The isolated Wuchiapingian (Zechstein) Wielichowo Reef and its sedimentary and diagenetic evolution, SW Poland

Fheed, A.; Świerczewska, A. T.; Krzyżak, A.T.

doi:10.7306/gq.1266

Artykuł - szczegóły

Tytuł artykułu

The isolated Wuchiapingian (Zechstein) Wielichowo Reef and its sedimentary and diagenetic evolution, SW Poland

Autorzy

Fheed A. , Świerczewska A. T. , Krzyżak A.T.

Treść / Zawartość

Pełne teksty:

Fheed_A_The isolated_Geol. Quart._Vol.59_No 4_2015.pdf

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Identyfikatory

DOI

10.7306/gq.1266

Warianty tytułu

Języki publikacji

Abstrakty

The development of a relatively small and isolated part of the Wuchiapingian, Zechstein Wielichowo Reef was possible owing to a progressive subsidence and frequent sea level fluctuations. Three biofacies were distinguished within the studied object: (1) a shallow-water and highly energetic Acanthocladia biofacies, dominated by bryozoans and crinoids, with poorly preserved porosity, reduced mainly by calcite cementation and compaction; (2) the Horridonia biofacies comprising numerous brachiopods, preferring a moderate depth of water, with comparably poor porosity; and (3) the Fenestella/Kingopora biofacies rich in fossils of the highest variability, related to the deepest and calmest waters, occurring on the top of the profile and showing a significant effective porosity, reaching almost 13%. Among many diagenetic processes altering the reef, several lines of evidence suggest that it was the meteoric diagenesis to enhance its porosity the most extensively. Since no stromatolites are present, the final sea level decrease is interpreted to be rapid, hence creating conditions favourable for the meteoric dissolution. Some intraparticle porosity, however, seems to be of a depositional origin.

Słowa kluczowe

reef microfacies diagenesis porosity Zechstein Limestone Wolsztyn Ridge

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Geological Quarterly

Rocznik

2015

Tom

Vol. 59, No. 4

Strony

762--780

Opis fizyczny

Bibliogr. 56 poz., rys., wykr.

Twórcy

autor

Fheed A.

adam.fheed@gmail.com

AGH University of Science and Technology, Faculty of Geology, Geophysics and Environmental Protection, Department of Fossil Fuels, al. A. Mickiewicza 30, 30-059 Kraków, Poland

autor

Świerczewska A. T.

AGH University of Science and Technology, Faculty of Geology, Geophysics and Environmental Protection, Department of Fossil Fuels, al. A. Mickiewicza 30, 30-059 Kraków, Poland

autor

Krzyżak A.T.

AGH University of Science and Technology, Faculty of Geology, Geophysics and Environmental Protection, Department of Fossil Fuels, al. A. Mickiewicza 30, 30-059 Kraków, Poland

Bibliografia

1. Ahr, W.M., 2008. Geology of Carbonate Reservoirs. The Identification, Description and Characterization of Hydrocarbon Reservoirs in Carbonate Rocks. John Wiley & Sons, Inc. Publication, Hoboken.
2. Akkurt, R., Bachman, H.N., Minh, C.C., Flaum, C., LaVigne, J., Leveridge, R., Carmona, R., Crary, S., Decoster, E., Heaton, N., Hürlimann, M.D., Looyestijn, W.J., Mardon, D., White, J., 2009. Nuclear magnetic resonance comes out of its shell. Oil- field Review, Schlumberger, 20.
3. Ali, A.S., Clark, W.J., Dribus, J.R., 2010. Diagenesis and reservoir quality. Oilfield Review, Schlumberger, 22: 14-27.
4. Biernacka, J., Borysiuk, K., Raczyński, P., 2005. Zechstein (Ca1) limestone-marl alternations from the North-Sudetic Basin, Poland: depositional or diagenetic rhythms? Geological Quarterly, 49 (1): 1-14.
5. Catuneanu, O., 2006. Principles of Sequence Stratigraphy. Elsevier Science.
6. Choquette, P.W., Pray, L.C., 1970. Geological nomenclature and classification of porosity in sedimentary carbonates. AAPG Bulletin, 54: 207-250.
7. Coates, G.R., Lizhi, X., Manfred, G.P., 1999. NMR Logging Principles and Applications. Halliburton Energy Services, USA.
8. Dunham, R.J., 1962. Classification of carbonate rocks according to depositional texture. AAPG Memoir, 1: 108-121.
9. Dyjaczyński, K., Peryt, T.M., 2014. Controls on basal Zechstein (Wuchiapingian) evaporite deposition in SW Poland. Geological Quarterly, 58 (3): 485-502.
10. Dyjaczyński, K., Mamczur, S., Radecki, S., 1997. New perspectives for gas deposits' prospection within the Zechstein Limestone strata, Foresudetic Monocline (in Polish with English summary). Przegląd Geologiczny, 45: 1248-1256.
11. Dyjaczyński, K., Górski, M., Mamczur, S., Peryt, T.M., 2001. Reefs in the basinal facies of the Zechstein Limestone (upper Permian) of western Po l and: a new gas play. Journal of Petroleum Geology, 24: 265z-285.
12. Evamy, B.D., 1963. The application of a chemical staining technique to a study of dedolomitisation. Sedimentology, 2: 164-170.
13. Flügel, E., 2010. Microfacies of Carbonate Rocks. Analysis, Interpretation and Application: 267-338. Springer, Berlin.
14. Folk, R.L., 1965. Some aspects of recrystallization in ancient limestones. SEPM Special Publication, 13: 14-48.
15. Folk, R.L., Siedlecka, A., 1974. The “schizohaline” environment: its sedimentary and diagenetic fabrics as exemplified by Late Paleozoic rocks of Bear Island. Svalbad. Sedimentary Geology, 11: 1-15.
16. Fossen, H., 2010. Structural Geology. Cambridge University Press, Cambridge.
17. Frykman, P., Stentoft, N., Rasmussen, K.L., Christensen, O.W., Andersen, P.V., Jacobsen, F.L., 1990. Diagenesis and porous system in Danlsh Zechstein carbonate reservoirs. Geological Survey of Denmark Thoravej, 31: 1-107.
18. Gast, R.E., 1988. Rifting im Rotliegenden Niedersachsens. Geowissenschaften, 4: 115-122.
19. Hara, U., Słowakiewicz, M., Raczyñski, P., 2013. Bryozoans (trepostomes and fenestellids) in the Zechstein Limestone (Wuchiapingian) of the North Sudetic Basin (SW Poland): palaeoecological implications. Geological Quarterly, 57 (3): 417-432.
20. Harris, P.M., Kendall, C.G.St.C., Lerche, I., 1985. Carbonate cementation - a brief review. SEPM Spe cial Pub li cation, 36: 79-95.
21. Heydari, E., Moore, C.H., 2006. Zonation and geo chemical patterns of burial calcite cements; upper Smackover Formation, Clarke County, Mississippi. Journal of Sedimentary Research, 63: 44-60.
22. Jasionowski, M., Peryt, T.M., Durakiewicz, T., 2014. Polyphase dolomitisation of the Wuchiapingian Zechstein Limestone (Ca1) isolated reefs (Wolsztyn Palaeo-Ridge, Fore-Sudetic Monocline, SW Poland). Geological Quarterly, 58 (3): 503-520.
23. Karnkowski, P.H., 1999. Origin and evolution of the Polish Rotliegend Basin. Polish Geological Institute Special Papers, 3.
24. Kendall, A.C., 2010. Marine evaporites. Geol. Assoc., GeoText, 6: 503-537. Canada.
25. Kiersnowski, H., Paul, J., Peryt, T.M., Smith, D.B., 1995. Facies, paleogeography, and sedimentary history of the Southern Permian Basin in Europe. The Permian of Northern Pangea, 2: 119-136. Springer, Berlin.
26. Kiersnowski, H., Peryt, T.M., Buniak, A., Mikołajewski, Z., 2010. From the intra-desert ridges to the marine carbonate is i and chain: middle to late Permian (Upper Rotliegend-Lower Zechstein) of the Wolsztyn-Pogorzela high, west Poland. Geological Journal, 44: 319-335.
27. Kotarba, M.J., Peryt, T.M., Kosakowski, P., Więcław, D., 2006. Organic geochemistry, depositional history and hydrocarbon generation modelling of the Upper Permian Kupferschiefer and Zechstein Limestone strata in south-west Poland. Marine and Petroleum Geology, 23: 371-386.
28. Mazzullo, S.J., 2004. Overview of porosity evolution in carbonate reservoirs. Kansas Geological Society Bulletin, 79: 22-27.
29. Melim, L.A., Westphal, H., Swart, P.K., Eberli, G.P., Munnecke, A., 2002. Questioning carbonate diagenetic paradigms: evidence from the Neogene of the Bahamas. Marine Geology, 185: 27-53.
30. Mikołajewski, Z., Buniak, A., Chmielowiec-Stawska, A., 2009. Reservoir properties of reef sediments of the Zechstein Limestone (Ca1) at the example of the Brońsko gas field (in Polish). Przegląd Geologiczny, 57: 309-310.
31. Moore, C.H., 1989. Carbonate Diagenesis and Porosity. Developments in Sedimentology, 46. Elsevier Science, Amsterdam.
32. Moore, C.H., 2001. Carbonate Reservoirs. Porosity Evolution and Diagenesis in a Sequence Stratigraphic Framework. Developments in Sedimentology, 55. Elsevier Science, Amsterdam.
33. Paul, J., 1980. Upper Permian algal stromatolite reefs, Harz Mountains (F.R. Germany). Contributions to Sedimentology, 9: 253-268.
34. Peryt, D., Peryt, T.M., Raczyński, P., Chłódek, K., 2012. Foraminiferal colonization related to the Zechstein (Lopingian) transgression in the western part of the Wolsztyn Palaeo-Ridge area, Western Poland. Geological Quarterly, 56 (3): 529-546.
35. Peryt, T.M., 1981. Former aragonitic submarine hemispheroids associated with vadose deposits, Zechstein Limestone (Upper Permian), Fore-Sudetic area, western Poland. Neues Jahrbuch für Geologie und Paläontologie Monatshefte, 9: 559-570.
36. Peryt, T.M., 1984. Sedimentation and early diagenesis of the Zechstein Limestone in Western Poland (in Polish with English summary). Prace Instytutu Geologicznego, 109: 1-80.
37. Peryt, T.M., 2010. Zechstein 1-3 evaporites of the Gorzów Block (NW Poland) (in Polish with English summary). Przegląd Geologiczny, 58: 689-694.
38. Peryt, T.M., Peryt, D., 2012. Geochemical and foraminiferal records of environmental changes during Zechstein Limestone (Lopingian) deposition in Northern Poland, Geological Quarterly, 56 (1): 187-198.
39. Peryt, T.M., Wagner, R., 1998. Zechstein evaporite deposition in the Central European Basin: cycles and stratigraphic sequences. Journal of Seismic Exploration, 7: 201-218.
40. Peryt, T.M., Ważny, H., 1980. Microfacies and geochemical development of the basin facies of the Zechstein Limestone (Ca1) in western Poland. Contributions to Sedimentology, 9: 279-306.
41. Peryt, T.M., Raczyński, P., Peryt, D., Chłódek, K., 2012a. Upper Permian reef complex in the basinal facies of the Zechstein Limestone (Ca1), western Poland. Geological Journal, 47: 5375-52.
42. Peryt, T.M., Durakiewicz, T., Kotarba, M.J., Oszczepalski, S., Peryt, D., 2012b. Carbon isotope stratigraphy of the basal Zechstein (Lopingian) strata in Northern Poland. Geological Quarterly, 56 (2): 285-298.
43. Peryt, T.M., Hałas, S., Peryt, D., 2015. Carbon and oxygen isotopic composition and foraminifers of condensed basal Zechstein (Upper Permian) strata in western Poland: environmental and stratigraphic implications. Geological Journal, 50: 446-464.
44. Pharaoh, T.C., Dusar, M., Geluk, M., Kockel, F., Krawczyk, C., Krzywiec, P., Scheck -Wenderoth, M., Thybo, H., Vejbaek, O., Wees, J.-D., van, 2010. Tectonic evolution. In: Petroleum Geological Atlas of the Southern Permian Basin Area (eds. J.C. Doornenbal and A.G. Stevenson): 25-58. EAGE Publications b.v., Houten.
45. Pikulski, L., Wolnowski, T., 2005. Geological analysis of the Zechstein Limestone formations (Ca1) in Western Poland. AAPG Search and Discovery. AaPg/EAGE International Research Conference, El Paso, Texas, October 1-5.
46. Raczyński, P., 2000. Associations of organisms in the Zechstein Limestone (Ca1) reef complex on the Wolsztyn Ridge (in Polish). Przegląd Geologiczny, 48: 469-470.
47. Reijers, T.J.A., 2012. Sedimentology and diagenesis as ‘hydrocarbon exploration tools' in the Late Permlan Zechstein-2 Carbonate Member (NE Netherlands). Geologos, 18: 163-195.
48. Sandberg, P., 1985. Aragonite cements and their occurrence in ancient limestones. SEPM Special Publication, 36: 33-57.
49. Scholle, P.A., Ulmer-Scholle, D.S., 2003. A color guide to the petrography of carbonate rocks: grains, textures, porosity, diagenesis. AAPG Memoir, 77.
50. Smith, D.B., 1980. The evolution of the English Zechstein basin. Contributions to Sedimentology, 9: 7-34.
51. Strohmenger, C., Antonnini, M., Jäger, G., Rockenbauch, K., Strauss, C., 1996. Zechstein 2 Carbonate reservoir facies distribution in relation to Zechstein sequence stratigraphy (Upper Permian, Northeast Germany): an integrated approach. Bulletin des Centres de Recherches Exploration - Production Elf-Aquitaine, 20: 1-35.
52. Tucker, M.E., Hollingworth, N.T.J., 1986. The Upper Permian Reef Complex (EZI)of North East England: Diagenesis in a marine to evaporitic setting. In: Reef Diagenesis (eds. J.H. Schroeder and B.H. Purser): 270-290. Springer, Berlin.
53. Wagner, R., 1988. The evolution of the Zechstein Basin in Poland (in Polish with English summary). Kwartalnik Geologiczny, 32 (1): 33-52.
54. Wagner, R., Peryt, T.M., 1997. Possibility of sequence stratigraphic subdivision of the Zechstein in the Polish Basin. Geological Quarterly, 41 (4): 457-474.
55. Weidlich, O., 2002. Middle and Late Permian reefs - distributional patterns and reservoir potential. SEPM Special Publication, 72: 339-390.
56. Ziegler, P.A., 1990. Geological Atlas of Western and Central Europe, 2nd edition. Shell Internationale Petroleum Maatschappij B.V, Hague.

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Bibliografia

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