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New stratigraphic data for the Lower Cretaceous Tirgan Formation, Kopet-Dagh Basin, NE Iran

  • Masoumeh Gheiasvand
  • Karl B. Föllmi
  • Annie Arnaud VanneauEmail author
  • Thierry Adatte
  • Jorge Spangenberg
  • Abbas Ghaderi
  • Ali Reza Ashouri
Review Paper
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Abstract

In this contribution, we describe a section through the Lower Cretaceous shallow-water platform sediments (Tirgan Formation) from the Kopet-Dagh basin (northern Tethys), which is located near Tirgan village, NE Iran. We used benthic foraminifera and planktonic organisms for biostratigraphy associated to the carbon isotope chemostratigraphy to constrain the age of the succession. Microfossils are grouped around the Feurtillia gracilis range zone (Upper Valanginian), the Campanellula capuensis range zone (Upper Hauterivian-Barremian), the Orbitolinid assemblage zone (Lower to Upper Aptian) and the Planktonic assemblage zone (Upper Aptian) as well as several genera and species are reported from the Kopet-Dagh for the first time (e.g., C. capuensis, Colomiella sp., Cuneolina composaurii, F. gracilis). The new biostratigraphic data allow us to date the lower part of the section as Berriasian (?), Valanginian, and Hauterivian, which is older than the age range previously assumed for the Tirgan Fm. (Barremian-Aptian). Our age determinations are consistent with those obtained by the carbonate carbon isotope chemostratigraphy and the resulting age model allows to assign a Berriasian (?)-Valanginian to Albian age to the Tirgan Fm. Furthermore, a prominent positive excursion near the base of the section can be correlated with the Weissert Episode, and likely also the Faraoni Episode is registered in this succession. The Tirgan Fm. displays an explicit onlap pattern to the west, which explains the diachrony in ages of the base of the formation. This suggests the effect of a long-term subsidence in the Kopet-Dagh during the Early Cretaceous, following the Cimmerian phase of orogenesis.

Keywords

Kopet-Dagh Basin Tirgan Formation Benthic foraminifera Carbon isotope 

Notes

Acknowledgments

This research was studied and written during a period of sabbatical. We appreciate the financial support of the Lausanne University and Association Dolomieu in Grenoble for hosting, studying and processing on the samples, and the Ferdowsi University of Mashhad for supplying field equipment and preparing some of the thin sections (Grant Number: 3/39088). We gratefully acknowledge Dr. Heinz Sulser for the determination of the brachiopods. The first author would like to thank Mehdi Hamdollahi and Roohollah Nikokalam, who assisted her during fieldworks, and the Ministry of Science in Iran where financed her stay at Lausanne. Furthermore, the constructive comments of an anonymous reviewer improved the quality of the paper significantly.

References

  1. Afshar-Harb A (1979) The stratigraphy, tectonics and petroleum geology of the Kopet Dagh region, Northern Iran: Doctoral Imperial College of Science and Technology, University of London, London. 316 pGoogle Scholar
  2. Arnaud-Vanneau A (1980) Micropaléontologie, paléoécologie et sédimentologie d'une plate-forme carbonatée de la marge passive de la Téthys : l'Urgonien du Vercors septentrional et de la Chartreuse (Alpes occidentales ). Géologie Alpine, v. Mémoire 11:1–874Google Scholar
  3. Arnaud-Vanneau A (2006) Biogeographic distribution of large shallow-water benthic foraminifers during the Early Cretaceous. Anu ario do Instituto de Geociências 29 (1) (Forams 2006). 694 pGoogle Scholar
  4. Arnaud-Vanneau A, Arnaud H (2005) Carbonate facies and microfacies of the lower cretaceous carbonate platforms. In: Adatte T, Arnaud-Vanneau A, Arnaud H, Blanc-Alétru M-C, Bodin S, Carrio-Schaffhauser E, Föllmi KB, Godet A, Raddadi MC, Vermeulen J (Eds.), The Hauterivian-Lower Aptian sequence stratigraphy from Jura platform to Vocontian Basin: a multidisciplinary approach, Géologie alpine Série Spéciale “Colloques et excursions” N7. Pp. 39-68Google Scholar
  5. Arnaud-Vanneau A, Sliter WV (1995) Early cretaceous shallow-water benthic foraminifers and fecal pellets from leg 143 compared with coeval faunas from the Pacific Basin, Central America, and the Tethys. In: proc. ODP, Sci. Results, 143 (Eds. Winterer EL, Sager WW, Firth JV, Sinton JM), College Station. pp. 537–564Google Scholar
  6. Berberian M, King GCP (1981) Toward a palaeogeography and tectonic evolution of Iran. Can J Earth Sci 18:210–265CrossRefGoogle Scholar
  7. Bonet F (1956) Zonificación Microfaunistica de las Calizas Cretácicas del Este de México. Bol Asoc Mex Geol Petr 8:389–488Google Scholar
  8. Bonvallet L (2015) Evolution of the Helvetic shelf (Switzerland) during the Barremian-eArly Aptian: paleoenvironmental, paleogeographic and paleoceanographic controlling factors. PhD thesis, University of Lausanne, Lausanne. 333 pGoogle Scholar
  9. Bruni R, Bucur II, Preat A (2007) Uppermost Jurassic-Lower Cretaceous carbonate deposits from Fara San Martino (Maiella, Italy): biostratigraphic remarks. Studia UBB, Geologia 52(2):45–54CrossRefGoogle Scholar
  10. Bucur II, Majidifard MR, Senowbari-Daryan B (2013a) Early Cretaceous calcareous benthic microfossils from the eastern Alborz and western Kopet Dagh (northern Iran) and their stratigraphic significance. Acta Palaeontologica Romaniae 9(1):23–37Google Scholar
  11. Bucur II, Rashidi K, Senowbari-Daryan B (2012) Early Cretaceous calcareous algae from Central Iran (Taft formation, south of Aliabad, near Yazd). Facies 58:605–636CrossRefGoogle Scholar
  12. Bucur II, Schlagintweit F, Wilmsen M, Fürsich FT, Majidifard MR (2013b) Lower cretaceous calcareous algae from the Khur area, Central Iran. In Missoni S, Gawlick H-J (Eds.), 7th European symposium on fossil algae, 9–11 September 2013, Abstract volume, Schladming. pp. 109–110Google Scholar
  13. Carević I, Taherpour Khalil Abad M, Obradovi DL, Vaziri SH, Mirkovi M, Aryaei AA, Steji P, Ashouri AR (2013) Comparisons between the Urgonian platform carbonates from eastern Serbia (Carpatho-Balkanides) and Northeast Iran (Kopet-Dagh Basin): depositional facies, microfacies, biostratigraphy, palaeoenvironments and palaeoecology. Cretac Res 40:110–130CrossRefGoogle Scholar
  14. Chiocchini M, Mancinelli A (1977) Microbiostratigrafia del Mesozoico in facies di piattaforma carbonatica dei Monti Aurunci (Lazio meridionale). Studi Geologici Camerti 3:109–152Google Scholar
  15. Claps M, Parente M, Neri C, Bosellini A (1996) Facies and cycles of the S. Giovanni Rotondo limestone (lower cretaceous, Gargano promontory, southern Italy): the Borgo Celano section. Annali dellÚniversità di Ferrara, 6 (supplimento). p. 5-35Google Scholar
  16. Davies GR, Smith Jr LB (2006) Structurally controlled hydrothermal dolomite reservoir facies: An overview: AAPG Bulletin v. 90. p. 1641–1690Google Scholar
  17. Davoudzadeh M (1997) Iran. In: Moores E. M, Fairbridge (Eds.), Encyclopedia of European and Asian Regional Geology, p. 384–404Google Scholar
  18. De Castro P (1964) Su di nuovo foraminifero del Cretacico inferiore dell'Appennino meridionale: Boll. Soc. Naturalisti di Napoli, v. LXXIII. pp. 55-61Google Scholar
  19. De Castro P (1965) Su alcune Soritidae (Foraminiferida) del Cretacico della Campania. Note stratigrafiche sul gruppo montuoso del Tifata. Bollettino della Società dei Naturalisti in Napoli 74:317–372Google Scholar
  20. Emmanuel L, Renard M (1993) Carbonate geochemistry (Mn, δ 13C, δ 18O) of the late Tithonian-Berriasian pelagic limestones of the Vocontian trough (SE France). Bull Cent Rech Explor Prod Elf Aquitaine 17:205–221Google Scholar
  21. Fekete K, Soták J, Boorová D, Lintnerová O, Michalík J, Grabowski J (2017) An Albian demise of the carbonate platform in the Manín unit (Western Carpathians, Slovakia). Geol Carpath 68(5):385–402CrossRefGoogle Scholar
  22. Föllmi KB, Godet A, Bodin S, Linder P (2006) Interactions between environmental change and shallow-water carbonate build-up along the northern Tethyan margin and their impact on the early cretaceous carbon-isotope record. Paleoceanography 21:PA4211CrossRefGoogle Scholar
  23. Föllmi KB, Weissert H, Bisping M, Funk H (1994) Phosphogenesis, carbon-isotope stratigraphy, and carbonate platform evolution along the lower cretaceous northern Tethyan margin. Geol Soc Am Bull 106:729–746CrossRefGoogle Scholar
  24. Godet A, Föllmi KB, Bodin S, De Kaenel E, Matera V, Adatte T (2010) Stratigraphic, sedimentological and palaeoenvironmental constraints on the rise of the Urgonian platform in the western Swiss Jura. Sedimentology, Wiley 57(4):1088–1125CrossRefGoogle Scholar
  25. Godet A, Hfaiedh R, Arnaud-Vanneau A, Zghal I, Arnaud H, Ouali J (2014) Aptian palaeoclimates and identification of an OAE1a equivalent in shallow marine environments of the southern Tethyan margin: evidence from southern Tunisia (Bir Oum Ali section, northern Chott chain). Cretac Res 48:110–129CrossRefGoogle Scholar
  26. Godet A, Bodin S, Föllmi KB, Vermeulen J, Gardin S, Fiet N, Adatte T, Zsolt B, Stüben D, Van de Schootbrugge B (2006) Evolution of the marine stable carbon-isotope record during the early cretaceous: a focus on the late Hauterivian and Barremian in the Tethyan realm, earth planet. Sci Lett 242:254–271Google Scholar
  27. Gradstein FM, Ogg JG, Smith AG (2004) A geologic time scale 2004, Cambridge Univ. Press, New York. 600 pGoogle Scholar
  28. Hennig S, Weissert H, Bulot L (1999) C-isotope stratigraphy, a calibration tool between ammonite and magnetostratigraphy: the Valanginian-Hauterivian transition, Geol. Carpathica, 50: 91–96Google Scholar
  29. Herrle JO, Kößler P, Friedrich O, Erlenkeuser H, Hemleben C (2004) High-resolution carbon isotope records of the Aptian to lower Albian from SE France and the Mazagan plateau (DSDP site 545), a stratigraphic tool for paleoceanographic and paleobiologic reconstruction, earth planet. Sci Lett 218:149–161Google Scholar
  30. Hosseini A, Conrad MA (2008) Calcareous algae, foraminifera and sequence stratigraphy of the Fahliyan formation at Kuh-e-Surmeh (Zagros Basin, SW of Iran). Geologia Croatica. 61:215–237Google Scholar
  31. Kilian W (1907) Kreide. Erste Abteilung: Unterkreide (Paleocrretacicum): Handbuch der Erdgeschichte für die Formationen bezeichdsten Versteinerungen, von einer Vereinigung von Geologen, v. II: Stuttgart, Fritz Frech. pp. 1–108Google Scholar
  32. Longoria JF (1972) Stratigraphic, morphologic and taxonomic studies of Aptian planktonic Foraminifera. PhD thesis, The University of Texas, Dallas. 478 pGoogle Scholar
  33. Longoria JF (1973) On the stratigraphic distribution of the Tintinnid genus Colomiella. Soc Geol Mexicana Bol 34:97–99Google Scholar
  34. Longoria JF, Gamper MA (1974) Albian planktonic foraminifera from the Sabinas Basin of northern Mexico. VI African Colloquium of Micropaleontology. Tunisia 28: 39–71Google Scholar
  35. Luperto Sinni E, Masse JP (1984) Données nouvelles sur la micropaléontologie et la stratigraphie de la partie basale du "Calcare di Bari" (Crétacé inférieur) dans la région des Murges (Italie méridionale). Riv Ital Paleontol Stratigr 90(3):331–374Google Scholar
  36. Luperto Sinni E, Masse JP (1986) Données nouvelles sur la stratigraphie des calcaires de plate-form du Crétacé inférieur du Gargano (Italie méridionale). Riv Ital Paleontol Stratigr 92:33–66Google Scholar
  37. Luperto Sinni E, Masse JP (1987) Données nouvelles sur la stratigraphie et la micropaléontologie des séries carbonatés de talus et de bassin du Crétacé inférieur du Gargano (Italiemé ridionale). Riv Ital Paleontol Stratigr 93:347–378Google Scholar
  38. Machel HG (2004) Concepts and models of dolomitization: a critical reappraisal, in Braithwaite CJR, Rizzi G, Darke G (Eds.), The geometry and petrogenesis of dolomite hydrocarbon reservoirs: geological society (London), Special publications. V. 235. pp. 7–63Google Scholar
  39. Macoin P, Schroeder R, Vila J-M (1970) Campanellula capuensis De Castro (Foram.), position systématique et répartition stratigraphique en Algérie. IV Colloque Africain de Micropaléontologie, Edité par le Comité de Publication du Colloque. pp. 248-262Google Scholar
  40. Masse JP, Arias C, Vilas L (1992) Stratigraphy and biozonation of a reference Aptian-Albian p.P. Tethyan carbonate platform succession: the sierra del Carche series (oriental Prebetic zone – Murcia, Spain).- Schriftenreihe der Erdwissenschaftlichen Kommission. Wien vol 9:201–221Google Scholar
  41. Masse JP, Villeneuve M, Leonforte E, Nizou J (2009) Block tilting of the north Provence early cretaceous carbonate margin: stratigraphic, sedimentologic and tectonic data. Bull Soc Geol France 180:105–115CrossRefGoogle Scholar
  42. Maync W (1958) Note sur Pseudocyclamina jaccardi et sa synonymie; Revue Micropal., v.1, n.1. pls. 1–2. pp. 9–16Google Scholar
  43. Mehrnusch M (1973) Eine Orbitoliniden-Fauna aus der Unterkreide von Esfahan (Zentral-Iran). N Jb Geol Paläont Mh 6:374–382Google Scholar
  44. Moullade M, Kuhnt W, Bergen JA, Masse JP, Tronchetti G (1998) Correlation of biostratigraphic and stable isotope events in the Aptian historical stratotype of La Bedoule (Southeast France), C. R. Acad. Sci., Ser. IIa Sci. Terre Planetes 327:693–698Google Scholar
  45. Neagu T, Cîrnaru P (2002) New species of Ammomarginulina and Feurtillia in the lower cretaceous deposits from Cernavoda-Aliman area. Southern Dobrogea, Romania Studia Universitatis Babes-Bolyai, Geologia 1:245–254Google Scholar
  46. Radulović B, Motchurova-Dekova N, Radulović V (2007) New Barremian rhynchonellide brachiopod from Serbia and the shell microstructure of Tetrarhynchiidae. Acta Palaeontol Pol 52(4):761–782Google Scholar
  47. Raisossadat SN (2006) Theammonite familyParahoplitidae in the Sanganeh formation of the Kopet Dagh Basin, North-Eastern Iran. Cretac Res 27:907–922CrossRefGoogle Scholar
  48. Robert A, Kavoosi MA, Sherkati S, Müller C, Vergés J, Aghababaei A (2014) Structural evolution of the Kopet Dagh fold-and-thrust belt (NE Iran) and interactions with the South Caspian Sea Basin and Amu Darya Basin. Mar Pet Geol 57:68–87CrossRefGoogle Scholar
  49. Rosenbaum G, Lister GS, Duboz C (2004) Mesozoic and Cenozoic motion of Adria (Central Mediterranean): a review of constraints and limitations. Geodin Acta 17:125–139CrossRefGoogle Scholar
  50. Schlagintweit F (2011) The dasycladalean algae of the Plassen carbonate platform (Kimmeridgian-Early Berriasian): taxonomic inventory and palaeogeographical implications within the platform-basin system of the northern calcareous Alps (Austria, p.P. Germany). Geologia Croatica 64(3):185–206CrossRefGoogle Scholar
  51. Schlagintweit F, Ebli O (1999) New results on microfacies, biostratigraphy and sedimentology of Late Jurassic-Early cretaceous platform carbonates of the northern calcareous Alps. Abh Geol Bundesanst 56:379–418Google Scholar
  52. Schroeder R (1964) Orbitoliniden-Biostratigraphie des Urgons nordöstlich von Teruel (Spanien). – N. Jb. Geol. Paläont. Mh. Stuttgart 8:462–474Google Scholar
  53. Schroeder R (1965) Dictyoconus pachymarginalis n.sp. aus dem Apt des Elburz-Gebirges (Nord-Iran) (Studien über primitive Orbitolinidae III).- Eclogae Geologiace Helvetiae, Basel, v. 58, n. 2. pp. 976–979Google Scholar
  54. Schroeder R, CLavel B, Cherchi A, Busnardo R, Charollais J, Decrouez D (2002) Lignées phylétiques d’Orbitolinidés de l’intervalle Hauterivien supérieur-Aptien inférieur; leur importance stratigraphique. – Rev. Paléobiol., 21/2. Genève. pp. 853-863Google Scholar
  55. Smirnova TN (2012) Early cretaceous Rhynchonellids of Dagestan: system, morphology, stratigraphic and Paleobiogeographic significance. Paleontol J 46(11):1197–1296CrossRefGoogle Scholar
  56. Spangenberg JE, Bagnoud-Velásquez M, Boggiani PC, Gaucher C (2014) Redox variations and bioproductivity in the Ediacaran: evidence from inorganic and organic geochemistry of the Corumbá group, Brazil. Gondwana Res 26:1186–1207CrossRefGoogle Scholar
  57. Stein M, Westermann S, Adatte T, Matera V, Fleitmann D, Spangenberg JE, Föllmi KB (2012) Late Barremian–Early Aptian palaeoenvironmental change: the cassis-La Bédoule section, southeast France: Cretaceous Research v. 37. pp. 209–222CrossRefGoogle Scholar
  58. Stampfli GM, Borel GD (2004) The transmed transects in space and time: constraints on the paleotectonic evolution of the Mediterranean domain. In: Cavazza W, Roure FM, Spakman W, Stampfli GM, Ziegler PA (eds) The Transmed atlas—the Mediterranean region from crust to mantle. Springer, Berlin, pp 53–80CrossRefGoogle Scholar
  59. Stöcklin J (1968) Structural history and tectonics of Iran: a review. Am Assoc Pet Geol Bull 52(7):1229–1258Google Scholar
  60. Stöcklin J (1974) Possible ancient continental margins in Iran. In: Burk CA, Drake CL (eds) The geology of continental margins. Springer-Verlag, New York, pp 873–887CrossRefGoogle Scholar
  61. Sulser H, Friebe G, Kürsteiner P (2013) Little-known brachiopods from the cretaceous of the Helvetic realm of NE Switzerland (Alpstein) and W Austria (Vorarlberg). Swiss J Geosci 106:397–408CrossRefGoogle Scholar
  62. Taherpour Khalil Abad M, Conrad MA, Aryaei AA, Ashouri AR (2010) Barremian-Aptian Dasycladalean algae, new and revisited, from the Tirgan formation in the Kopet Dagh. NE Iran. Carnets Géol/Notebooks Geol, Art, pp 1–13Google Scholar
  63. Taherpour Khalil Abad M, Schlagintweit F, Vaziri SH, Aryaei AA, Ashouri A. R (2013) Balkhania balkhanica Mamontova, 1966 (benthic foraminifera) and Kopetdagaria sphaerica Maslov, 1960 (dasycladalean alga) from the lower cretaceous Tirgan formation of the Kopet Dagh mountain range (NE Iran) and their paleobiogeographic significance. Facies 59 (1): 267–285CrossRefGoogle Scholar
  64. Tasli K (2001) Benthic Foraninifera of the upper Jurassic platform carbonate sequence in the Aydɪncɪk (İçel) area, central Taurides, S Turkey. Geologia Croatica 54(1):1–13Google Scholar
  65. Van de Schootbrugge B, Föllmi KB, Bulot LG, Burns SJ (2000) Paleoceanographic changes during the early cretaceous (Valanginian-Hauterivian): evidence from oxygen and carbon stable isotopes, earth planet. Sci Lett 181:15–31Google Scholar
  66. Wilmsen M, Fürsich FT, Seyed-Emami K, Majidifard MR, Taheri J (2009) The Cimmerian orogeny in northern Iran: tectonostratigraphic evidence from the foreland. Terra Nova 21:211–218CrossRefGoogle Scholar

Copyright information

© Saudi Society for Geosciences 2019

Authors and Affiliations

  • Masoumeh Gheiasvand
    • 1
  • Karl B. Föllmi
    • 2
  • Annie Arnaud Vanneau
    • 3
    Email author
  • Thierry Adatte
    • 2
  • Jorge Spangenberg
    • 4
  • Abbas Ghaderi
    • 1
  • Ali Reza Ashouri
    • 1
  1. 1.Department of Geology, Faculty of SciencesFerdowsi University of MashhadMashhadIran
  2. 2.Institute of Earth SciencesUniversity of LausanneLausanneSwitzerland
  3. 3.Association DolomieuGrenobleFrance
  4. 4.Institute of Earth Surface DynamicsUniversity of LausanneLausanneSwitzerland

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