Abstract
The role of pre-existing structures during the building of the Zagros fold-and-thrust belt is a matter of debate. The orientation of the pre-existing basement faults varies in different parts of the Zagros belt. Major directions of the basement faulting in the Arabian plate and Zagros are N–S, NE–SW, NW–SE and E–W. Reactivation of these inherited pre-existing faults occurred at the Cretaceous. In this study, analogue modelling was constructed to test the effect of various orientations of the pre-existing basement faults on the deformation style in the northern boundary of Dezful Embayment. The model consisted of sand layers that partly overlay a viscous layer of silicon above wooden plates. Model results explain the development of deflection in the deformation front and the incompatibility location of faults in the basement and surface. The presence of the basal décollement horizon between the basement and overlying sedimentary sequences separated faulting geometry in the basement from sedimentary cover. Model results suggest that the flexure of the Zagros Mountain Front Faults (ZMFF) in the north part of Dezful Embayment is resulted by reactivation of pre-existing Bala Rud fault (BRF) which is an oblique ramp. The close similarity between the major structures produced during the analogue experiments and those observed in nature, suggests that BRF as a pre-existing basement fault has a major role in the deformation of the structures in the study area.
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References
Agard P, Omrani J, Jolivet L, Mouthereau F (2005) Convergence history across Zagros (Iran): constraints from collisional and earlier deformation. Int J Earth Sci 94:401–419
Ahmadhadi F, Lacombe O, Daniel JM (2007) Early reactivation of basement faults in Central Zagros (SW Iran): evidence from pre-folding fracture populations in the asmari formation and lower tertiary paleogeography. In: Lacombe O, Lavé J, Vergés J, Roure F (eds) Thrust belts and foreland basins: from fold kinematics to hydrocarbon systems. Frontiers in earth sciences. Springer-Verlag, Berlin, pp 205–228
Alavi M (1994) Tectonics of Zagros Orogenic Belt of Iran: new data interpretation. Tectonophysics 229:211–238
Al-Husseini MI (2000) The Arabian INFRA-CAMBRIAN extensional system. Tectonophysics 148:93–103
Allen M, Talebian M (2011) Structural variation along the Zagros and the nature of the Dezful Embayment. Geol Mag 148(5–6):911–924
Allen MB, Saville C, Blanc EP, Talebian M, Nissen E (2013) Orogenic plateau growth: expansion of the Turkish–Iranian Plateau across the Zagros fold-and-thrust belt. Tectonophysics 32:171–190. https://doi.org/10.1002/tect.20025
Alsharhan AS, Nairn AEM (1997) Sedimentary basins and petroleum geology of the Middle East. Elsevier, Amsterdam, p 843
Apotria TG, William TS, John HS, David VW (1992) Kinematic models of deformation at an oblique ramp. In: McClay KR (ed) Thrust tectonics. Shell Development Company, Houston
Bahroudi A, Koyi H (2003) Effect of spatial distribution of Hormuz salt on deformation style in the Zagros fold and thrust belt: an analogue modelling approach. J Geol Soc Lond 160:719–733
Bahroudi A, Talbot CJ (2003) The configuration of the basement beneath the Zagros basin. J Pet Geol 26(3):257–282
Bellahsen N, Jolivet L, Lacombe O, Bellanger M, Boutoux A, Garcia S, Mouthereau F, Le Pourhiet L, Gumiaux C (2012) Mechanisms of margin inversion in the externalWestern Alps: implications for crustal rheology. Tectonophysics 560–561:62–83
Berberian M (1995) Master -blind- thrust faults hidden under the Zagros folds: active basement tectonics and surface morphotectonics. Tectonophysics 241:193–224
Berberian M, King GCP (1981) Towards 502 the paleogeography and tectonic evolution of Iran. Can J Earth Sci 18:210–265
Bonini M (2001) Passive roof thrusting and forelandward fold propagation in scaled brittle–ductile physical models of thrust wedges. J Geophys Res 106:2291–2311
Bordenave ML, Hegre JA (2005) The influence of tectonics on the entrapment of oil in the Dezful Embayment, Zagros fold belt, Iran. J Pet Geol 28:339–368
Costa E, Vendeville BB (2002) Experimental insights on the geometry and kinematics of fold and thrust belt above weak, viscous evaporitic de´collement. J Struct Geol 24(1729):1739
Borgh MM, Oldenhuis R, Biermann C, Smit JHW, Sokoutis D (2011) The effects of basement ramps on deformation of the Prebetics (Spain): a combined field and analogue modelling study. Tectonophysics 502:62–74
Brace WF, Kohlstedt DL (1980) Limits on lithosphere stress imposed by laboratory mexperiments. J Geophys Res 85:6248–6252
Byerlee J (1978) Friction of rocks. Pure Appl Geophys 116:615–625
Childs C, Watterson J, Walsh JJ (1995) Fault overlap zones within developing normal fault systems. J Geol Soc Lond 152:535–549
Cobbold PR, Rossello EA, Vendeville B (1989) Some experiments on interacting sedimentation and deformation above salt horizons. Bull Soc Geol Fr 8:453–460
Cotton JT, Koyi HA (2000) Modelling of thrust fronts above ductile and frictional detachments: application to structures in the Salt Range and Potwar Plateau, Pakistan. Geol Soc Am Bull 112:351–363
Coulomb CA (1773) Essai sur une application des règles de maximis et minimis à quelques problèmes de statique relatifs à l'architecture. Mémoires de Mathématiques et de Physique Académie Royale des Sciences 7:343–382
Davy P, Cobbold PR (1991) Experiments on shortening of 4-layer model of continental lithosphere. Tectonophysics 188:1–25
Edgell HS (1991) Proterozoic salt basins of the Persian Gulf area and their role in hydrocarbon generation. Precambr Res 54:1–14
Edgell HS (1992) Basement tectonics of Saudi Arabia as related to oil field structures. In: Rickard MJ et al (eds) Basement tectonics, vol 9. Kluwer Academic Publishers, Amsterdam, pp 169–193
Edgell HS (1996) Salt tectonism in the Persian Gulf basin. In: Alsop GI, Blundell DJ, Davison I (eds) Salt Tectonics, vol 100. Geological Society London, Special Publication, London, pp 129–151
Emami H, Vergés J, Nalpas T, Gillespie P, Sharp I, Karpuz R, Blanc EP, Goodarzi MGH (2010) Structure of the Mountain Front Flexure along the Anaran anticline in the Pusht Kuh Arc (NW Zagros, Iran): insights from sand box models. In: Leturmy P, Robin C (eds) Tectonic and stratigraphic evolution of Zagros and makran during the Mesozoic-Cenozoic, vol 330. Geological Society London, Special Publication, London, pp 155–178
Engdahl ER, Jackson JA, Myers SC, Bergman EA, Priestley K (2006) Relocation and assessment of seismicity in the Iran region. Int J Geophys 167:761–778
Fakhari MD, Axen GJ, Horton BK, Hassanzadeh J, Amini A (2008) Revised age of proximal deposits in the Zagros foreland basin and implications for Cenozoic evolution of the High Zagros. Tectonophysics 451:170–185
Falcon NL (1969) Problems of the relationship 545 between surface structures and deep displacements illustrated by the Zagros range. In: Kent P, Satterhwaite GE, Spencer AM (eds) Time and place in orogeny, vol 3. Geologic Society London, Special Publications, London, pp 9–22
Falcon N (1974) Southern Iran: Zagros mountains. In: Spencer AM (ed) Mesozoic cenozoic orogenic belts: data for orogenic studies, vol 4. Geological Society, London, Special Publication, London, pp 199–211
Falcon NL (1961) Major earth-flexing in the Zagros Mountains of southwest Iran. Q J Geol Soc Lond 117:367–376
Farzipour-Saein A (2016) Folding style controlled by intermediate decollement thickness change in the Lurestan region (NW of the Zagros fold-and-thrust belt) using analogue models. Int J Earth Sci. https://doi.org/10.1007/s00531-016-1364-6
Farzipour-Saein A, Nilfouroushan F, Koyi H (2013) The effect of basement step/topography on the geometry of the Zagros fold and thrust belt (SW Iran): an analog modelling approach. Int J Earth Sci 102:2117–2135
Fossen H (2010) Structural geology. Cambridge University Press, Cambridge, p 481
Gaullier V, Brun JP, Guerin G, Leconu H (1993) Raft tectonics: the effects of residual topography below a salt de´collement. Tectonophysics 228:363–381
Hajialibeigi H, Alavi SA, Eftekharnezhad J, Mokhtari M, Adabi MH (2011) Signatures of the Bala Rud Deep Seated Fault Zone in Khushab Anticline, SW Iran: an integrated study. J Sci Islam Rep Iran 22:33–49
Henson FRS (1951) Observations on the 567 Geology and Petroleum Occurrences of the Middle East. In: 3rd World Petroleum Congress, The Hague, Proceedings, Section 1, pp 118–140
Hessami K, Koyi HA, Talbot CJ (2001) The significance of strike-slip faulting in the basement of the Zagros fold and thrust belt. J Pet Geol 24:5–28
Hubbert MK (1937) Theory of scale models as applied to geologic structures. Geol Soc Am Bull 48:1459–1520
International Institute of Seismology (2008) Study of Bala Rud Fault zone in north of the Dezful Embayment. Report (in Persian), p 500
Jahani S, Hassanpour J, Mohammadi-Firouz S, Letouzey J, Frizon de Lamotte D, Alavi A, Soleimany B (2017) Salt tectonics and tear faulting in the central part of the Zagros Fold577 and Thrust Belt Iran. Mar Pet Geol 86:426–446
Kent PE (1979) The emergent Hormuz salt plugs of southern Iran. J Pet Geol 2:117–144
Konert G, Afifi AM, Al-Hajri SA, De Groot K, Al Naim AA, Droste HJ (2001) Palaeozoic stratigraphy and hydrocarbon habitat of the Arabian plate. In: Downey MW, Threet JC, Morgan WA (eds) Petroleum provinces of the twenty first century, vol 74. American Association of Petroleum Geologists Bulletin Memorandum, New York, pp 483–515
Koyi AH, Jenyon MK, Petersen K (1993) The effect of basement faulting on diapirism. J Pet Geol 16:285–312
Koyi H, Nilfouroushan F, Hessami K (2016) Modelling role of basement block rotation and strike-slip faulting on structural pattern in cover units of fold-and-thrust belts. Geol Mag 153(5/6):827–844
Koyi HA, Vendeville BC (2003) The effect of decollement dip on geometry and kinematics of model accretionary wedges. J Struct Geol 25(9):1445–1450
Krantz RW (1991) Measurements of friction coefficients and cohesion for faulting and fault reactivation in laboratory models using sand and sand mixtures. Tectonophysics 188:203–207
Lacombe O, Bellahsen N (2016) Thick-skinned tectonics and basement-involved fold–thrust belts: insights from selected Cenozoic orogens. Geol Mag 153(5–6):763–810
Lacombe O, Mouthereau F (2002) Basement-involved shortening and deep detachment tectonics in forelands of orogens: Insights from recent collision belts (Taiwan, Western Alps, Pyrenees). Tectonics 21(4):1–12
Letouzey J, Colletta B, Vially R, Chermette JC (1995) Evolution of salt-related structures in compressional settings. In: Jackson MPA, Roberts DG, Snelson S (eds) Salt tectonics. A Global Perspective, vol 65. American Association of Petroleum Geologists Memoir, New York, pp 41–60
Letouzey J, Sherkati S (2003) Salt movement, Tectonic events and structural style, in the Central Zagros fold-and-thrust belt (Iran). In: American Association Petroleum Geology, Annual meeting (abstract)
Malekzade Z, Bellier O, Abbassi MR, Shabanian E, Authemayou C (2016) The effects of plate margin inhomogeneity on the deformation pattern within west-central Zagros Fold-and- Thrust Belt. Tectonophysics 693:304–326
McClay KR, Whitehouse PS, Dooley T, Richards M (2004) 3D evolution of fold and thrust belts formed by oblique convergence. Mar Pet Geol 21:857–877
McQuarrie N, Stock JM, Verdel C, Wernicke BP (2003) Cenozoic evolution of Neotethys and implications for the causes of plate motions. Geophys Res Lett 30(20):2036. https://doi.org/10.1029/2003GL017992,2003
McClusky S, Reilinger R, Mahmoud S, Ben Sari D, Tealeb A (2003) GPS constraints on Africa (Nubia) and Arabia plate motions. Geophys J 155:126–138
Merle O, Vendeville B (1995) Experimental modelling of thin-skinned shortening around magmatic intrusions. Bull Volcanol 57:33–43
Molinaro M, Leturmy P, Guezou JC, Frizon de Lamotte D (2005) The structure and kinematics of the south-eastern Zagros fold–thrust belt, Iran: from thin-skinned to thick-skinned tectonics. Tectonics. https://doi.org/10.1029/2004TC001633
Motiei H (1994) Stratigraphy of Zagros (in 610 Persian), report. Geological Survey of Iran, Tehran
Motiei H (1995) Petroleum geology of Zagros (in Farsi), vols. 1 and 2, Geological Survey of Iran, Tehran [in Persian]
Mouthereau F, Lacombe O, Vergés J (2012) Building the Zagros collisional orogen: timing, strain distribution and the dynamics of Arabia/Eurasia plate convergence. Tectonophysics 532:27–60
Mulugeta G (1988) Modelling the geometry of coulomb thrust wedges. J Struct Geol 10:847–859
O’ Brien CAE (1950) Tectonic problems of the oil field belt of southwest Iran. In: 18th International Geological Congress, Proceedings, Great Britain 6: 45–58
Oveisi B, Lave J, Van Der Beek P, Carcaillet J, Benedetti L, Aubourg C (2009) Thick- and thin-skinned deformation rates in the central Zagros simple folded zone (Iran) indicated by displacement of geomorphic surfaces. Geophys J Int 176:627–654
Pattinson R, Takin M (1971) Geological significance of Dezful embayment boundaries, IOOC, report No.1166 (Unpublished report)
Peters JMJ, Filbrandt J, Grotzinger J, Newall M, Shuster M, Al-Siyabi H (2003) Surfacepiercing Salt Domes of interior north Oman, and their significance of the Ara Carbonate ‘“Stinger”’ hydrocarbon play. GeoArabia 8:231–270
Ricou L, Braud J, Brunn JH (1977) Salt-sediment Interaction during Diapir Growth (AAPG Distinguished Lectures Abstracts)
Price NJ, Cosgrove JW (1990) Analysis of geological structures. Cambridge University Press, Cambridge
Ramberg H (1967) Gravity deformation and the earth’s crust, 1st. Academic Press, London
Sarkarinejad K, Ghanbarian MA (2014) The Zagros hinterland fold-and-thrust belt in632 sequence thrusting, Iran. J Asian Earth Sci 85:66–79
Sarkarinejad K, Razavi-Pash R, Motamedi H, Yazdani M (2017) Deformation and kinematic evolution of the subsurface structures: Zagros foreland fold-and-thrust belt, northern Dezful Embayment Iran. Int J Earth Sci. https://doi.org/10.1007/s00531017-1532-3
Scott B (1981) The Eurasian–Arabian and African continental margin from Iran to Greece. Geol Soc Lond 138:719–733
Sepehr M, Cosgrove JW (2004) Structural framework of the Zagros fold-thrust belt, Iran. Mar Pet Geol 21:829–843
Sepehr M, Cosgrove JW (2007) The role of major fault zones in controlling the geometry and special organization of structures in the Zagros fold-thrust belt. Geol Soc Lond 272:419–436
Sepehr M, Cosgrove JW, Moieni M (2006) The impact of cover rock rheology on the style of folding in the Zagros fold-and-thrust belt. Tectonophysics 427:265–281
Sharland PR, Archer R, Casey DM, Davies RB, Hall SH, Heward AP, Horbury AD, Simmons MD (2001) Arabian plate sequence stratigraphy, GeoArabia Special Publication 2, Gulf petro link, 371 p., with 3 charts
Sherkati S, Letouzey J (2004) Variation of structural style and basin evolution in the central Zagros (Izeh zone and Dezful Embayment), Iran. J Mar Pet Geol 21:535–554
Sherkati S, Molinaro M, Frizon-de-Lamotte D, Letouzey J (2005) Detachment folding in the Central and Eastern Zagros fold-belt (Iran): salt mobility, multiple detachments and late basement control. J Struct Geol 27(9):1680–1696
Sherkati S, Letouzey J, Frizon de Lamotte D (2006) The Central Zagros fold-thrust belt (Iran): new insights from seismic data, field observation and sandbox modelling. Tectonics. https://doi.org/10.1029/2004TC001766
Stern B (1985) The Najd fault system, Saudi Arabia and Egypt: a late Precambrian rift-related transform system? Tectonics 4(5):497–511
Stöcklin J (1968) Structural history and tectonics of Iran: a review. AAPG Bull 52:1229–1258
Talbot CJ (1992) Centrifuge models of Gulf of Mexico profiles. Mar Pet Geol 9:412–432
Talebian M, Jackson J (2002) Offset on the Main Recent Fault of NW Iran and implications for the late Cenozoic tectonics of the Arabia-Eurasia collision zone. Geophys J Int 150:422–439
Talebian M, Jackson J (2004) A reappraisal of earthquake focal mechanisms and active shortening in the Zagros mountains of Iran. Geophys J Int 156:506–526
Tavani S, Parente M, Puzone F, Corradetti A, Gharabeigli G, Valinejad M, Morsalnejad D, Mazzoli S (2018) The seismogenic fault system of the 2017 Mw 7.3 Iran-Iraq earthquake: constraints from surface and subsurface data, cross-section balancing, and restoration. Solid Earth 9:821–831
Vergés J, Goodarzi MH, Emami H, Karpuz R, Efstatiou J, Gillespie P (2011) Multiple detachment folding in Pusht-e Kuh Arc, Zagros. Role of mechanical stratigraphy. In: McClay K, Shaw J, Suppe J (eds) Thrust fault related folding, vol 94. American Association of Petroleum Geologists Bulletin, New York, pp 69–94
Vernant P, Nilforoushan F, Haztfeld D, Abassi M, Vigny C, Masson F, Nankali H, Martinod J, Ashtiany A, Bayer R, Tavakoli F, Chéry J (2004) Contemporary crustal deformation and plate kinematics in Middle East constrained by GPS measurements in Iran and northern Iran. Geophys J Int 157:381–398
Weijermars R (1997) Flow behaviour and physical chemistry of bouncing putties and related polymers in view of tectonic laboratory application. Tectonophysics 124:325–358
Weijermars R, Jackson MPA, Vedeville BC (1993) Rheological and tectonic modelling of salt provinces. Tectonophysics 217:143–174
Weijermars R, Schmeling H (1986) Scaling of Newtonian and non-Newtonian fluid dynamics without inertia for quantitative modelling of rock flow due to gravity (including the concept of rheological similarity). Phys Earth Planet Inter 43:316–330
Acknowledgements
The authors would like to warmly thank reviewers (especially Prof. Joao Duarte) and editor (Prof. Dullo) for their constructive comments that greatly improved the manuscript. The authors are especially indebted to the institute of earth sciences for providing the experimental equipment. This research was supported by the Shiraz University Research Council (SURC) grant which is gratefully acknowledged.
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Razavi Pash, R., Sarkarinejad, K., Sherkati, S. et al. Analogue model of the Bala Rud Fault, Zagros: an oblique basement ramp in a fold-and-thrust belt. Int J Earth Sci (Geol Rundsch) 110, 741–755 (2021). https://doi.org/10.1007/s00531-021-01987-0
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DOI: https://doi.org/10.1007/s00531-021-01987-0