Porosity evolution and diagenetic history of the upper Jurassic Mozduran Formation, eastern Kopet-Dagh Basin, NE Iran
Subject Areas : MineralogyMehdi Reza Poursoltani 1 , Mahin Hrati Sabzvar 2
1 - Department of Geology, Mashhad Branch, Islamic Azad University, Mashhad, Iran
2 - Department of Geology, Mashhad Branch, Islamic Azad University, Mashhad, Iran
Keywords: carbonate, Porosity, diagenesis, Mozduran Formation, Iran,
Abstract :
The Upper Jurassic carbonates of the eastern part of the Kopet-Dagh Basin, with thickness of 470 m, are the major gas-bearing reservoir in NE Iran. The objectives of this study are recognition of diagenetic history and estimation of porosity related to dolomitization. Based on field and laboratory study, four carbonate facies associations have been identified at the Mazdavand outcrop. Most of the carbonate rocks were deposited in an open marine, tidal channel and barrier, lagoon and tidal flat setting. Using petrographic and CL analyses, the main diagenetic processes that affected these rocks are micritization, cementation, compaction, fracturing, dissolution, neomorphism, silicification, and dolomitization. Dissolution of grains and calcite cement generated secondary porosity, whereas compaction and cementation are the primary cause of porosity reduction. The average porosity of core plugs is 15.78% and match well with two-dimensional estimates from thin sections. The more porous samples are either highly fractured or contain interparticle and intercrystalline porosity, within the lower strata that contain more dolostone.
References:
Afshar-Harb A (1979) The Stratigraphy, Tectonics and Petroleum Geology of the Kopet Dagh Region, Northern Iran. Ph.D thesis, Imperial College of Science and Technology, London.
Aghanabati A (2004) Geology of Iran. Geological Survey of Iran, 586 pp. (in Persian).
Alavi M, Vaziri H, Seyed-Emami K, Lasemi Y (1997) The Triassic and associated rocks of the Aghdarband areas in central and northeastern Iran as remnant of the southern Turanian active continental margin, Geology Society of America Bulletin 109: 1563-1575.
Allen B, Vincent ST, Alsop GI, Ismail-Zadeh A, Fleckerd R (2003) Late Cenozoic deformation in the South Caspian region. Effects of a rigid basement block within a collision zone, Tectonophysics 366: 223-239.
Allen MB, Jackson J, Walker R (2004) Late Cenozoic reorganization of the Arabia-Eurasia collision and the comparison of short-term and long-term deformation rates, Tectonics 23: 1-16.
Alsharhan AS, Kendall CGSTC (2003) Holocene coastal carbonates and evaporites of the southern Arabian Gulf and their ancient analogues, Earth Science Review 61:191–243.
Bathurst RGC (1975) Carbonate sediments and their diagenesis. Developments in sedimentology, volume 12: Elsevier, Amsterdam.
Berberian M (1976) Contribution to the Seismotectonics of Iran (Part 2). Geological Survey of Iran.
Bretis B, Grasemann B, Conradi F (2012) An active fault zone in the Western Kopeh Dagh (Iran), Austrian Journal of Earth Sciences 105/3: 95-107.
Brigaud B, Durlet C, Deconinck JF, Vincent B, Thierry J, Trouiller A (2009) The origin and timing of multiphase cementation in carbonates: Impact of regional scale geodynamic events on the Middle Jurassic Limestones diagenesis (Paris Basin, France), Sedimentary Geology 222: 161–180.
Budd DA (2001) Permeability loss with depth in the Cenozoic carbonate platform of west-central Florida, American Association Petroleum Geologists Bulletin 85: 1253–1272.
Buryakovsky LA, Chilinger GV, Aminzadeh F (2001) Petroleum Geology of the South Caspian Basin, Gulf Professional Publishing USA, 442pp.
Carols LJ (2002) Diagenetic history of the Upper Jurassic Smackover Formation and its effects on reservoir properties: Vocation Field, Manila Sub-Basin, Eastern Gulf Coastal Plain, Gulf Coast Assoc Geol Soc Trans 52: 631–644.
Chafetz HS, Alicia A, Imerito-Tetzalff J, Zhang J (1999) Stable-isotope and elemental trends in Pleistocene sabkha dolomites: descending meteoric water vs. sulfate reduction, Journal of Sedimentary Reasearch 69: 256-266.
Coffey BP, Read JF (2004) Mixed carbonate-siliciclastic sequence stratigraphy of paleogene transition zone continental shelf southeastern USA, Sedimentary Geology 166: 21–57.
De Ros LF (1998) Heterogeneous generation and evolution of diagenetic quartzarenites in the Silurian-Devonian Fumas Formation of the Paran Basin, southern Brazil, Sedimentary Geology 116: 99-128.
Dickinson WW, Milliken KL (1995) The diagenetic role of brittle deformation in compaction and pressure solution Etjo Sandstone Namibia, Journal of Geology 103: 339-347.
Dunham RJ (1962) Classification of carbonate rocks according to depositional texture. In: Ham, W.E., (Ed.), Classification of carbonate rocks, American Association Petroleum Geologists Memoir 1: 108–121.
Dutton SP, Diggs TN (1990) History of quartz cementation in the Lower Cretaceous Travis peak formation, East Texas, Journal of Sedimentary Petrology 60: 191-202.
Ehrenberg SN, Pickard NAH, Svana TA, Oxtoby NH (2002) Cement geochemistry of photozoan carbonate strata (Upper Carboniferous- Lower Permian), Finnmark carbonate platform, Brents Sea, Journal of Sedimentary Research 72: 95–115.
El-ghali MAK, Mansurbeg H, Morad S, Al-Aasm I, Ajdanlisky G (2006) Distribution of diagenetic alterations in fluvial and paralic deposits within sequence stratigraphic framework: Evidence from the Petrohan Terrigenous Group and the Svidol Formation, Lower Triassic, NW Bulgaria, Sedimentary Geology 190: 299–321.
Ferry S, Pellenard P, Collin PY, Thierry J, Marchand D, Deconinck JF, Robin C, Carpentier C, Durlet C, Curial A (2007) Synthesis of recent stratigraphic data on Bathonian to Oxfordian deposits of the eastern Paris Basin, Mémoire de la Société Géologique de France 178: 37–57.
Flügel E (1982) Microfacies Analysis of Limestones. Springer, Berlin, 633 pp.
Flügel E (2004) Microfacies of Carbonate Rocks, Analysis, Interpretation and Application. Springer, Berlin, 967 PP.
Flügel E (2010) Microfacies Analysis of Carbonate Rocks, Analyses, Interpretation and Application, Springer-verlag, Berlin, 976 pp.
Folk RL (1965) Some aspects of recrystallization in ancient limestones. In: Pray, L.C., Murray, R.C., (Eds.), Dolomitization and Limestone Diagenesis, Society of Economic Paleontologists and Mineralogisis 13: 14-48.
Friis H, Sylvestersen RL, Nebel LN, Poulsen MLK, Svendsen JB (2010) Hydrothermally influenced cementation of sandstone — An example from deeply buried Cambrian sandstones from Bornholm, Denmark, Sedimentary Geology 227: 11-19.
Garzanti E, Gaetani M (2002) Unroofing history of late Paleozoic magmatic arcs within the Turan Plate (Tuarkyr, Turkmenistan), Sedimentary Geology 151: 67-87.
Giles MR, deBoer RB (1990) Origin and significance of redistributional secondary porosity, Marine and Petroleum Geology 6: 378-397.
Girard JP, Munz IA, Johansen H, Lacharpagne JC, Sommer F (2002) Diagenesis of the Hild Brent sandstone, northern North Sea: isotopic evidence for the prevailing influence of deep basinal water, Journal of Sedimentary Research 72: 746-759.
Götte T, Ramseyer K, Pettke T, Koch-Müller M (20013) Implications of trace element composition of syntaxial quartz cements for the geochemical conditions during quartz precipitation in sandstones, Sedimentology 60: 1111–1127.
Hollingsworth J, Jackson J, Walker R, Gheitanchi MR, Bolourchi MJ (2006) Strike-slip faulting, rotation and along-strike elongation in the Kopet-Dagh Mountains, NE Iran, Geophysical Journal International 166: 1161-1177.
Jackson J, Haines J, Holt W (1995) The accommodation of Arabia-Eurasia Plate convergence in Iran, Journal of Geophysical Research, 100: 205-215.
Jackson J, Priestley K, Allen M, Berberian M (2002) Active tectonics of the South Caspian Basin, Geophysical Journal International, 148: 214-245.
Kargaranbafghi F, Neubauer F, Genser J (2011) Cenozoic kinematic evolution of southwestern Central Iran: Strain partitioning and accommodation of Arabia–Eurasia convergence, Tectonophysics 502: 221-243.
Kaviani A, Hatzfeld D, Paul A, Tatar M, Priestley K (2009) Shear-wave splitting, lithospheric anisotropy, and mantle deformation beneath the Arabia–Eurasia Collision Zone in Iran, Earth and Planetary Science Letters 286: 371-378.
Kavoosi MA, Lasemi Y, Sherkati S, Moussavi-Harami R (2009) Facies analysis and depositional sequences of the Upper Jurassic Mozduran Formation, a carbonate reservoir in the Kopet-Dagh basin, NE Iran, Journal of Petroleum Geology 32(3): 235-260.
Kyser TK, James NP, Bone I (2002) Shallow burial dolomitization of Cenozoic cool water limestone, southern Australia, Geochemistry and origin, Journal of Sedimentary Research 72: 146–157.
Land LS (1984) Frio sandstone diagenesis, Texas Gulf Coast: a regional isotopic study. In: McDonald, D.A., Surdam, R.C., (Eds.), Clastic Diagenesis. Tulsa, Oklahama, U.S.A. American Association Petroleum Geologists Memoir 37: 47-63.
Lander RH, Walderhaug O (1999) Porosity prediction through simulation of sandstone compaction and quartz cementation, American Association Petroleum Geologists Bulletin 83: 433–449.
Lasemi Y (1995) Platform Carbonates of the Upper Jurassic Mozduran Formation in the Kopet-Dagh Basin, NE Iran– facies paleoenvironments and sequences, Sedimentary Geology 99: 151–164.
Lyberis N, Manby G (1999) Oblique to orthogonal convergence across the Turan Block in the post-Miocene, American Association Petroleum Geologists Bulletin 83: 1135-1160.
Machent PG, Taylor KG, Macquaker JH, Marshall JD (2007) Pattern of early post-depositional and burial cementation in distal shallow marine sandstones: Upper Cretaceous Keniworth Member, Book Cliffs, Utah, USA, Sedimentary Geology 198: 125–145.
Mahboubi A, Moussavi-Harami R, Lasemi Y, Brenner RL (2001) Sequence stratigraphy and sea level history of the upper Paleocene strata in the Kopet-Dagh Basin, northeastern Iran, American Association Petroleum Geologists Bulletin 85: 839-859.
Mahboubi A, Moussavi-Harami R, Carpenter SJ, Aghaei A, Collins LB (2010) Petrographical and geochemical evidences for paragenetic sequence interpretation of diagenesis in mixed siliciclastic–carbonate sediments: Mozduran Formation (Upper Jurassic), south of Agh-Darband, NE Iran, Carbonates Evaporites 25: 231–246.
Mansurbeg H, Morad S, Salem A, Marfil R, El-ghali MAK, Nystuen JP, Caja MA, Amorosi A, Garcia D, La Iglesia A (2008) Diagenesis and reservoir quality evolution of Palaeocene deep-water, marine sandstones, the Shetland-Faroes Basin, British continental shelf, Marine and Petroleum Geology 25: 514–543.
Milliken KL (1994) The widespread occurrence of healed microfractures in siliciclastic rocks: evidence from scanned cathodoluminescence imaging. In: Nelson, P.P., Laubach, S.E., (Eds.), Rock Mechanics: Models and Measurements, Challenges from Industry, 1st North American Rock Mechanics Symposium, A.A. Balkema, pp. 825-832.
Moussavi-Harami R (1989) Depositional history of Upper Jurassic (Oxfordian–Kimmeridgian) carbonates and evaporites in northeastern Iran (abs.). In: Proceedings of the 28th international geological congress, Washington DC, 2471 p
Moussavi-Harami R, Brenner RL (1992) Geohistory analysis and petroleum reservoir characteristics of Lower Cretaceous (Neocomian) sandstones, eastern Kopet Dagh Basin, northeastern Iran, American Association Petroleum Geologists Bulletin 76: 1200-1208.
North FK (1985) Petroleum Geology. Allen and Unwin, Boston, U.S.A., 607 pp.
Palmer TJ, Hudson JD, Wilson MA (1988) Palaeoecological evidence for early aragonite dissolution in ancient seas, Nature 335: 809–810.
Paxton ST, Szabo JO, Ajdukiewicz JM, Klimentidis RE (2002) Construction of an intergranular volume compaction curve for evaluating and predicting compaction and porosity loss in rigid-grain sandstone reservoirs, American Association Petroleum Geologists Bulletin 86: 2047–2067.
Poursoltani MR, Moussavi-Harami R, Gibling MR (2007) Jurassic deep water fans in the Neo-Tethys Ocean, the Kashafrud Formation of the Kopet-Dagh Basin Iran, Sedimentary Geology 198: 53–74.
Poursoltani MR, Gibling MR (2011) Composition, porosity and reservoir potential of the Middle Jurassic Kashafrud Formation northeast Iran, Marine and Petroleum Geology 28: 1094-1110.
Purser BH (1969) Syn-sedimentary marine lithification of Middle Jurassic in the Paris Basin, Sedimentology 12: 205–230.
Read JF (1985) Carbonate platform facles models, American Association Petroleum Geologists Bulletin 66: 860-878.
Reilinger R, Mcclusky S, Vernant P, Lawrence S, Ergintav S, Ozener H, Kadirov F, Guliev I, Stepanyan R, Nadariya M, Hahubia G, Mahmoud S, Sakr K, Arrajehi A, Paradissis D, Al-Aydrus A, Prilepin M, Guseva T, Evren E, Dmitrotsa A, Filikov SV, Gomez F, Al-Ghazzi R, Karam G (2006) GPS constraints on continental deformation in the Africa-Arabia-Eurasia continental collision zone and implications for the dynamics of plate interactions, Journal of Geophysical Research 111, 26.
Sanders D, Hofling R (2000) Carbonate deposition in mixed siliciclasticcarbonate environments on top of an orogenic wedge (Late Cretaceous, Northern Calcareous Alps, Austria), Sedimentary Geology 137: 127-146.
Sardar Abadi M, Da Silva AC, Amini A, Aliabadi AA, Boulvain F, Sardar Abadi MH (2014) Tectonically controlled sedimentation: impact on sediment supply and basin evolution of the Kashafrud Formation (Middle Jurassic, Kopeh-Dagh Basin, northeast Iran), International Journal of Earth Sciences l03: 2233-2254.
Schmid S, Worden RH, Fisher QJ (2004) Diagenesis and reservoir quality of the Sherwood Sandstone (Triassic), Corrib Field, Slyne Basin, west of Ireland, Marine and Petroleum Geology 21: 299-315.
Scholle PA, Halley RB (1985) Burial diagenesis: out of sight, out of mind? In: Schneidermann, N., Harris, P.M., (Eds.), Carbonate Cements, SEPM Special Publication 36: 309–334.
Shinn EA (1986) Modern carbonate tidal flats: their diagnostic features, Quarterly Journal of Cola. Sch. Mines 81: 7-35.
Sibley DF, Greeg JM (1987) Classification of dolomite rock textures, Journal of Sedimentary Petrology 57: 967–975.
Stöcklin J (1968) Structural history and tectonics of Iran: A review, American Association Petroleum Geologists Bulletin 52: 1229-1258.
Taheri J, Fursich FT, Wilmsen M (2009) Stratigraphy, depositional environments and geodynamic significance of the Upper Bajocian-Bathonian Kashafrud Formation, NE Iran. In: Brunet, M.F., Wilmsen, M., Granath, J.W., (Eds.), Geological Society Special Publication, South Caspian to Central Iran Basins, London, UK, 312: 205-218.
Tucker ME, Wright VP (1990) Carbonate Sedimentology, Blackwell, Oxford, 482 pp.
Tucker ME (1993) Carbonate diagenesis and sequence stratigraphy. In: Wright, V.P., (Ed.), Sedimentary Review. Blackwell, Oxford, 208–226.
Ulmishek G (2004) Petroleum geology and resources of the Amo-Darya Basin, Turkmenistan, Uzbekistan, Afghanistan, and Iran, USGS Bull. 32: 2201-4.
Vernant P, Cherý J (2006) Low fault friction in Iran implies localized deformation for the Arabia–Eurasia Collision Zone, Earth and Planetary Science Letters 246: 197-206.
Vincent B, Emmanuel L, Houel P, Loreau JP (2007) Geodynamic control on carbonate diagenesis: petrographic and isotopic investigation of the Upper Jurassic formations of the Paris Basin (France), Sedimentary Geology 197: 267–289.
Warren J (2006) Evaporites, Sediments, Resource and Hydrocarbons, Springer, Berlin, 1035 pp.
Wilson JL (1975) Carbonate Facies in Geological History, Springer-Verlag, Berlin, 471 pp.
Worden RH, Morad S (2000) Quartz cementation in oil field sandstones: a review of the key controversies. In: Worden, R.H., Morad, S., (Eds.), Quartz Cementation in Sandstones, IAS Special Publication 29: 1–20.
Zand-Moghadam H, Moussavi-Harami R, Mahboubi A, Aghaei A (2016) Lithofacies and sequence stratigraphic analysis of the Upper Jurassic siliciclastics in the eastern Kopet-Dagh Basin, NE Iran, Journal of African Earth Sciences 117: 48-61.