Biostratigraphy, depositional environment and sequence stratigraphy of Arab Member in the middle part of Persian Gulf

Document Type : مقالات پژوهشی

Authors

1 Ph.D. student in Stratigraphy & Paleontology, Department of Geology, Faculty of Science, Ferdowsi University of Mashhad, Mashhad, Iran

2 Associate Professor, Department of Geology, Faculty of Science, Ferdowsi University of Mashhad, Mashhad, Iran

3 Professor, Department of Geology, Faculty of Science, Ferdowsi University of Mashhad, Mashhad, Iran

Abstract

Introduction
The Arab Member (upper part of Surmeh Formation) in the Balal oil field in the middle part of the Persian Gulf is 130 meters thickness. It consists of thin to medium grain limestone, thin to medium crystal dolomite, and anhydrite. It is equivalent to the Arab Formation of Saudi Arabia, Bahrain, Qatar, and the United Arab Emirates (Al-Husseini, 2008).
 
Materials and Methods
A total of 200 rock samples were selected for analysis. Thin-sections were prepared at the Ferdowsi University of Mashhad and the Iranian Offshore Oil Company. The preservation of the microfossils is good, and identification follows Loeblish & Tappan (1988), Boudagher-Fadel (2008), Chiocchini (2008), and Hughes (2018), and they were stained with Alizarin Red-S solution using the Dickson (1965) method to distinguish calcite from dolomite. According to Dunham (1962) and Embry & Klovan (1971), the carbonate microfacies were classified. Skeletal and non-skeletal grain identification follow Flugel (2010). Parasequences of the Arab Member were recognized according to the sedimentary cycles and their relative sea-level equivalents (Haq et al., 1988; Van Wagoner et al., 1988-1990).
 
Discussion
This research aims to determine the age of the studied member, microfacies, and sequence stratigraphy of the upper Surmeh Formation in Balal oil field in the Persian Gulf. The investigation of benthic foraminifera and green algae is led to the identification of 12 species belonging to 12 genera of benthic Foraminifera and 2 species 2 genera of Algae. Based on the index taxa, two biozones are distinguished within the Arab Member: Kurnubia jurassica Interval Zone and Clypeina jurassica Range Zone, which indicate the Kimmeridgian-Tithonian age for the Arab Member in this part of the Persian Gulf Basin. Petrographic investigations is led to the identification of 12 microfacies (Mf1-Mf12). These microfacies are grouped into four facies associations that are assigned to four depositional environments (supratidal, intertidal, lagoon, and shoal) sited on the inner part of a homoclinal carbonate ramp. Facies analysis was carried out mainly by using the standard facies model for ramps by Flügel (2010). One third-order sequence can be substantiated in this study. It should be noted that the lagoonal facies are considered to represent the maximum flooding surfaces (MFS) for depositional sequence due to the lack of other deeper facies. In addition, sequence boundaries are indicated based on a combination of methods, including core observations, microfacies analyses, and the presence of evaporite minerals along with gamma-ray logs. By sequence, stratigraphic analysis one third-order sequence was recognized in the studied member that consists of transgressive systems tract (TST) and highstand systems tract (HST).
 
Conclusion
Based on the determined biozones (Kurnubia jurassica Interval Zone and Clypeina jurassica Range Zone), the age of the studied succession is Kimmeridgian-Tithonian. Petrographic investigations are led to the identification of 12 microfacies. According to Walter's law and facies evidence, the Arab Member sited on the inner part of a homoclinal carbonate ramp. The Arab Member deposited in one depositional sequence based on seismic data, facies changes, and benthic foraminifera; One third-order sequence consists of transgressive systems tract (TST) and highstand systems tract (HST).
 
Acknowledgment
Authors acknowledge the Research Institute of Petroleum Industry-Ahvaz Center & Iranian offshore Oil for their exceptional support of this project.
 
References
Al-Husseini, M.I., 2008. Launch of the Middle East geologic time scale. GeoArabia, 13 (4): 185-188.
Boudagher-Fadel, M.K., 2008. Evolution and geological significance of larger benthic foraminifera. First edition, Palaeontology and Stratigraphy, 571p.
Chiocchini, M., Chiocchini, R.A., Didaskalou, P., & Potetti, M., 2008. Micropaleontological and biostratigraphical researches on the Mesozoic of the Latium-Abruzzi carbonate platform (Central Italy). Memorie descrittive della, Carta Geologica D’Italia, 6: 65-75.
Dickson, J.A.D., 1965. A modified staining technique for carbonates in thin section. Nature, 205, 587p.
Dunham, R.J., 1962. Classification of carbonate rocks according to depositional texture. In: Ham, W.H., (ed.), Classification of carbonate rocks. American Association of Petroleum Geologists Memoir, 1: 108-121.
Embry, A.F., & Klovan, E.J., 1972. Absolute water depth limits of the Devonian paleoecological zones. Geololgy Rundschau, 61: 672-686.
Flügel, E., 2010. Microfacies of Carbonate Rocks, Analysis, Interpretation and Application. Springer, Heidelberg, Dordrecht, London, New York, 984p.
Haq, B.U., Hardenbol, J., & Vail, P.R., 1988. Mesozoic and Cenozoic chronostratigraphy and cycles of sea-level change. In: Wilgus, C.K., Hastings, B.S., Kendall, C.G.S.C., Posamentier, H.W., Ross, C.A., Van Wagoner, J.C. (eds.), Sea-level Changes: an Integrated Approach. Society of Economic Paleontologists and Mineralogists, 42:71-108.
Hughes, G.W., 2018. A new thin-section based micropaleontological biozonation for Saudia Arabia Jurassic carbonates. Micropaleontoloy, 64 (5-6): 331-364.
Loeblish, A.R., & Tappan, H; 1988b. Foraminiferal genera and their classification (Plates). Van Nostrand, New York, 212p. 
Van Wagoner, J.C., Mitchum, R.M.Jr., & Campion, K.M., Rahmanian, V.D; 1990. Siliciclastic sequence stratigraphy in well logs, core and outcrops, concepts for high-resolution correlation of time and facies. American Association of Petroleum Geologists, Methods in Exploration Series, 7: 1-55.
Van-Wagoner, J.C., W., Posamentier, Mitchum, H. R.M.Jr., Vail, P.R., Sarg, J.F., Loutit, T.S., & Hardenbol, J., 1988. An Overview of the Fundamentals of Sequence Stratigraphy and Key Definitions. In: Wilgus, C.K., Hastings, B.S., Posamentier, H., Van Wagoner, J., Ross, Ch.A., & Kendall, Ch.G.St.C. (eds.), Sea Level Changes: An Integrated Approach. SEPM Special Publication, 42: 39-45.

Keywords

Main Subjects


آقا‌نباتی، ع.، 1385. زمین‌شناسی ایران. سازمان زمین‌شناسی و اکتشافات معدنی کشور، 586 ص.
Al-Husseini, M.I., 2008. Launch of the Middle East geologic time scale. GeoArabia, 13 (4): 185-188.
Alsharhan, A.S., & Kendall, C.G.ST.C., 2003. Holocene coastal carbonates and evaporites of the southern Arabian Gulf and their ancient analogues. Earth Science Review, 61: 191-243
Al-Silwadi, M.S., Kirkham, A., Simmons, M.D., & Twombley, B.N., 1996. New insights into regional correlation and sedimentology, Arab Formation (Upper Jurassic), offshore AbuDhabi. GeoArabi, 1 (1): 6-27.
Berbier, M., Hamon, Y., Callot, J.P., Floquet, M., Daniel, J.M., & Daniel, J.M., 2012. Sedimentary and diagenetic controls on the multiscale fracturing pattern of a carbonate reservoir, The Madison Formation (Sheep Mountain, Wyoming, USA). Marine and Petroleum Geology, 29: 50-67.
Boudagher-Fadel, M.K., 2008. Evolution and geological significance of larger benthic foraminifera. First edition, Palaeontology and Stratigraphy, 571p.
Brett, C.E., 1995. Sequence stratigraphy, biostratigraphy and taphonomy in shallow marine environments. Palaios, 10: 597-616.
Catuneanu, O., 2014. International subcommission on stratigraphic classification: Guidelines for sequence stratigraphy. Serach and Discovery Article, (Vision) Calgary TELUS convention centre & ERCB core research centre, Calgary, AB, Canada, 10p.
Chiocchini, M., Chiocchini, R.A., Didaskalou, P., & Potetti, M., 2008. Micropaleontological and biostratigraphical researches on the Mesozoic of the Latium-Abruzzi carbonate platform (Central Italy). Memorie descrittive della, Carta Geologica D’Italia, 6: 65-75.
Dickson, J.A.D., 1965. A modified staining technique for carbonates in thin section. Nature, 205, 587p.
Dunham, R.J., 1962. Classification of carbonate rocks according to depositional texture. In: Ham, W.H., (ed.), Classification of carbonate rocks. American Association of Petroleum Geologists Memoir, 1: 108-121.
Emery, D., & Myers, K., 1996. Sequence Stratigraphy.Blackwells, Oxford, UK, 297p.
Einsele, G., 2000. Sedimentary basin evolution, facies and sediment budget, Second edition. Springer-Verlag, 292p.
Embry, A.F., & Klovan, E.J., 1972. Absolute water depth limits of the Devonian paleoecological zones. Geololgy Rundschau, 61: 672-686.
Flügel, E., 2010. Microfacies of Carbonate Rocks, Analysis, Interpretation and Application. Springer, Heidelberg, Dordrecht, London, New York, 984p.
Galazzo, F.B., Thomas, E., & Giusberti, L., 2015. Benthic foraminiferal response to the Middle Eocene Climatic Optimum (MECO) in the South-Eastern Atlantic (ODP Site 1263), Palaeogeography, Palaeoclimatology, Palaeoecology, 417: 432–444.
Hughes, G.W., 1996. A new bioevent stratigraphy of late Jurassic Arab-D carbonates of Saudia Arabia. GeoArabia, 1 (3): 417-434.
Hughes, G.W., 2003. Middle to late Jurassic Biofacies of Saudia Arabia. Rivista Italiana di Paleontologia Stratigrafia, 10 (1): 173-179.
Hughes, G.W., 2018. A new thin-section based micropaleontological biozonation for Saudia Arabia Jurassic carbonates. Micropaleontoloy, 64 (5-6): 331-364.
Haq, B.U., Hardenbol, J., & Vail, P.R., 1988. Mesozoic and Cenozoic chronostratigraphy and cycles of sea-level change. In: Wilgus, C.K., Hastings, B.S., Kendall, C.G.S.C., Posamentier, H.W., Ross, C.A., Van Wagoner, J.C. (eds.), Sea-level Changes: an Integrated Approach. Society of Economic Paleontologists and Mineralogists, 42:71-108.
James, G.A., & Wynd, J.G., 1965. Stratigraphic nomenclature of Iranian oil consortium agreement area, American Association Petroleum Geologists Bulletin, 49 (12): 2182-2245.
Kelechi, A.I., Beka, F.T., & Adiela, U.P., 2016. Sequence stratigraphy and researvoir characterisation; Case study of field X, Niger delta. International Journal of Science Inventions, 5 (3): 215-225.
Kheradpir, A., 1975. Stratigraphy of Khami Group in Southwest Iran. Iranian Offshore Oil Company, 1235: 388-402. (Unpubublished)
Loeblish, A.R., & Tappan, H; 1988a. Foraminiferal genera and their classification. Van Nostrand, New York, 970 p. 
Loeblish, A.R., & Tappan, H; 1988b. Foraminiferal genera and their classification (Plates). Van Nostrand, New York, 212p. 
Lucia, F.J., 2007. Carbonate reservoir characterization, an integrated approach. Springer, Berlin, New York, p xii, 336p.
Nagy, J., Finstad, E.K., Dypvik, H., Bremer, & M.G.A., 2001. Response of foraminiferal facies to trasgressive-regressive cycles in the Callovian of northest Scotland. Journal of Foraminiferal Research, 3: 324-349.
Read, J.F., 1982. Carbonate platforms of passive (extentional) continental margins type, characteristics and evolution. Tectonophysics, 81: 195-211.
Read, J.F., 1985. Carbonate platform facies models. American Association of Petroleum Geologists Bulletin, 69: 1-21.
Reading, H.G., 1996. Sedimentary Environments: Processes, Facies and Stratigraphy. Wiley-Blackwell, 688p.
Riding, R., 2006. Microbial carbonate abundance compared with fluctuations in metazoan diversity over geological time. Sedimentary Geology, 185: 229-238.
Sharland, P. R., Archer, R., Casey, D.M., Davies, R.B., Hall, S.H., Heward, H.P., Horbory, A.D., & Simons, M.D., 2001. Arabian plate sequence stratigraphy, Gulf Petrolink, Bahrain. GeoArabia, 370p.
Tucker, M.E., 2001. Sedimentary petrology, Third edition. Blackwell, Oxford, 260p.
Tucker, M.E., & Wright, V.P., 1990. Carbonate Sedimentology. Blackwell Science, Oxford, 492 p.
Van Wagoner, J.C., Mitchum, R.M.Jr., & Campion, K.M., Rahmanian, V.D; 1990. Siliciclastic sequence stratigraphy in well logs, core and outcrops, concepts for high-resolution correlation of time and facies. American Association of Petroleum Geologists, Methods in Exploration Series, 7: 1-55.
Van-Wagoner, J.C., W., Posamentier, Mitchum, H. R.M.Jr., Vail, P.R., Sarg, J.F., Loutit, T.S., & Hardenbol, J., 1988. An Overview of the Fundamentals of Sequence Stratigraphy and Key Definitions. In: Wilgus, C.K., Hastings, B.S., Posamentier, H., Van Wagoner, J., Ross, Ch.A., & Kendall, Ch.G.St.C. (eds.), Sea Level Changes: An Integrated Approach. SEPM Special Publication, 42: 39-45.
Warren, J.K., 2006. Evaporites: Sediments, Resources and Hydrocarbons. Springer-Verlag, 1036p.
Warren, J., 2000. Dolomite, occurrence, evolution and economically important associations. Earth Science Reviews, 52: 1-81.
Wells, A.J., 1965. Lithofacies and geological history of Khami Group in South West of Iran. Iranian Offshore Oil Company, Report No. 1082 (Unpublished).
CAPTCHA Image