SEARCH

SEARCH BY CITATION

References

  • Anderson, T.F. and Arthur, M.A. (1983) Stable isotopes of oxygen and carbon and their application to sedimentologic and paleoenvironmental problems. In: Stable Isotopes in Sedimentary Geology (Eds M.A. Arthur, T.F. Anderson, I.F. Kaplan, J. Veizer and L.S. Land), SEPM Short Course Notes, 10, 151.
  • Barczuk, A. (1974) Geneza konkrecji kalcytowych w szarogłazach kulmu Gór Bardzkich. Acta Geol. Pol., 24, 425436.
  • Bathurst, R.G.C. (1975) Carbonate sediments and their diagenesis (2nd ed.). Dev. Sedimentol.., 12, 658.
  • Bauersachs, T., Kremer, B., Schouten, S. and Sinninghe Damsté, J.S. (2009) A biomarker and δ15N study of thermally altered Silurian cyanobacterial mats. Org. Geochem., 40, 149157.
  • Bennett, R.H., O'Brien, N.R. and Hulbert, M.H. (1991) Determinants of clay and shale microfabric signatures: process and mechanisms. In: Microstructure of Fine-Grained Sediments (Eds R.H. Bennet, N.R. O'Brien and M.H. Hulbert), pp. 532. Springer, Berlin, Heidelberg, New York.
  • Blome, C.D. and Albert, N.R. (1985) Carbonate concretions: an ideal sedimentary host for microfossils. Geology, 13, 212215.
  • Bojanowski, M.J. and Clarkson, E.N.K. (2012) Origin of siderite concretions in microenvironments of methanogenesis developed in sulfate reduction zone: an exception or a rule? J. Sed. Res., 82, 585598.
  • Briggs, D.E.G., Raiswell, R., Bottrell, S.H., Hatfield, D. and Bartels, C. (1996) Controls on the pyritization of exceptionally preserved fossils. An analysis of the Lower Devonian Hunsrück Slate of Germany. Am. J. Sci., 296, 633663.
  • Burdige, D.J. (2006) Geochemistry of Marine Sediments. Princeton University Press, Princeton, 609 pp.
  • Calvo, R., Ayalon, A., Bein, A. and Sass, E. (2011) Chemical and isotopic composition of diagenetic carbonate cements and its relation to hydrocarbon accumulation in the Heletz-Kokhav oil field (Israel). J. Geochem. Explor., 108, 8898.
  • Campbell, K.A. (2006) Hydrocarbon seep and hydrothermal vent paleoenvironments and paleontology: Past developments and future research directions. Palaeogeogr. Palaeoclimatol. Palaeoecol., 232, 362407.
  • Coleman, M.L. and Raiswell, R. (1993) Microbial mineralization of organic matter: Mechanisms of self-organization and inferred rates of precipitation of diagenetic minerals. R. Soc. London Phil. Trans., 344A, 6987.
  • Collinson, J. (1994) Sedimentary deformational structures. In: The Geological Deformation of Sediments (Ed A. Maltman), pp. 95125. Chapman and Hall, London.
  • Curtis, C.D. and Coleman, M.L. (1986) Controls on the precipitation of early diagenetic calcite, dolomite and siderite concretions in complex depositional sequences. In: Roles of Organic Matter during Diagenesis (Ed. D.L. Gautier), SEPM Spec. Publ.., 38, 2333.
  • Dietrich, R.V. (1999) Carbonate Concretions: A Bibliography (published online 2005). Available at: http://condor.cmich.edu/cdm/singleitem/collection/p1610-01coll1/id/3165/rec/9263 (accessed 12 October 2012).
  • Dix, G.R. and Mullins, H.T. (1987) Shallow, subsurface growth and burial alteration of Middle Devonian calcite concretions. J. Sed. Petrol., 57, 140152.
  • Einsele, G. (2000) Sedimentary Basins. Springer, Berlin, Heidelberg, New York, 792 pp.
  • Engelder, T. and Lacazette, A. (1990) Natural hydraulic fracturing. In: Rock Joints. (Eds N. Barton and O. Stephansson), pp. 3544. Balkema, Rotterdam.
  • Froelich, P.N., Klinkhammer, G.P., Bender, M.L., Luedtke, N.A., Heath, G.R., Cullen, D., Dauphin, P., Hammond, D., Hartman, B. and Maynard, V. (1979) Early oxidation of organic matter in pelagic sediments of the eastern equatorial Atlantic: suboxic diagenesis. Geochim. Cosmochim. Acta, 43, 10751090.
  • Gautier, D.L. and Claypool, G.E. (1984) Interpretation of methanic diagenesis in ancient sediments by analogy with processes in modern diagenetic environments. In: Clastic Diagenesis (Eds D.A. McDonald and R.C. Surdam), AAPG Mem., 37, 111123.
  • Grafka, O. and Marynowski, L. (2011) Dojrzałość termiczna materii organicznej palozoicznych osadów drobnoziarnistych Gór Bardzkich - wyniki wstępne. Materiały konferencyjne VI Świętokrzyskich Spotkań Geologiczno-Geomorfologicznych “Rekonstrukcje środowisk depozycyjnych na podstawie badań sedymentologicznych, geochemicznych i stratygraficznych”, Ameliówka, 17-18 May 2011, pp. 3031.
  • Gretener, P. E. (1981) Pore pressure: fundamentals, general ramifications, and implications for structural geology (rev. ed.). AAPG Education Course Note Series, 4, 131.
  • Grossman, E.L., Yancey, T.E., Jones, T.E., Bruckschen, P., Chuvashov, B., Mazzullo, S.J. and Mii, Horng-sheng (2008) Glaciation, aridification, and carbon sequestration in the Permo-Carboniferous. The isotopic record from low latitudes. Palaeogeogr. Palaeoclimatol. Palaeoecol., 268, 222233.
  • Haydukiewicz, J. (1990) Stratigraphy of Paleozoic rocks of the Góry Bardzkie and some remarks on their sedimentation (Poland). N. Jb. Geol. Paläont. Abh., 179, 275284.
  • Haydukiewicz, J. (1998) Latest Devonian conodonts from an olistolith in the northern part of the Góry Bardzkie, West Sudetes. Geol. Sudet., 31, 6168.
  • Haydukiewicz, J. and Muszer, J. (2002) Offshore to onshore transition in the Upper Viséan palaeontological record from the Paprotnia section (Bardo Mts., West Sudetes). Geol. Sudet., 34, 1738.
  • Hennessy, J. and Knauth, P. (1985) Isotopic variations in dolomite concretions from the Monterey Formation, California. J. Sed. Petrol., 55, 120130.
  • Hoefs, J. (2009) Stable Isotope Geochemistry, 6th edn. Springer, Berlin, 288 pp.
  • Hudson, J.D. (1978) Concretions, isotopes, and the diagenetic history of the Oxford Clay (Jurassic) of central England. Sedimentology, 25, 339370.
  • Irwin, H., Curtis, C. and Coleman, M. (1977) Isotopic evidence for source of diagenetic carbonates formed during burial of organic-rich sediments. Nature, 269, 209213.
  • Klein, J.S., Mozley, P., Campbell, A. and Cole, R. (1999) Spatial distribution of carbon and oxygen isotopes in laterally extensive carbonate-cemented layers: Implications for mode of growth and subsurface identification. J. Sed. Res., 69, 184191.
  • Kremer, B. (2006) Mat-forming coccoid cyanobacteria from early Silurian marine deposits of Sudetes, Poland. Acta Palaeontol. Pol., 51, 143154.
  • Kremer, B. and Kaźmierczak, J. (2005) Cyanobacterial mats from Silurian black radiolarian cherts: phototrophic life at the edge of darkness? J. Sed. Res., 75, 897906.
  • Kryza, R., Muszer, J., August, C., Haydukiewicz, J. and Jurasik, M. (2008) Lower Carboniferous bentonites in the Bardo Structural Unit (central Sudetes): geological context, petrology and palaeotectonic setting. Geol. Sudet., 40, 1931.
  • Lawrence, J.R. and Gieskes, J. (1981) Constraints on water transport and alteration in the oceanic crust from isotopic composition of porewater. J. Geophys. Res., 86, 79247934.
  • Lorenz, J.C., Teufel, L.W. and Warpinsky, N.R. (1991) Regional fractures I: a mechanism for the formation of regional fractures at depth in flat-lying reservoirs. AAPG Bull., 75, 17141737.
  • McBride, E.F. (1988) Contrasting diagenetic histories of concretions and host rock, Lion Mountain Sandstone (Cambrian), Texas. Geol. Soc. Am. Bull., 100, 18031810.
  • McConaughy, D.T. and Engelder, T. (1999) Joint interaction with embedded concretions: joint loading configurations inferred from propagation paths. J. Struct. Geol., 21, 16371652.
  • Milodowski, A.E. and Zalasiewicz, J.A. (1991) Redistribution of rare earth elements during diagenesis of turbidite/hemipelagite mudrock sequences of Llandovery age from central Wales. In: Developments in Sedimentary Provenance Studies (Eds A.C. Morton, S.P. Todd and P.D.W. Haughton), Geol. Soc. London Spec. Publ., 57, 101124.
  • Morad, S. and Eshete, M. (1990) Petrology, chemistry and diagenesis of calcite concretions in Silurian shales from central Sweden. Sed. Geol., 66, 113134.
  • Morton, A.C. (1984) Stability of heavy detrital minerals in Tertiary sandstones from the north Sea basin. Clay Miner., 19, 287308.
  • Mozley, P.S. (1989) Complex compositional zonation in concretionary siderite: implications for geochemical studies. J. Sed. Petrol., 59, 815818.
  • Mozley, P.S. (1996) The internal structure of carbonate concretions: a critical evaluation of the concentric model of concretion growth. Sed. Geol., 103, 8591.
  • Mozley, P.S. and Burns, S.J. (1993) Oxygen and carbon isotopic composition of marine carbonate concretions: an overview. J. Sed. Petrol., 63, 7383.
  • Oberc, J. (1987) Pozycja formacji Opolnicy między Opolnicą a Morzyszowem. Przewodnik 58. Zjazdu PTG, Punkt D.9. Opolnica, pp. 216220.
  • Oberc, J., Badura, J., Przybylski, B. and Jamrozik, L. (1994) Szczegółowa Mapa Geologiczna Sudetów w skali 1:25 000 arkusz Bardo Śląskie. Wydawnictwo Kartograficzne Polskiej Agencji Ekologicznej S.A, Warszawa.
  • Peckmann, J. and Thiel, V. (2004) Carbon cycling at ancient methane-seeps. Chem. Geol., 205, 443467.
  • Pirrie, D. and Marshall, J.D. (1991) Field relationships and stable isotope geochemistry of concretions from James Ross Island, Antarctica. Sed. Geol., 71, 137150.
  • Raiswell, R. (1971) The growth of Cambrian and Liassic concretions. Sedimentology, 17, 147171.
  • Raiswell, R. (1982) Pyrite texture, isotopic composition and the availability of iron. Am. J. Sci., 282, 12441263.
  • Raiswell, R. (1987) Non-steady state microbiological diagenesis and the origin of concretions and nodular limestones. In: Diagenesis of Sedimentary Sequences (Ed. J.D. Marshall), Geol. Soc. London Spec. Publ., 36, 4154.
  • Raiswell, R. (1988) Chemical model for the origin of minor limestone-shale cycles by anaerobic methane oxidation. Geology, 16, 641644.
  • Raiswell, R. and Fisher, J. (2000) Mudrock-hosted carbonate concretions: a review of growth mechanisms and their influence on chemical and isotopic composition. J. Geol. Soc. London, 157, 239251.
  • Raiswell, R., Whaler, K., Dean, S., Coleman, M.L. and Briggs, D.E.G. (1993) A simple three-dimensional model of diffusion-with-precipitation applied to localised pyrite formation in framboids, fossils and detrital iron minerals. Mar. Geol., 113, 89100.
  • Saigal, G.C. and Bjørlykke, K. (1987) Carbonate cements in clastic reservoir rocks from offshore Norway – relationships between isotopic composition, textural development and burial depth. In: Diagenesis of Sedimentary Sequences (Ed. J.D. Marshall), Geol. Soc. London Spec. Publ., 36, 313324.
  • Scasso, R.A. and Kiessling, W. (2001) Diagenesis of Upper Jurassic concretions from the Antarctic Peninsula. J. Sed. Res., 71, 88100.
  • Scotchman, I.C. (1991) The geochemistry of concretions from the Kimmeridge Clay Formation of southern and eastern England. Sedimentology, 38, 79106.
  • Seilacher, A. (2001) Concretion morphologies reflecting diagenetic and epigenetic pathways. Sed. Geol., 143, 4157.
  • Sellés-Martínez, J. (1996) Concretion morphology, classification and genesis. Earth-Sci. Rev., 41, 177210.
  • Stow, D.A.V. and Piper, D.J.W. (1984) Deep-water fine-grained sediments: facies models. In: Fine-Grained Sediments: Deep-Water Processes and Facies (Eds D.A.V. Stow and D.J.W. Piper), Geol. Soc. London Spec. Publ., 15, 611646.
  • Veizer, J. (1983) Chemical diagenesis of carbonates: theory and application of trace element technique. In: Stable Isotopes in Sedimentary Geology (Eds M.A. Arthur, T.F. Anderson, I.R. Kaplan, J. Veizer and L.S. Land), SEPM Short Course Notes, 10, III-1III-100.
  • Wachter, E. and Hayes, J.M. (1985) Exchange of oxygen isotopes in carbon-dioxide – phosphoric acid systems. Chem. Geol., 52, 365374.
  • Wajsprych, B. (1995) The Bardo Mts rock complex: The Fammenian-Lower Carboniferous preflysch (platform) – to flysch (foreland) basin succession, the Sudetes. Guide to Excursion B2 of XIII International Congress on Carboniferous-Permian 28.08-02.09.1995, Kraków. Państwowy Instytut Geologiczny, Warszawa, pp. 2342.
  • Wetzel, A. (1987) Sedimentological significance of strain and sonic velocity anisotropy in fine-grained turbiditic and hemipelagic deep-sea sediments – an example from the Mississippi Fan. Mar. Geol., 74, 191207.
  • Wetzel, A. (1990) Interrelationships between porosity and other geotechnical properties of slowly deposited, fine-grained marine surface sediments. Mar. Geol., 92, 105113.
  • Wetzel, A. (1992) An apparent concretionary paradox. Zentralbl. Geol. Paläont. Teil I, 1991, 28232830.
  • Wheeler, A. J. and Stadnitskaia, A. (2011) Benthic deep-sea carbonates: reefs and seeps. In: Deep-Sea Sediments (Eds H. Hüneke and T. Mulder), Dev. Sedimentol.., 63, 397455.
  • Wyrwicki, R. (1996) Analiza derywatograficzna. In: Metodyka badań kopalin ilastych. (Eds H. Kościówko and R. Wyrwicki), pp. 5676. Państwowy Instytut Geologiczny, Warszawa.