva, P. (1994): Geochemical Self-Organization.—Oxford Monographs on Geology and Geophysics23, 411 p., 205 Figs., Oxford
Ortoleva, P., Dewers, T. &Sauer, B. (1993): Modeling diagenetic bedding, stylolites, concretions and other mechanochemical structures.—In:Rezak, R. &Lavoie, D. L. (eds.): Carbonate Microfabrics.—291–300, 6 Figs., New York (Springer)
Pray, L. C. (1960): Compaction in calcilutites (abstract).— Bulletin of the Geological Society of America71, 1946, Boulder
Raiswell, R. (1987): Non-steady state microbiological diagenesis and the origin of concretions and nodular limestones.—In:Marshall, J. D. (ed): Diagenesis of Sedimentary Sequences. —Geological Society Special Publication36, 41–54, 6 Figs., London
— (1988a): Chemical model for the origin of limestone-shale cycles by anaerobic methane oxidation.—Geology16, 641–644, 2 Figs., 1 Table, Boulder
— (1988b): Evidence for surface reaction-controlled growth of carbonate concretions in shales.—Sedimentology35, 571–575, 2 Figs., Oxford
Ricken, W. (1986): Diagenetic bedding—a model for marllimestone alternations.—Lecture Notes in Earth Sciences6, 1–210, 94 Figs., 19 Tables, Berlin
— (1992): A volume and mass approach to carbonate diagenesis: the role of compaction and cementation.—In:Wolf, K. H. &Chilingarian, G. V. (eds.): Diagenesis, III.—291–316, 10 Figs., Amsterdam (Elsevier)
Ricken, W. &Eder, W. (1991): Diagenetic modification of calcareous beds—an overview.—In:Einsele, G., Ricken, W. &Seilacher, A. (eds.): Cycles and Events in Stratigraphy.— 430–449, 11 Figs., Berlin (Springer)
Sandberg, P. A. (1983): An oscillating trend in Phanerozoic non-skeletal carbonate mineralogy.—Nature305/1, 19–22, 6 Figs., London
Scholle, A. & Halley, R. B. (1985): Burial diagenesis: out of sight, out of mind!—In:Schneiderman, N. & Harris, M. (eds.): Carbonate Cements.—SEPM Special Publication36, 309–334, 11 Figs., Tulsa
Seibold, E. (1952): Chemische Untersuchungen zur Bankung im unteren Malm Schwabens.—Neues Jahrbuch Geologie und Paläontologie Abhandlungen95/3, 337–370, 11 Figs., 2 Tables, Stuttgart
— (1962): Kalk-Konkretionen und karbonatisch gebundenes Magnesium.—Geochimica et Cosmochimica Acta26, 899–909, 8 Figs., 1 Table, London
Shinn, E. A., Halley, R. B., Hudson, J. H. &Lidz, B. H. (1977): Limestone compaction: an enigna.—Geology5, 21–24, 5 Figs., Boulder
Sorby, H. C. (1879): The structure and origin of limestones. Anniversary address of the President.—Quarterly Journal of the Geological Society of London35, 56–95, 11 Figs., 2 Tables, London
Stehli, F. G. &Hower, J. (1961): Mineralogy and early diagenesis of carbonate sediments.—Journal of Sedimentary Petrology31/3, 358–371, 11 Figs., 4 Tables, Tulsa
Steinen, R. (1978): On the diagenesis of lime mud: scanning electron microscopic observations of subsurface material from Barbados, W.I.—Journal of Sedimentary Petrology48/4, 1139–1148, 7 Figs., Tulsa
Steinen, R. (1982): SEM observations on the replacement of Bahaman aragonitic mud by calcite.—Geology10, 471–475, 3 Figs., Boulder
Sujkowski, Z. L. (1958): Diagenesis.—American Association of Petroleum Geologists Bulletin42/11, 2692–2717, 1 Table, Tulsa
Sundquist, B. (1982): Wackestone petrography and bipolar orientation of cephalopods as indicators of littoral sedimentation in the Ludlovian of Gotland.—Geologiska Föreningens i Stockholm Förhandlingar104, 81–90, 6 Figs., 1 Table, Stockholm
Tappan, H. &Loeblich, A. R. Jr. (1973): Evolution of the oceanic plankton.—Earth-Science Reviews9, 207–240, 9 Figs., Amsterdam
Terzaghi, R. D. (1940): Compaction of lime mud as a cause of secundary structure.—Journal of Sedimentary Petrology10/2, 78–90, 5 Figs., 2 Tables, Tulsa
Towe, K. M. &Hemleben, C. (1976): Diagenesis of magnesian calcite: evidence from miliolacean foraminifera.—Geology4, 337–339, 1 Fig., Boulder
Voigt, E. (1968): Über Hiatus-Konkretionen (dargestellt an Beispielen aus dem Lias).—Geologische Rundschau58, 281–296, 8 Figs., Stuttgart
Walter, L. M. (1985): Relative reactivity of skeletal carbonates during dissolution: implications for diagenesis.—In:Schneidermann, N. & Harris, M. (eds.): Carbonate Cements. —SEPM Special Publication36, 3–16, 6 Figs., 5 Tables, Tulsa
Walther, M. (1982): A contribution to the origin of limestoneshale sequences.—In:Einsele, G. &Seilacher, A. (eds.): Cyclic and Event Stratification.—113–120, 2 Figs., Berlin (Springer)
Walther, M. (1983): Diagenese gebankter Karbonate im Unter-Karbon Nordwest-Irlands.—76p., 12 Pls., 28 Figs., 13 Tables, Doctoral Dissertation Universität Göttingen, Göttingen
Watts, N. R. (1981): Sedimentology and diagenesis of the Högklint reefs and their associated sediments, Lower Silurian, Gotland, Sweden.—407p., Doctoral Dissertation University Cardiff (Wales) Cardiff
Weber, P. (1969): Bildung und Regelung von Kalkknollengefügen im Oberdevon des Rheinischen Schiefergebirges.—Fortschritte in der Geologie von Rheinland und Westfalen17, 81–94, 7 Figs., Krefeld
Weller, J. M. (1959): Compaction of sediments.—American Association of Petroleum Geologists Bulletin43/2, 273–311, 16 Figs., 1 Table, Tulsa
Wepfer, E. (1926): Die Auslaugungs-Diagenese, ihre Wirkung auf Gestein und Fossilinhalt.—Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, Beilagen-Band, Abteilung B, Geologie und PaläontologieLIV, 17–94, 9 Figs., Stuttgart
Winland, H. D. (1968): The role of high Mg calcite in the preservation of micrite envelopes and textural features of aragonite sediments.—Journal of Sedimentary Petrology38/4, 1320–1325, 7 Figs., Tulsa