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Neogene reefal limestones and their significance in the basin architecture, Osmaniye-Bahçe and neighbouring sub-basins, SE Turkey

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Abstract

The Neogene Osmaniye-Bahçe sub-basin and neighbouring sub-basins of the same age (İskenderun-Arsus-İA, Hatay-Samandağ-HS) are located near the triple junction of the Anatolian, African and Arabian plates in the easternmost part of the Mediterranean region, (Bay of İskenderun, southeastern Turkey). These sub-basins are surrounded by the Misis Uplift to the west, the Taurus Mountains to the north, the Amanos Uplift to the east and the Karataş-Osmaniye Fault, a segment of the East Anatolian Strike-Slip Fault, to the southwest. Strike-slip tectonics strongly affected Neogene and pre-Neogene sediments of the area. The first marine transgression took place in the Middle Miocene that resulted in the deposition of patch reefs with minor siliciclastic input in the local lagoons and shoals. Shallow shelf areas over the topographic highs provided suitable hard substratum for the colonization by corals and other reef builders. The patch reefs, i.e., the Horu Formation, mainly comprise reef cores and flanks. The reef cores are lenticular, massive bodies characterized by corals in in situ growth positions that are of thin to thick branching, massive domal and platy morphologies, while reef flanks and peri-reefal areas are mainly composed of reworked coral blocks and bedded biogenic limestones. In the early Late Miocene, the reefs prograded across the shelf margin due to sea level rise and then were gradually replaced by deltaic sediments (Kızıldere Formation). The early phase of deltaic deposition is represented by vertical and lateral transitions with lagoon-estuary sedimentary systems and small-scale Ostrea reefs associated with carbonate and siliciclastic interbeds. The most important controlling factors for the sedimentation in these sub-basins were antecedent topography, clastic input, sea level changes and syn-sedimentary tectonics.

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References

  • Aksoy E, Turkmen M, Turhan M (2005) Tectonic and sedimentation in convergent margin basins: an example from the Tertiary Elazığ basin, Eastern Turkey. J Asian Earth Sci 25:459–472

    Google Scholar 

  • Aksu AE, Calon TJ, Hall J, Yasar D (2005) Origin and evolution of the Neogene Iskenderun Basin, northeastern Mediterranean Sea. Mar Geol 221:161–187

    Google Scholar 

  • Allen GP (1971) Relationship between grain size parameter, distribution and current pattern in the Gironde estuary (France). J Sediment Petrol 41:74–88

    Google Scholar 

  • Bassant P, Van BFSP, Strasser A, Gorur N (2005) The stratigraphic architecture and evolution of the Burdigalian carbonate-siliciclastic sedimentary systems of the Mut Basin, Turkey. Sediment Geol 173:187–232

    Google Scholar 

  • Benito MI, Mas R (2006) Sedimentary evolution of the Torrecilla Reef Complex in response to tectonically forced regression (Early Kimmeridgian Northern Spain). Sediment Geol 83:31–49

    Google Scholar 

  • Boulton SJ (2009) Record of Cenozoic sedimentation from the Amanos Mountains. Southern Turkey: implications for the inception and evolution of the Arabia–Eurasia continental collision. Sediment Geol 216:29–47

    Google Scholar 

  • Boulton SJ, Robertson AHF (2007) The Miocene of the Hatay area, S Turkey: transition from the Arabian passive margin to an underfilled foreland basin related to closure of the southern Neotethys Ocean. Sediment Geol 198:93–124

    Google Scholar 

  • Boulton SJ, Whittaker AC (2009) Quantifying the slip rate, special distribution and evolution of active normal faults from geomorphic analysis: field examples from an oblique-extensional graben, southern Turkey. Geomorphology 104:299–316

    Google Scholar 

  • Boulton SJ, Robertson AHF, Unlugenc UC (2006) Tectonics and sedimentary evolution of Cenozoic Hatay graben southern Turkey: a two phase foreland basin then transtensional basin model. In: Robertson AHF, Mountrakis D (eds) Tectonic development of the eastern Mediterranean region. Geological Society, London Special Publication, vol 260, pp 613–634

  • Boulton SJ, Robertson AHF, Ellam RM, Şafak Ü, Ünlugenç UC (2007) Strontium isotopic and micropalaeontological dating used to redefine the Cenozoic stratigraphy of the Neotectonic Hatay Graben, southern Turkey. Turk J Earth Sci 16:141–180

    Google Scholar 

  • Braga JC, Jimenez AP, Martin JM, Rivas P (1996) Middle Miocene coral-oyster reefs, Murchas, Granada, southern Spain. In: Franseen ER, Esteban M, Ward WC, Rouchy JM (eds) Models for carbonate stratigraphy from Miocene reef complexes of Mediterranean region. Concept in sedimentology and paleontology series, V.5. SEPM, Tulsa, pp 131–139

    Google Scholar 

  • Bridges RA, Castle JW (2003) Local and regional tectonic control on sedimentology and stratigraphy in a strike slip basin: Miocene Temblor Formation of the Colinga area, California, USA. Sediment Geol 158:271–297

    Google Scholar 

  • Chappel JMA (1980) Coral morphology, diversity and growth. Nature 286:249–252

    Google Scholar 

  • Cronin CT, Gurbuz K, Hurst A, Satur N (2000) Vertical and lateral organization of a deep-water slope marginal to a submarine fan system, Miocene, southern Turkey. Sedimentology 47:801–824

    Google Scholar 

  • Dame RF (1996) Echology of Marine Bivalves: an echosystem approach. CRC Press, Inc., Boca Raton 277

    Google Scholar 

  • Derman S (1998) Characteristics of downlapping beds along a maximum flooding surface in a Miocene sequence, B. Koraş village Karaman Turkey. In: Proceedings of the 12th International Petroleum Congress and Exhibition of Turkey, pp 217–228

  • Dewey JF, Hempton MR, Kidd WSF, Şaroglu F, Şengor AMC (1986) Shortening of continental lithosphere: the neotectonics of eastern Anatolia—a young collision zone. In: Coward MP, Ries AC (eds) Collision tectonics. Geological Society Special Publication, vol 19, pp 3–36

    Google Scholar 

  • Evamy BD, Shearman DJ (1965) The development of overgrowths from echinoderm fragments. Sedimentology 5:211–233

    Google Scholar 

  • Fernandez J, Rodriguez JF (1991) Facies evolution of nearshore marine clastic deposits during the Tortonian transgression-Granada Basin, Betic Cordilerras, Spain. Sediment Geol 71:5–21

    Google Scholar 

  • Follows EJ, Robertson AF, Scoffin TP (1996) Tectonic controls on Miocene reefs and related carbonate facies in Cyprus. Models for carbonate stratigraphy from Miocene reef complexes of Mediterranean regions. Concept in sedimentology v.5 SEPM (Society For Sedimentary Geology), pp 295–315

  • Fournier F, Montaggioni L, Borgomano J (2004) Paleoenvironments and high-frequency cyclicity from Cenozoic South-East Asian shallow water carbonates: a case study from the Oligo-Miocene buildups of Malampaya (Offshore Palawan Philippines). Mar Pet Geol 21:1–21

    Google Scholar 

  • Fournier F, Borgomano J, Montaggioni LF (2005) Development patterns and controlling factors of Tertiary carbonate buildups: insights from high-resolution 3D seismic and well data in the Malampaya gas field (Offshore Palawan, Philippines). Sediment Geol 175:121–189

    Google Scholar 

  • Franseen EK, Esteban M, Wards WC, Rouchy JM (1996) Models for Carbonate stratigraphy from Miocene reef complexes of the Mediterranean regions. SEPM concepts in sedimentology and paleontology v.5

  • Gökçen SL, Kelling G, Gökçen N, Floyd PA (1988) Sedimentology of a Late Cenozoic collisional sequence: the Misis complex, Adana, southern Turkey. Sediment Geol 59:205–235

    Google Scholar 

  • Görür N (1992) A tectonically controlled alluvial fan which developed into a marine fan-delta at a complex triple junction: Miocene Girdili Formation at the Adana Basin, Turkey. Sediment Geol 81:243–252

    Google Scholar 

  • Gül M (2007) Effect of antecedent topography on reef carbonate deposition: early–Middle Miocene of the Adana Basin, S Turkey. J Asian Earth Sci 31:18–34

    Google Scholar 

  • Gül M, Eren M (2003) The sedimentary characteristics of Dagpazari patch reef (Middle Miocene Mut-Icel Turkey). Carbonates Evaporites 18(1):51–62

    Google Scholar 

  • Hancock Pl, Baraka AA (1980) Plio-Pleistocene reversal of displacement on North Anatolian Fault Zone. Nature 286:591–594

    Google Scholar 

  • Heckel PH (1972) Recognition of ancient shallow marine environments. In: Rigby JK, Hamblin WK (eds) Recognition of ancient sedimentary environments. Soc Econ Palaeontol Mineralog Spec Publ, vol 16, pp 226–286

    Google Scholar 

  • Huang W, Jones WK, Wu TS (2002) Modelling wind effects on subtidal salinity in Apalachiola Bay, Florida. Estuar Coast Shelf Sci 55:33–46

    Google Scholar 

  • Ikram M (2009) Sedimentology of Miocene reefs in the Osmaniye-İskenderun subbasin, Eastern Mediterranean, SE Turkey. Ph.D thesis, Ankara University, Turkey

  • Ikram M, Varol B (2008) Neogene reefal limestones and delta-estuary sediments and their significance in Basin Architecture, Osmaniye-Bahçe sub-basin southeastern Turkey. SDGG, Heft 58-Abstr Vol-26th IAS Reg Meet/SEPM-CES SEDIMENT 2008, Bochum, Germany

  • Ikram M, Varol B (2009) Depositional facies and sequence stratigraphy of middle Miocene carbonates in the Iskenderun area (SE Turkey). 27th IAS Meeting of Sedimentologist. Alghero (Italy). Medimond International Proceedings, pp 135–139

  • Ikram M, Varol B (2010) Contrasting depositional style of mixed carbonates–siliciclastics and evaporates bearing Neogene sequence of three distinct sedimentary sub-basins of Gulf of Iskenderun, eastern Mediterranean region SE Turkey. PAPG/SPE Annual Technical Conference Islamabad, Pakistan, pp 49–64

  • Insalaco E, Hallam A, Rosen B (1997) Oxfordian (Upper Jurassic) coral reefs in western Europe; reef types and conceptual depositional models. Sedimentology 44:707–734

    Google Scholar 

  • James NP, Ginsburg RN (1979) The seaward margin of Belize Barrier and Atoll reefs. Spec Publ Int Assoc Sediment, vol 3, p 191

  • Karabıyıkoğlu M, Çiner A, Monod O, Deynoux M, Tuzcu S, Örcen S (2000) Tectono-sedimentary evolution of the Miocene Manavgat basin western Taurides, Turkey. Geological Society, London Special Publication, vol 173, pp 271–294

  • Karabıyıkoğlu M, Tuzcu S, Çiner A, Deynoux M, Örcen S, Hakyemez A (2005) Facies and environmental setting of the Miocene coral reefs in the late orogenic fill of the Antalya Basin, western Taurides, Turkey: implication for tectonic control and sea-level changes. Sediment Geol 17:345–371

    Google Scholar 

  • Kelling G, Gökçen SL, Floyd PA, Gökçen N (1987) Neogene tectonics and plate convergence in the eastern Mediterranean: new data from southern Turkey. Geology 15:425–429

    Google Scholar 

  • Kelling G, Robertson AHF, Buchem VF (2005) Cenozoic sedimentary basins of southern Turkey: an introduction. Sediment Geol 173:1–13

    Google Scholar 

  • Kempler D, Garfunkel Z (1994) Structures and kinematics in the northeastern Mediterranean: a study of an irregular plate boundary. Tectonophysics 234:19–32

    Google Scholar 

  • Kozlu H (1982) Geology and petroleum possibilities of the Iskenderun basin (SE Turkey) Turkish Petroleum Company (TPAO) Report no. 1921, pp 69 (in Turkish)

  • Kozlu H (1997) Tectono-stratigraphic units of the Neogene basins (Iskenderun, Misis-Andirin) and their tectonic evolution in the eastern Mediterranean region. Unpublished PhD thesis, Natural Science Institute, Cukurova University Adana Turkey (in Turkish)

  • Longman MW (1980) Carbonate diagenetic textures from near surface diagenetic environments. Am Assoc Pet Geo Bull 64:461–487

    Google Scholar 

  • Montaggioni LF (2005) History of Indo-Pacific coral reef systems since the last glaciation: development patterns and controlling factors. Earth Sci Rev 71:1–75

    Google Scholar 

  • Naz H, Kozlu H, Demirkol C (1998) Common Neogene Sedimentary architecture in the Adana and Manavgat Basin successions. In: Proceedings of 12th International Petroleum Congress and Exhibition of Turkey, Abstr 214

  • Over S, Özden S, Yilmaz H (2004) Late Cenozoic stress evolution along the Karasu Valley, SE Turkey. Tectonophysics 380:43–68

    Google Scholar 

  • Pomar L (1991) Reef geometries, erosion surfaces and high frequency sea-level changes, upper Miocene reef vomplex, Mallorca, Spain. Sedimentology 38:243–269

    Google Scholar 

  • Pomar L (1994) Response of a late Miocene Mediterranean reef platform to frequency eustasy. Geology 22:131–134

    Google Scholar 

  • Pomar L (2001) Ecological control of sedimentary accommodation: evolution from a carbonate ramp to rimmed shelf, Upper Miocene, Balearic Islands. Palaeogeogr Palaeoclimatol Palaeoecol 175:249–272

    Google Scholar 

  • Pufahl PK, James NP (2006) Monospecific Pliocene oyster buildups, Murray basin, South Australia: Brackish water end member of the reef spectrum. Paleogeogr Paleoclimatol Paleoecol 233:11–33

    Google Scholar 

  • Riding R, Martin JM, Braga JC (1991) Coral-Stromatolite reef framework, Upper Miocene, Almeria, Spain. Sedimentology 38:799–818

    Google Scholar 

  • Riegl B, Piller WE (1997) Distribution and environmental control of coral assemblages in the northern Safaga Bay (Red Sea, Egypt). Facies 36:141–162

    Google Scholar 

  • Riegl B, Piller WE (2000) Reef and coral carpet in the Miocene paratethys (Badenian, Leitha Limestone, Austria). In: Proceedings 9th International Coral Reef Symposium, vol 1. Bali, Indonesia, pp 23–27

  • Robertson AHF (2000) Mesozoic-Tertiary tectonic-sedimentary evolution of south Tethayn oceanic basin and its margins in the southern Turkey. In: Bozkurt, E, Winchester, JA, Piper JD (eds) Tectonics and magmatism in Turkey and the surrounding area. Geological Society, London, Special Publications, vol 173, pp 43–82

  • Robertson AHF, Dixon E (1984) Introduction: aspects of the geological evolution of the eastern Mediterranean. In: Dixon JE, Robertson AHF (eds) The geological evolution of the Eastern Mediterranean, 17 Geological Society London Special Publication, pp 1–74

    Google Scholar 

  • Robertson AHF, Eaton S, Follows EJ, Mc Collum JE (1991) The role of local tectonics versus global sea-level change in the Neogene evolution of the Cyprus active margin. Spec Publ Int Assoc Sedimentol, vol 12, pp 331–369

  • Selçuk H (1985) Geology and geodynamic evolution of the around Kizildag-Keldag-Hatay. General Directorate of Mineral Research and Exploration (MTA Report No. 7787, 83, Ankara (in Turkish)

  • Şengör AMC, Yilmaz Y (1981) Tethyan evolution of Turkey: a plate tectonic approach. Tectonophysics 75:181–241

    Google Scholar 

  • Strasser A, Strohmenger S (1997) Early diagenesis in the Pleistocene coral reefs, southern Sinai, Egypt; response to tectonics, sea level and climate. Sedimentology 44:537–558

    Google Scholar 

  • Tekin E, Varol B, Ayyildiz T (2006) Sedimentology of the Messinian (Upper Miocene) evaporates in the Iskenderun Basin. In: 59th Geological Congress of Turkey, MTA Ankara, pp 191–192 (with English abstract)

  • Tekin E, Varol B, Ayyildiz T (2010) Sedimentology and paleoenvironmental evolution of Messinian evaporates in the Iskenderun–Hatay basin complex, Southern Turkey. Sediment Geol 229:282–298

    Google Scholar 

  • Vennin E, Rouchya JM, Chaixb C, Blanc-Vallerona MM, Carusoc A, Rommevaua V (2004) Paleoecological constraints on reef-coral morphologies in the Tortonian-early Messinian of the Lorca Basin, SE Spain. Palaeogeogr Palaeoclimatol Palaeoecol 312:163–185

    Google Scholar 

  • Watts RW, Ridding R (2000) Growth of rigid high-relief patch reefs, Mid-Silurian, Gotland, Sweden. Sedimentology 47:979–994

    Google Scholar 

  • Yilmaz Y (1993) New evidence and model on the evolution of the southeast Anatolian orogen. Geol Soc Am Bull 105:251–271

    Google Scholar 

Download references

Acknowledgments

This paper is the part of first author’s Ph.D thesis which has been undertaken at the Department of Geological Engineering Ankara University School Graduates of Natural and Applied Sciences Tandoğan Ankara, Turkey. These studies have been conducted under the Cultural Exchange Scholarship Programme between the Ministry of Education Government of Pakistan and the Government of Turkey. Financial assistance was provided by TÜBİTAK (Turkish Scientific, Technical and Research Council) under Project No: 104 Y 336. Co-operation of Dr. Erdoğan TEKİN and Dr. Turhan AYYILDIZ during field studies and technical discussion is highly appreciated. We thank Sevim Tuzcu (MTA) who generously helped us during determination of coral specimen. Moreover, special thanks to Turkish Scientific, Technical and Research Council (TÜBİTAK) for awarding a scholarship under 2215-Ph.D scholarship programme for foreign students. The authors also wish to thank the reviewer, Sarah Boulton, for her guidance and probing questions.

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Ikram, M., Varol, B. Neogene reefal limestones and their significance in the basin architecture, Osmaniye-Bahçe and neighbouring sub-basins, SE Turkey. Carbonates Evaporites 26, 217–234 (2011). https://doi.org/10.1007/s13146-011-0060-7

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