Microfacies, depositional condition and sequence stratigraphy of the Bahram Formation (Middle–Upper Devonian) in Kuh-e-Bande-Abdol-Hossein section, SE Anarak

Document Type : مقالات پژوهشی

Authors

1 University of Isfahan

2 Senckenberg Research Institute and Natural History Museum

Abstract

Introduction
During the Silurian and Devonian time, some parts of Iran, including Central Iran, Alborz and Sanandaj-Sirjan basins, along with the Turkey and Afghanistan plates had been connected to the Arabian and African plates; located on the northwestern margin of the Gondwana and southern Paleotethys (Berberian and King, 1981; Husseini, 1991; Sharland et al., 2001; Ruban et al., 2007; Al-Juboury and AL-Hadidy, 2009). The Devonian deposits represent a considerable distribution in Tabas Block and Central Iran. During the Devonian time, the Iranian platform was located in the southern hemisphere, near 30° latitudes. Outcrops of the Upper Paleozoic around Isfahan region mostly limited to the northern Isfahan (Soh and Natanz districts, Najhaf, Neqeleh, Varcamar, North Tar, east Kesheh sections; Bahrami et al., 2015), Northeast of Isfahan (Zefreh, Chahriseh, and Dizlu sections; Königshof et al., 2016) and south of Isfahan (Shahreza–Ramsheh area; Bahram et al., 2014). In order to investigate the microfacies and sedimentary environment of Bahram Formation in southeastern Anarak, Kuh-e-Bande- Abdol-Hossein section was selected and studied. Kuh-e-Bande-Abdol-Hossein section is located about 32 km southeastern Anarak and northeastern Isfahan in E: 53° 52' 55" and N: 33° 10' 90 " coordinates. The Anarak route toward Khur is the way to the section; after two kilometers, through a 25 km long unpaved road the study section could be accessed.
 
Materials and Methods
In order to study the sedimentary environment and identify the sedimentation process during the Middle and Upper Devonian Kuh-band-e-Abdolhossein section in Anarak region, 230 thin sections and a few polished slabs were prepared and process with laboratory techniques to study and identify the skeletal and non-skeletal components, texture and other microscopic characteristics. Microfacies textures were identified according to Dunham (1962), Embry and Klovan, 1971 schemes, and also the further standard models of Wilson (1975) and Flugel (2010) have been used. In order to distinguish calcite mineral from dolomite, all samples were stained by Alizarin red S solution (Dickson, 1965).
 
Discussion
The Bahram Formation in this section is 366 m thick and lithologically is composed of thin to thick-bedded limestone, an alternation of limestone and thin-bedded shale, sandy limestone and marly limestone. Based on facies changes and petrological properties, 16 microfacies were identified in this section. Investigation of the identified facies indicates the deposition of these microfacies has taken place in a carbonate ramp during the Middle and Late Devonian time in the study section in Anarak region. On the basis of vertical and lateral microfacies variations and their comparison with the sea level changes’ curve, sequence stratigraphic studies of the Bahram Formation led to the identification of seven fourth-order sequences in the study section. According to the obtained data, the first and the seventh sedimentary sequences are as parts of complete sedimentary sequences, while second to sixth sedimentary sequences are complete sequences including transgressive system tracts, high stand system tracts and maximum flooding surface as well as sequence boundaries.
 
Conclusion
The Bahram Formation in the Kuh-e-Bande-Abdol-Hossein section, SE Anarak with a thickness of 366 m is composed of thin to thick-bedded limestone, an alternation of limestone and thin-bedded shale, sandy limestone, and marl limestone. Microfacies analysis has led to the recognition of 16 microfacies and their lateral and vertical distribution show that carbonates were deposited on a ramp type carbonate platform. Storm deposit or very slight steepened slope resulted in the deposition of very rare redeposited fine-grained bioclasts in the deeper part of the platform. According to the sequence, stratigraphy analysis seventh fourth-order depositional sequences are recognized in the Bahram Formation. Microfacies analysis indicates that this section shows rather deeper paleoenvironments in comparison to the previously studied sections of the Bahram Formation in Central Iran.
 
Keywords: Bahram Formation; microfacies; sedimentary environment; sequence stratigraphy; Upper Givetian-Upper Famennian; Kuh-e-Bande-Abdol-Hossein.
 
Reference
Al-Juboury, A.I., & AL-Hadidy, A.H., 2009, Petrology and depositional evolution of the Paleozoic rocks of Iraq. Marine and Petroleum Geology, 26: 208-231.
Bahrami, A., Boncheva, I., Königshof, P., Yazdi, M., & Ebrahimi Khan-Abadi, A., 2014. Conodonts of the Mississippian/Pennsylvanian boundary interval in Central Iran. Journal of Asian Earth Sciences, 92: 187-200.
Bahrami, A., Königshof, P., Boncheva, I., Sadat Tabatabae, M., Yazdi, M., & Safari, Z., 2015. Middle Devonian (Givetian) conodonts from the northern margin of Gondwana (Soh and Natanz regions, North West Isfahan, Central Iran): biostratigraphy and palaeoenvironmental implications. Palaeobiodiversity and Palaeoenvironments, 95: 554–577.
Berberian, M., & King, G.C.P., 1981. Toward a palaeogeography and tectonic evolution of Iran. Canadian Journal of Earth Sciences, 18: 210-265.
Dickson, J.A.D., 1965. A modified staining technique for carbonate in thin section. Nature, 205: 587.
Dunham, R.J., 1962. Classification of carbonate rocks according to their depositional texture, In: Ham W.E., (ed.), Classification of Carbonate Rocks. American Association of Petroleum Geologists Memoir, 1: 108-121.
Embry, A.F., & Klovan, J.E., 1971. Late Devonian reef tract on northeastern Banks Island, Northwest territories. Bulletin of Canadian Petroleum Geology, 19: 730-781.
Flugel, E., 2010. Microfacies of Carbaonate Rocks, 2nd edition. Springer Verlag, Berlin, 976 p.
Husseini, M.I., 1991. Tectonic and depositional model of the Arabian and adjoining plates during the Silurian-Devonian. American Association of Petroleum Geologists Bulletin, 75: 108-120.
Königshof, P., Carmichael, S.K., Waters, J., Jansen, U., Bahrami, A., Boncheva, I., & Yazdi, M., 2016. Palaeoenvironmental study of the Palaeotethys Ocean: The Givetian-Frasnian boundary of a shallow-marine environment using combined facies analysis and geochemistry (Zefreh Section/Central Iran). In: Mottequin, B., Slavik, L., & Königshof, P., (eds.), Climate Change and Biodiversity Patterns in the Mid-Paleozoic. Palaeobiodiversity and Palaeoenvironments, 97: 517–540.
Ruban, D.A., Al-Husseini, M., & Iwasaki, Y., 2007. Review of Middle East Paleozoic plate tectonics. GeoArabia, 12: 35-56.
Sharland, P.R., Archer, R., Casey, D.M., Davies, R.B., Hall, S.H., Hevard, A.P., Horbury, A.D., & Simmons, M.D., 2001. Arabian Plate Sequence Stratigraphy. GeoArabia, Special Publication, 2: 1-270.
Wilson, J. L., 1975. Carbonate Facies in Geologic History. Springer, New York, 471 p.

Keywords

References

امینی، ع.، 1390، مبانی چینه نگاری سکانسی. انتشارات دانشگاه تهران، 346 ص.
شاکری، ب.، 1395، زیست چینه نگاری نهشته‌های دونین بالایی برش کوه بندعبدالحسین (جنوب خاور انارک) براساس فونای کنودونتی. پایان نامه کارشناسی ارشد، دانشگاه اصفهان، 244 ص.
Adabi, M.H., 2009. Multistage dolomitization of Upper Jurassic Mozduran Formation, Kopet-Dagh Basin, N.E. Iran. Carbonates and Evaporites, 24: 16–32.
Al-Juboury, A.I., & AL-Hadidy, A.H., 2009, Petrology and depositional evolution of the Paleozoic rocks of Iraq. Marine and Petroleum Geology, 26: 208-231.
Allahkarampour Dilla, M., Vaziri-Moghaddama, H., Seyrafiana, A., & Behdad (Ghabeishavi), A., 2018. Oligo-Miocene carbonate platform evolution in the northern margin of the Asmari intra-shelf basin, SW Iran. Marine and Petroleum Geology, 92: 437–461.
Andreeva, P.V., 2018. Givetian–Frasnian arid palaeoenvironments from the northern Gondwana: a case study from the Moesian platform (Bulgaria). Palaeobiodiversity and Palaeoenvironments, 98: 549–569.
Bahrami, A., Boncheva, I., Königshof, P., Yazdi, M., & Ebrahimi Khan-Abadi, A., 2014. Conodonts of the Mississippian/Pennsylvanian boundary interval in Central Iran. Journal of Asian Earth Sciences, 92: 187-200.
Bahrami, A., Königshof, P., Boncheva, I., Sadat Tabatabae, M., Yazdi, M., & Safari, Z., 2015. Middle Devonian (Givetian) conodonts from the northern margin of Gondwana (Soh and Natanz regions, North West Isfahan, Central Iran): biostratigraphy and palaeoenvironmental implications. Palaeobiodiversity and Palaeoenvironments, 95: 554–577.
Bathurst, R.G.C., 1967. Oolitic films on low-energy carbonate sand grains, Bimini Lagoon, Bahamas. Marine Geology, 5 (2): 89-109.
Berberian, M., & King, G.C.P., 1981. Toward a palaeogeography and tectonic evolutionof Iran. Canadian Journal of Earth Sciences, 18: 210-265.
Bingham-Koslowski, N.E., 2010. End Frasnian calcimicrobial-stromatoporoid carbonate reefs, western Canada sedimentary basin. Master thesis, Queen’s University, Kingston, Canada, 190 p.
Bowie, C.H., 2014. Characterization of discontinuity surfaces and microfacies in a storm dominated shallow epeiric sea, Devonian Cedar Valley Group, Iowa. Master thesis, California State University, Fresno, 101 p.
Catuneanu, O., Galloway, W.E., Kendall, C.G.S.C., Miall, A.D., Posamentier, H.W., Strasser, A., & Tucker M.E., 2011. Sequence stratigraphy: methodology and nomenclature. Newsletters on Stratigraphy, 44: 173–245.
Catuneanu, O., 2019. Model-independent sequence stratigraphy. Earth-Science Reviews, 188: 312-388.
DaSilva, A.C., & Boulvain, F., 2004. From palaeosols to carbonate mounds: facies and environments of the Middle Frasnian platform in Belgium. Geologic Quarterly, 48: 253-266.
Demicco, R.V., & Hardie, L.A., 1994. Sedimentary structures and early diagenetic features of shallow marine carbonate deposits. Society of Economic Paleontologists and Mineralogists Atlas Series, 265 p.
Dickson, J.A.D., 1965. A modified staining technique for carbonate in thin section. Nature, 205: 587.
Dineley, D.L., 1984. Aspects of a Stratigraphic System: The Devonian. Macmillan, 223 p.
Dunham, R.J., 1962. Classification of carbonate rocks according to their depositional texture, In: Ham W.E., (ed.), Classification of Carbonate Rocks. American Association of Petroleum Geologists Memoir, 1: 108-121.
Embry, A.F., & Klovan, J.E., 1971. Late Devonian reef tract on northeastern Banks Island, Northwest territories. Bulletin of Canadian Petroleum Geology, 19: 730-781.
Flugel, E., 2010. Microfacies of Carbaonate Rocks, 2nd edition. Springer Verlag, Berlin, 976 p.
Garland, J., 1997. Middle to Upper Devonian (Givetian and Frasnian) shallow-water carbonates of Western Europe, facies analysis and cyclicity. Ph.D. thesis, University of Durham, 438 p.
Ginsburg, R.N., Hardie, L.A., Bricker, O.P., Garrett, P., & Wanless, H.R., 1977. Exposure index: A quantitative approach to defining position within the tidal zone. In: Hardie, L.A., (ed.), Sedimentation of the Modern Carbonate Tidal Flats of Northwest Andros Island, Bahamas. Johns Hopkins University Press, p. 7-11.
Hairapetian V., Ghobadi Pour, M., Popov, L.E., Hejazi, S.H., Holmer, L.E., Evans, D., & Sharifi, A., 2015. Ordovician of the Anarak Region: implications in understanding Early Palaeozoic history of Central Iran. Stratigraphy, 12: 22-30.
Halley, R.B., 1977. Ooid fabric and fracture in the Great Salt Lake and the geologic record. Journal of Sedimentary Petrology, 47 (3):1099-1120.
Hardie, L.A., & Ginsburg, R.N., 1977. Layering: The origin and environmental significance of lamination and thin bedding. In: Hardie, L.A., (ed.) Sedimentation of the Modern Carbonate Tidal Flats of Northwest Andros Island, Bahamas. Johns Hopkins University Press, p. 50-123.
Hashmie, A., Rostamnejad, A., Nikbakht, F., Ghorbanie, M., Rezaie, P., & Gholamalian, H., 2016. Depositional environments and sequence stratigraphy of the Bahram Formation (Middle–Late Devonian) in north of Kerman, south-central Iran. Geoscience Frontiers, 7 (5): 821-834.
Heckel, P.H., & Witzke, B.J., 1979. Devonian World Palaeogeography. In: House, M.R., Scrutton C.T., & Basset, M.G. (eds.), The Devonian System. Special Papers in Palaeontology, p. 99-123.
Husseini, M.I., 1991. Tectonic and depositional model of the Arabian and adjoiningplates during the Silurian-Devonian. American Association of Petroleum Geologists Bulletin, 75: 108-120.
Illing, L.V., 1954. Bahaman Calcareous Sands. American Association of Petroleum Geologists Bulletin, 38: 1-95.
Jamieson, E.R., 1971. Paleoecology of Devonian reefs of western Canada. North American Paleontological Convention Proceedings Journal, p. 1300-1340.
Kasig, W., 1980. Cyclic sedimentation in a Middle-Upper Devonian shelf environment in the Aachen region. Mededelingen Rijks Geologische Dienst, p. 26-29.
Kershaw, S., 1998. The application of stromatoporoid palaeobiology in palaeoenvironmental analysis. Palaeontology, 41: 509-544.
Kershaw, S., & Brunton, F.R., 1999. Palaeozoic stromatoporoid taphonomy: ecologicand environmental significance. Palaeogeography, Palaeoclimatology, Palaeoecology, 149: 313-328.
Krebs, W., 1968. Facies types in the Devonian back-reef limestones in the Eastern Rhenish Schiefergebirge. In: Müller G., & Friedman, G.M. (eds.), Recent Developments in Carbonate Sedimentology in Central Europe. Springer-Verlag, p. 186-195.
Krebs, W., 1974. Devonian carbonate complexes of Central Europe. In: Laporte, L.F. (ed.) Reefs in Time and Space. Society of Economic Paleontologists and Mineralogist Special Publication, p. 155-208.
Königshof, P., Carmichael, S.K., Waters, J., Jansen, U., Bahrami, A., Boncheva, I., & Yazdi, M., 2016. Palaeoenvironmental study of the Palaeotethys Ocean: The Givetian-Frasnian boundary of a shallow-marine environment using combined facies analysis and geochemistry (Zefreh Section/Central Iran). In: Mottequin, B., Slavik, L., & Königshof, P., (eds.), Climate Change and Biodiversity Patterns in the Mid-Paleozoic. Palaeobiodiversity and Palaeoenvironments, 97: 517–540.
Lench, G., & Davoudzadeh, M., 1982. Ophiolites in Iran. Neues Jahrbuch fur Geologie und Palaontologie, x: 306-320.
Leven E.J., & Gorgij, M.N., 2006. Upper Carboniferous⎯Permian Stratigraphy and Fusulinids from the Anarak Region, Central Iran. Russian Journal of Earth Sciences, 8: 1-25.
Playford, P.E., 1969. Devonian carbonate complexes of Alberta and Western Australia: a comparative study. Geological Survey of Western Australia, 43 p.
Plocher, O.W., 1990. Biotic, petrographic and diagenetic analysis of strata that bound the contact between the Little Cedar and Coralville formations (Middle Devonian) east-central Iowa, Master Thesis, University of Iowa.
Pohler, S.M.L., 1998. Devonian carbonate buildup facies in an intra-oceanic island arc (Tamworth Belt, New South-Wales, Australia). Facies, 39; 1-34.
Potma, K., Weissenberger, J., Wong, P.K., & Gilhooly, M.G., 2001. Toward a sequence stratigraphic framework for the Frasnian of the Western Canada Basin. Bulletin of Canadian Petroleum Geology, 49: 37-85.
Preat, A., & Mamet, B., 1989. Sedimentation of the Franco-Belgian Givetian carbonate platform. Bulletin des Centres de Recherche Exploration - production Elf Aquitaine, 13: 47-86.
Preat, A., & Carliez, D., 1994. Microfacies et cyclite dans le Givetien Superieur de Fromelennes (Synclinorium de Dinant, France). Bulletin de la Societe Geologique de Belgique, 117: 227-243.
Preat, A., & Kasimi, R., 1995. Eifelian-Givetian siliciclastic carbonate ramp systems, Belgium and France. First Part: Microfacies and sedimentary model. Bulletin des Centres de Recherche Exploration - production Elf Aquitaine, 19: 329-375.
Prothero, D.R., 2013. Bringing Fossils to Life: An Introduction to Paleobiology. Columbia University Press, 512 p.
Racki, G., 1992. Evolution of the bank to reef complex in the Devonian of the Holy Cross Mountains. Acta Palaeontologica Polonica, 37: 87-182.
Read, J.F., 1973. Carbonate cycles, Pillara Formation (Devonian), Canning Basin, Western Australia. Bulletin of Canadian Petroleum Geology, 21: 38-57.
Ruban, D.A., Al-Husseini, M., & Iwasaki, Y., 2007. Review of Middle East Paleozoic platetectonics. GeoArabia, 12: 35-56.
Ruttner, A.W., Nabavi, M.H., & Hajian, J., 1968. Geology of the Shirgesht Area (TabasArea, East Iran). Geological Survey of Iran, 133 p.
Scholle, P.A., & Ulmer-Scholle, D.S., 2006. A Color Guide to the Petrography of Carbonate Rocks: Grains, Textures, Porosity, Diagenesis. American Association of Petroleum Geologists Memoir, 77: 1-461.
Scoffin, T.P., 1987. An Introduction to Carbonate Sediments and Rocks. Chapman and Hall, 274 p.
Scrutton, C.T., 1977. Facies variations in the Devonian limestones of eastern South Devon. Geological Magazine, 114: 165-195.
Sharkovski, M., Susov, M., & Krivyakin, M., 1984. Geology of the Anarak area (Central Iran), Explanatory text of the Anarak quadrangle map, Scale, 1:250,000. Geological Survey of Iran, V/O Technoexport, Report, 19: 1-143.
Sharland, P.R., Archer, R., Casey, D.M., Davies, R.B., Hall, S.H., Hevard, A.P., Horbury, A.D., & Simmons, M.D., 2001. Arabian Plate Sequence Stratigraphy. GeoArabia, Special Publication, 2: 1-270.
Shinn, E.A., 1968, Practical significance of Birdseye structures in carbonate rocks. Journal of Sedimentary Petrology, 38: 215-223.
Shinn, E.A., 1969. Submarine lithification of Holocene carbonate sediments in the Persian Gulf. Sedimentology, 12 (1‐2): 109-144.
Shinn, E.A., 1983. Birdseyes, fenestrae, shrinkage pores and loferites: A reevaluation. Journal of Sedimentary Petrology, 53: 619-628.
Tucker, M.E., 1991. Sedimentary Petrology. Blackwell Scientific Publications, 260 p.
Tucker, M.E., & Wright, V.P., 1992. Carbonate Sedimentology, 2nd Reprint. Blackwell, 482 p.
Vedrine, S., Strasser, A., & Hug, W., 2007. Oncoid growth and distribution controlled by sea-level fluctuations and climate (Late Oxfordian, Swiss Jura Mountains). Facies, 53 (4): 535-552.
Wendt, J., Kaufmann, B., Belka, Z., Farsan, N., & Karimu-Bavandpur, A., 2002. Devonian/lower Carboniferous stratigraphy, facies patterns and paleogeography of Iran, Part I. Southeastern Iran. Acta Geologica Polonica, 52: 129-168.
Wendt, J., Kaufmann, B., Belka, Z., Farsan, N., & Karimu-Bavandpur, A., 2005. Devonian/lower Carboniferous stratigraphy, facies patterns and paleogeography of Iran Part II. Northern and central Iran. Acta Geologica Polonica, 55: 31-97.
Wendt, J., Hayer, J., & Karimi-Bavandpour, A., 1997. Stratigraphy and depositional environment of Devonian sediments in northeast and east-centralIran. Neues Jahrbuch fur Geologie und Palaontologie Abhandlungen, 206: 277-322.
Whalen, M.T., Day, J., Eberli, G.P., & Homewood, P.W., 2002. Microbial carbonates as indicators of environmental change and biotic crises in carbonate systems: example from the Late Devonian, Alberta Basin, Canada. Palaeogeography, Palaeoclimatology, Palaeoecology, 181: 127-151.
Wilson, J. L., 1975. Carbonate Facies in Geologic History. Springer, New York, 471 p.
Witzke, B.J., 1987. Models for circulation patterns in epicontinental seas applied to Paleozoic facies of North America craton. Paleoceanography, 2 (2): 229-248.
Witzke, B.J., & Bunker, B.J., 1997. Sedimentation and stratigraphic architecture of a Middle Devonian (Late Givetian) transgressive-regressive carbonate-evaporite cycle, Coralville Formation, Iowa area. Geological Society of America Special Papers, 321: 67-88.
Witzke, B., Bunker, B., & Rogers, F., 1988. Eifelian through lower Frasnian stratigraphy and deposition in the Iowa area, central Midcontinent, USA. In Devonian of the World. Proceedings of the 2nd International Symposium on the Devonian System Memoir, 14: 221-250.
Send comment about this article
CAPTCHA Image

Files

History

  • Receive Date: 03 April 2018
  • Revise Date: 10 March 2019
  • Accept Date: 20 May 2019

Share

How to cite

Statistics