Abstract
Thick Neocomian–middle Albian successions include the most significant hydrocarbon source rocks in the Zagros Basin. These successions, named the Garau Formation, are composed of about 700 m of limestone, shaly (argillaceous) limestone, and bedded cherts with high organic matter (OM) content. Considering several lines of evidence, including the presence of partially dissolved planktonic foraminifer shells, thin-bedded radiolarian cherts, and the absence of index palynomorphs and shallow-marine fauna and facies, the depositional environment is interpreted as a deep basin (probably up to 1,000 m deep). Due to its bathymetry, facies changes are subtle, which in turn makes it challenging to reconstruct the sequence stratigraphic framework. Identification of five microfacies related to the deep basin along with palynological factors (AOM ratio, AOM%, phytoclast ratio, and phytoclast %) and their variations in the stratigraphic column led to identification of the relative sea-level changes during this time span. Consequently, various sequence surfaces and ten third-order sequences are recognized. These sequences are clearly correlatable with the shallow-water sequences of the Arabian Plate in their numbers and ages. Using Rock-Eval pyrolysis, organic content of the Garau facies is determined. TOC data show an elevated OM content (1.648 %) with a marked increase during the Early Aptian, which could be ascribed to the OAE1a.
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References
Adabi MH, Salehi MA, Ghabeishavi A (2010) Depositional environment, sequence stratigraphy and geochemistry of Lower Cretaceous carbonates (Fahliyan Formation), south-west Iran. J Asian Earth Sci 39:148–160
Adams TD, Khalili M, Khosrovi Said A (1967) Stratigraphic significance of some oligosteginid assemblages from Lurestan Province, northwest Iran. Micropaleontology 13:55–67
Alavi M (2004) Regional stratigraphy of the Zagros fold-thrust belt of Iran and its pro-foreland evolution. Am J Sci 304:1–20
Alavi M (2007) Structures of the Zagros fold-thrust belt in Iran. Am J Sci 307:1064–1095
Al-Fares AA, Bouman M, Jeans P (1998) A new look at the middle to lower Cretaceous stratigraphy, offshore Kuwait. GeoArabia 3:543–560
Al-Husseini MI (2000) Origin of the Arabian Plate structures: Amar collision and Najd rift. GeoArabia 5:527–542
Al-Rawi MM (1981) Geological interpretation of oil entrapment in the Zubair Formation, Raudhatain Field. Society of Petroleum Engineers Middle East Oil Technical Conference, Paper SPE 9591, pp 149–158
Alsharhan AS, Nairn AEM (1997) Sedimentary basins and petroleum geology of the Middle East. Elsevier, Amsterdam
Andersen N, Reijmer JJG, Droxler AW (2003) Timing and distribution of calciturbidites around a deeply submerged carbonate platform in a seismically active setting (Pedro Bank, Northern Nicaragua Rise, Caribbean Sea). Int J Earth Sci 92:573–592
Batten DJ (1983) Identification of amorphous sedimentary organic matter by transmitted light microscopy. In: Brooks J (ed) Petroleum geochemistry and exploration of Europe, vol 11. Geological Society London Special Publications, London, pp 275–287
Batten DJ (1996) Palynofacies and palaeoenvironmental interpretation. In: Jansonius J, McGregor DC (eds) Palynology: principals and applications, vol 3. American Association of Stratigraphic Palynologists Foundation, Dallas, pp 1011–1064
Batten DJ, Stead DT (2005) Palynofacies analysis and its stratigraphic application. In: Koutsoukos EAM (ed) Applied stratigraphy. Springer, Berlin Heidelberg New York, pp 203–226
Berberian M, King GCP (1981) Towards a paleogeography and tectonic evolution of Iran. Can J Earth Sci 18:210–265
Buchroithner MF, Flügel E, Flügel HW, Stattegger K (1980a) Die Devongerölle des paläozoischen Flysch von Menorca und ihre paläogeographische Bedeutung. N Jb Geol Paläont Abh 159:172–224
Buchroithner MF, Flügel E, Flügel HW, Stattegger K (1980b) Mikrofazies, Fossilien und Herkunft der Kalk-Gerölle im Karbon-«Flysch» der Betischen Kordilleren, Spanien. Facies 2:1–54
Burchette TP (1993) Mishrif Formation (Cenomanian–Turonian), southern Arabian Gulf: carbonate platform growth along a cratonic basin margin. In: Simo JAT, Scott RW, Masse JP (eds) Cretaceous carbonate platforms, vol 56. AAPG Memoir, pp 185–199
Casey REP (1993) Radiolaria. In: Lipps JH (ed) Fossil prokaryotes and protists. Blackwell, Oxford, pp 249–288
Combaz A (1980) Les kerogenes vus au microscope. In: Durand B (ed) Kerogen, insoluble organic matter from sedimentary rocks. Editions Technip, Paris, pp 55–110
Cook HE, Mullins HT (1983) Basin margin environment. In: Scholle PA, Bebout DG, Moore CH (eds) Carbonate depositional environments, vol 33. AAPG Memoir, pp 539–617
Cook HE, Hine A, Mullins HT (1983) Platform margin and deep water carbonates. Soc Econ Paleont Min Short Course 12
Demaison GJ, Moore GT (1980) Anoxic environments and oil source bed genesis. AAPG Bull 64:1179–1209
Dunham RJ (1962) Classification of carbonate rocks according to depositional texture. In: Ham WE (ed) Classification of carbonate rocks, vol 1. AAPG Memoir, pp 108–121
Embry AF (1993) Transgressive–regressive (T–R) sequence analysis of the Jurassic succession of the Sverdrup Basin, Canadian Arctic Archipelago. Can J Earth Sci 30:301–320
Embry AF (1995) T-R sequence—the practical genetic unit for stratigraphic analysis. In: Bell JS, Bird TD, Hillier TL, Greener PL (eds) Proceedings of the oil and gas forum 95. Geological Survey of Canada Open File, vol 3058, pp 187–192
Embry AR, Klovan JE (1971) A Late Devonian reef tract on northeastern Banks Island, Northwest Territories. Bull Can Petrol Geol 19:730–781
Emery D, Myers K (1996) Sequence stratigraphy. Blackwell, Oxford
Enos P, Moore CH (1983) Fore-reef slope environment. In: Scholle PA, Bebout DG, Moore CH (ed) Carbonate depositional environments, vol 33. AAPG Memoir, pp 507–537
Ercegovac M, Kostic A (2006) Organic facies and palynofacies: nomenclature, classification and applicability for petroleum source rock evaluation. Int J Coal Geol 68:70–78
Eshet Y, Hoek R (1996) Palynological processing of organic-rich rocks, or how many time have you called a palynoferous sampler barren? Rev Palaeobot Palynol 94:101–109
Eshghi M (1977) A stratigraphic study of Garau Formation. In: Proceedings of 2nd geological symposium of Iran. Iranian Petroleum Institute, Tehran, pp 36–42
Fernandez-Lopez S, Melendez G (1994) Abrasion surfaces on internal moulds of ammonites as palaeobathymetric indicators. Palaeogeogr Palaeoclimatol Palaeoecol 110:29–42
Ferretti A (1989) Microbiofacies and constituent analysis of Upper Silurian-Lower Devonian limestones from southwestern Sardinia. Boll Soc Geol Ital 28:87–100
Flügel E (2010) Microfacies of carbonate rocks: analysis, interpretation and application, 2nd edn. Springer, Berlin Heidelberg New York
Gammon PR, James NP (2001) Palaeogeographical influence on late Eocene biosiliceous sponge-rich sedimentation, southern Western Australia. Sedimentology 48:559–584
Gastaldo RA (1994) The genesis and sedimentation of phytoclasts with examples from coastal environments. In: Traverse A (ed) Sedimentation of organic particles. Cambridge University Press, Cambridge, pp 103–127
Ghasemi-Nejad E, Head MJ, Naderi M (2009) Palynology and petroleum potential of the Kazhdumi Formation (Cretaceous: Albian-Cenomanian) in the South Pars Field, northern Persian Gulf. Mar Petrol Geol 26:805–816
Ghazban F (2007) Petroleum geology of the Persian Gulf. Joint publication, Tehran University Press and National Iranian Oil Company, Tehran
Golonka J (2000) Cambrian–Neogene plate tectonic maps. Wydawnictwo Uniwersytetu Jagiellońskiego, Kraków
Gorin GE, Steffen D (1991) Organic facies as a tool for recording eustatic variations in marine fine-grained carbonates, examples of the Berriasian stratotype at Berrias (Ardèche, SE France). Palaeogeogr Palaeoclimatol Palaeoecol 85:303–320
Granier B, Busnardo R (2012) New stratigraphic data on the Aptian of the Persian Gulf. In: Skelton P, Granier B, Moullade M (eds) Spatial patterns of change in Aptian carbonate platforms. Cret Res. doi:10.1016/j.cretres.2012.02.011
Haak AB, Schlager W (1989) Compositional variations in calciturbidites due to sea-level fluctuations, late Quaternary, Bahamas. Geol Rundsch 78:477–486
Habib D, Miller JA (1989) Dinoflagellate species and organic facies evidence of marine transgression and regression in the Atlantic Coastal Plain. Palaeogeogr Palaeoclimatol Palaeoecol 74:23–47
Hallam A (1963) Major epeirogenic and eustatic changes since the Cretaceous and their possible relationship to crustal structure. Am J Sci 261:397–423
Hay WW (1974) Studies in paleo-oceanography: based on a symposium sponsored by the Society of Economic Paleontologists and Mineralogists. SEPM Special Publications 20
Henson FRS (1951) Observations on the geology and petroleum occurrences of the Middle East. In: Proceedings of the 3rd world petroleum congress, vol 1, pp 118–140
Heydari E (2008) Tectonic versus eustatic control on supersequences of the Zagros Mountains of Iran. Tectonophysics 451:56–70
Jager H, McLean D (2008) Palynofacies and spore assemblage variations of upper Viséan (Mississippian) strata across the southern North Sea. Rev Palaeobot Palynol 148:136–153
Jamalian M, Adabi MH, Moussavi MR, Sadeghi A, Baghbani D, Ariyafar B (2011) Facies characteristic and paleoenvironmental reconstruction of the Fahliyan Formation, Lower Cretaceous, in the Kuh-e Siah area, Zagros Basin, southern Iran. Facies 57:101–122
James GA, Wynd JG (1965) Stratigraphic nomenclature of the Iranian Oil Consortium Agreement area. AAPG Bull 49:2184–2210
Kiessling W (1996) Facies characterization of Mid-Mesozoic deep-water sediments by quantitative analysis of siliceous microfaunas. Facies 35:237–274
Knauth LP (1979) A model for the origin of chert in limestone. Geology 7:274–277
Lee JL, Anderson OR (1991) Biology of foraminifera. Academic Press, Harcourt Brace Jovanovich, London
Li H, Habib D (1996) Dinoflagellate stratigraphy and its response to sea level change in Cenomanian–Turonian sections of the Western Interior of the United States. Palaios 11:15–30
Loucks RG, Sarg JF (1993) Carbonate sequence stratigraphy: recent developments and applications, vol 57. AAPG Memoir
Maurer F, van Buchem FSP, Eberli GP, Pierson BJ, Raven MJ, Larsen PH, Al-Husseini MI, Vincent B (2013) Late Aptian long-lived glacio-eustatic lowstand recorded on the Arabian Plate. Terra Nova 25:87–94. doi:10.1111/ter.12009
Motiei H (1993) Zagros stratigraphy. Geological Survey of Iran, Tehran (In Persian)
Motiei H (1995) Petroleum geology of Zagros. Geological Survey of Iran, Tehran (In Persian)
Murris RJ (1980) Middle East: stratigraphic evolution and oil habitat. AAPG Bull 64:597–618
Peters KE, Cassa MR(1994) Applied source rock geochemistry. In: Magoon LB, Dow WG (eds) The petroleum system—from source to trap, vol 60. AAPG Memoir, pp 93–120
Racki G, Cordey F (2000) Radiolarian palaeoecology and radiolarites: is the present the key to the past? Earth-Sci Rev 52:83–120
Reijmer JJG, Schlager W, Bosscher H, Beets CJ, McNeill DF (1992) Pliocene/Pleistocene platform facies transition recorded in calciturbidites (Exuma Sound, Bahamas). Sediment Geol 78:171–179
Rigo M, Preto N, Roghi G, Tateo F, Mietto P (2007) A rise in the carbonate compensation depth of western Tethys in the Carnian (Late Triassic): deep-water evidence for Carnian Pluvial Event. Palaeogeogr Palaeoclimatol Palaeoecol 246:188–205
Schiøler P, Crampton JS, Laird MG (2002) Palynofacies and sea-level changes in the Middle Coniacian–Late Campanian (Late Cretaceous) of the East Coast Basin, New Zealand. Palaeogeogr Palaeoclimatol Palaeoecol 188:101–125
Schlager W (2003) Benthic carbonate factories of the Phanerozoic. Int J Earth Sci 92:445–464
Schlager W (2005) Carbonate sedimentology and sequence stratigraphy. SEPM Concepts Sedimentol Paleontol 8:1–200
Schlager W, Reijmer JJG, Droxler A (1994) Highstand shedding of carbonate platforms. J Sediment Res 64(3b):270–281
Scholle PA, Ulmer-Scholle DS (2003) A color guide to the petrography of carbonate rocks: grains, textures, porosity, diagenesis. AAPG Mem 77:1–474
Sepehr M, Cosgrove JW (2005) Role of the Kazerun fault zone in the formation and deformation of the Zagros fold-thrust belt, Iran. Tectonics 24(5). doi:10.1029/2004TC001725
Setudehnia A (1978) The Mesozoic sequence in south-west Iran and adjacent areas. J Petrol Geol 1:3–42
Shakib SS (1994) Palaeoenvironmental and biostratigraphic significance of foraminiferal associations from the Early Cretaceous sediments of SW Iran. In: Simmons MD (ed) Micropalaeontology and hydrocarbon exploration in the Middle East. Chapman & Hall, London, pp 127–158
Sharland PR, Archer R, Cassey DM, Davies RB, Hall SH, Heward AP, Horbery AD, Simmons MD (2001) Arabian Plate sequence stratigraphy. Gulf PetroLink, Bahrain
Slatt RM (2006) Stratigraphic reservoir characterization for petroleum geologists, geophysicists, and engineers. Elsevier, Norman
Steffen D, Gorin G (1993) Palynofacies of the upper Tithonian–Berriasian deep-sea carbonates in the Vocontian Trough (SE France). Bull centr rech explor-produc Elf-Aquitaine 17:235–247
Stöcklin J, Setudehnia AO (1972) Iran du sud-ouest. Lexique Stratigraphique International Volume III, Asie, Fascimile 9b, Iran. Centre National de la Recherche Scientifique, Paris
Summerhayes CP, Masran TC (1984) Organic facies of Cretaceous and Jurassic sediments from Deep Sea Drilling Project Site 534 in the Blake-Bahama Basin, western North Atlantic. In: Sheridan RE, Gradstein FM, et al. (eds) Init Repts DSDP, vol 76, pp 469–480
Terken JMJ (1999) The Natih petroleum system of North Oman. GeoArabia 4:157–180
Traverse A (2007) Paleopalynology, 2nd edn., Topics in Geobiology, vol 28, Springer, Berlin Heidelberg New York
Tucker ME (2001) Sedimentary petrology: an introduction to the origin of sedimentary rocks, 3rd edn. Blackwell, Oxford
Tyson RV (1987) The genesis and palynofacies characteristics of marine petroleum source rocks. In: Brooks J, Fleet AJ (eds) Marine petroleum source rocks, vol 26. Geological Society of London Special Publications, pp 47–67
Tyson RV (1989) Late Jurassic palynofacies trends, Piper and Kimmeridge Clay formations, UK onshore and northern North Sea. In: Batten DJ, Keen MC (eds) Northwest European micropalaeontology and palynology. Ellis Horwood Publishers, Chichester, pp 135–172
Tyson RV (1993) Palynofacies analysis. In: Jenkins DJ (ed) Applied micropalaeontology. Kluwer Academic Publishers, Dordrecht, pp 153–191
Tyson RV (1995) Sedimentary organic matter. Organic facies and palynofacies. Chapman & Hall, London
Vail PR, Mitchum RM, Thompson III S (1977) Seismic stratigraphy and global changes of sea level, Part 4. Global cycles of relative changes in sea level. In: Payton CE (ed) Seismic stratigraphy: applications to hydrocarbon exploration, vol 26. AAPG Memoir, pp 83–97
van Bellen RC, Dunnington HV, Wetzel R, Morton DM (1959) Lexique stratigraphquie international, vol III, Asie, Fascicule 10a Iraq. Centre National de la Recherche Scientifique, Paris
van Buchem FSP, Razin P, Homewood PW, Philip JM, Platel GP, Roger J, Eschaed R, Desaubliaux GMJ, Boisseau T, Leduc JP, Labourdette R, Cantaloube S (1996) High-resolution sequence stratigraphy of the Natih Formation (Cenomanian/ Turonian) in northern Oman: distribution of source rocks and reservoir facies. GeoArabia 1:65–91
van Buchem FSP, Razin P, Homewood PW, Oterdoom WH, Philip J (2002) Stratigraphic organization of carbonate ramps and organic rich intrashelf basins: Natih Formation (middle Cretaceous) of northern Oman. AAPG Bull 86:21–53
van Buchem FSP, Baghbani D, Bulot LG, Caron M, Gaumet F, Hosseini A, Keyvani F, Schroeder R, Swennen R, Vedrenne V, Vincent B (2010) Barremian-Lower Albian sequence stratigraphy of southwest Iran (Gadvan, Dariyan, and Kazhdumi Formations) and its comparison with Oman, Qatar and the United Arab Emirates. In: van Buchem FSP, Al-Husseini MI, Maurer F, Droste HJ (eds) Barremian–Aptian stratigraphy and hydrocarbon habitat of the eastern Arabian Plate, vol 2. GeoArabia Special Publications 4, Gulf PetroLink, Bahrain, p 503–548
Van der Zwan CJ (1990) Palynostratigraphy and palynofacies reconstruction of the Upper Jurassic to lowermost Cretaceous of the Draugen Field, offshore mid Norway. Rev Palaeobot Palynol 62:157–186
van Wagoner JC, Posamentier HW, Mitchum RM, Vail PR, Sarg JF, Loutit TS, Hardenbol J (1988) An overview of the fundamentals of sequence stratigraphy and key definitions. In: Wilgus CK, Hastings CG, Kendall CGStC, Posamentier HW, Ross CA, Van Wagoner JC (eds) Sea-level changes: an integrated approach. SEPM Special Publications 42, pp 39–45
Venkatachala BS (1981) Differentiation of amorphous organic matter types in sediments. In: Brooks J (ed) Organic maturation studies and fossil fuel exploration. Academic Press, London, pp 177–200
Vincent B, van Buchem FSP, Bulot LG, Immenhauser A, Caron M, Baghbani D, Huc AY (2010) Carbon-isotope stratigraphy, biostratigraphy and organic matter distribution in the Aptian–Lower Albian successions of southwest Iran (Dariyan and Kazhdumi formations). In: van Buchem FSP, Al-Husseini MI, Maurer F, Droste HJ (eds) Barremian–Aptian stratigraphy and hydrocarbon habitat of the eastern Arabian Plate, vol 1. GeoArabia Special Publications 4, Gulf PetroLink, Bahrain, pp 139–197
Waveren I, Visscher H (1994) Analysis of the composition and selective preservation of organic matter in surficial deep-sea sediment from a high-productivity area (Bandasa, Indonesia). Palaeogeogr Palaeoclimatol Palaeoecol 112:85–111
Whitaker MF (1984) The usage of palynology in definition of Troll Field geology. In: Reduction of uncertainties in innovative reservoir geomodelling. In: Offshore northern seas conference and exhibition, No. 6, Norsk Petroleumsforening, Paper G6, Stavanger
Whitaker MF, Giles MR, Cannon SJC (1992) Palynological review of the Brent Group, UK Sector, North Sea. In: Morton AC, Hazeldine RS, Giles MR, Brown S (eds) Geology of the Brent Group. Geological Society, Special Publications 61, pp 169–202
Witt W, Gökdag H (1994) Orbitolinid biostratigraphy of the Shuaiba Formation (Aptian), Oman—implications for reservoir development. In: Simmons MD (ed) Micropalaeontology and hydrocarbon exploration in the Middle East. Chapman & Hall, Chichester, pp 221–242
Acknowledgments
The University of Tehran provided facilities for this research for which the authors are grateful. NIOC is thanked for support and data preparation. We also thank Facies reviewers and Editor-in-chief Franz Theodor Fürsich for their useful suggestions during the review process. Special appreciation goes to Florian Maurer for his helpful comments which considerably improved the quality of this work.
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Navidtalab, A., Rahimpour-Bonab, H., Nazari-Badii, A. et al. Challenges in deep basin sequence stratigraphy: a case study from the Early–Middle Cretaceous of SW Zagros. Facies 60, 195–215 (2014). https://doi.org/10.1007/s10347-013-0377-x
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DOI: https://doi.org/10.1007/s10347-013-0377-x