Abstract
A structural and geodynamic evolution of central Tunisia is constructed from field studies and geophysical data within the Tunisian Atlassic domain. Bouguer gravity and horizontal gradient magnitude (HGM) maps indicate that computed anomalies are related to subsurface structures and are in accordance with the general structural trends of central Tunisia. Near Cherichira fault, the strike is ENE–WSW, whereas it is N–S along the N–S axis, a major discontinuity between the Pelagian shelf to the east and Central Atlas Mountains to the west. E–W-oriented HGM profiles on the north side of the Cherichira fault show moderate HGM variations, which correspond to the NE–SW fault system of the Ousselet–Bou Dabbous. This trend is also expressed by the second-order vertical derivative map of this area. However, on the south side of the fault, a dominant peak is indicated rather than the anomalies characteristic of the north side of the fault. This anomaly is associated with the N–S axis discontinuity. Seismic reflection data are also used to elucidate the structural configuration and style north and south of the Cherichira fault. The seismic lines demonstrate that faulting and associate halokinesis in Ousselet–Bou Dabbous area are not comparable to the paleogeographic fault system of the N–S axis southward. To the south of Cherichira fault, the seismic lines show massive Triassic evaporates piercing along the major paleogeographic faults associated with thickness variations of Mesozoic and Cenozoic stratigraphic units and a reverse slip of western structural elements. It seems that the N–S axis corresponds to a steeply dipping major zone of weakness in the Tunisian Atlassic Mountains and indicates evidence of several stages of activity, including the rise of Triassic evaporates rise up which outcrop at several localities such as Rheouis and Mezzouna. The loading and upward rise of Triassic evaporites along this weak zone are a key factor in the thinning of the Mesozoic–Cenozoic sedimentary cover along this paleogeographic discontinuity. These new data indicate the northeast extrapolation of fold and grabens of the Central Atlas of Tunisia to the northeast of Kairouan, whereas the northern extent of the N–S axis is limited to south of the Cherichira fault. The Cherichira fault is NE–SW oriented and parallels the Ballouta–Zaghouan fault system, which reflects the regional strike of the Tellian orogeny and the associated nappes to the north. The geometry and kinematics of these Tellian features are linked to the tectonic evolution of the northern African margin, including Mesozoic extension separating the African and European plates to the inversion of these structures since the Late Cretaceous. The N–S axis is correlated in its direction and tectonic framework to the strike-slip fault system of the African craton, which is present to the south in the Algerian Saharan domain of Hoggar.
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References
Abbes C (2004) Structurations et évolutions tectono-sédimentaires mésozoïques et cénozoïques, associées aux accidents reghmatiques, à la jonction des marges téthysiennes et nord-africaine (chaîne Nord-Sud-Tunisie centrale). Thesis Es sciences, Tunis II University, 435 pp
Abbes C, Boukadi N (1988) Sur la chaîne N–S de la Tunisie centrale et ces infléchissements d’axe. Analyse des déformations du nœud tectonique du jebel Ech Chérichira: coulissement, blocage et rotation. C R Acad Sci Paris (série II) 307:1277–1282
Abbes C, Turki MM, Truillet R (1981) Un élément structural nouveau dans l’Atlas tunisien: le contact tangentiel décakilométrique à vergence ouest des jebels Ousselet et Bou Dabbous («axe» Nord-Sud-Tunisie). C R Acad Sci Paris (série II) 292:473–476
Ben Ayed N (1986) Evolution tectonique de l’avant-pays de la chaîne alpine de la Tunisie du début du Mésozoïque à l’Actuel. Thesis Es Sciences, Paris Sud University, Orsay, 347 pp
Benaouali-Mebarek N, Frizon de Lamotte D, Roca E, Bracène R, Faure JL, Sassi W, Roure F (2006) Post-Cretaceous kinematics of the Atlas and Tell systems in central Algeria: early foreland folding and subduction-related deformation. C R Geosci 338:115–125. doi:10.1016/j.crte.2005.11.005
Blakely RJ (1995) Potential theory in gravity and magnetic applications. Cambridge University Press, New York
Boccaletti M, Cello MG, Tortorici L (1988) Structure and tectonic significance of the north–south axis of Tunisia. Ann Tecton II 1:12–20
Bouaziz S, Barrier E, Soussi M, Turki MM, Zouari H (2002) Tectonic evolution of the northern African margin in Tunisia from paleostress data and sedimentary record. Tectonophysics 357:227–253
Bouillin JP (1986) Le bassin maghrébin: une ancienne limite entre l’Europe et l’Afrique à l’ouest des Alpes. Bull Soc Géol France 8(4):547–558
Boukadi N (1985) Evolution géométrique et cinématique de la zone d’interférence de l’axe NS et de la chaîne de Gafsa. Phd Louis-Pasteur University, 155 pp
Boukadi N (1994) Structuration de l’Atlas de Tunisie: signification et cinématique des nœuds et zones d’interférences structurales au contact de grands couloirs tectoniques. Thesis Es Sciences, Tunis II University, 249 pp
Boukadi N, Bédir M (1996) L’halocinèse en Tunisie: contexte tectonique et chronologie des évènements. C R Acad Sci Paris (Série lIa) 322:587–594
Boukadi N, Zargouni F, Ruhland M (1992) Cinématique et évolution tectonique des failles en baïonnette dans l’Atlas de Tunisie: transtension, halocinèse et transpression. C R Acad Sci Paris (Serie IIa) 315:1760–1775
Bracène R, Frizon de Lamotte D (2002) Origin of intraplate deformation in the Atlas system of western and central Algeria: from Jurassic rifting to Cenozoic–Quaternary inversion. Tectonophysics 357:207–226. doi:10.1016/S0040-1951(02)00369-4
Brunet MF, Cloetingh S (2003) Integrated Peri-tethyan Basins studies (Peri-Tethys Programme). Sed Geol 156:1–10
Buness H et al (1992) The EGT’85 seismic experiment in Tunisia: a reconnaissance of the deep structures. Tectonophysics 207:245–267
Burollet PF (1956) Contribution à l’étude stratigraphique de la Tunisie centrale. Ann Mines et Géol Tunis 18, (Tunis), Tunisia, 345 p
Burollet PF (1973) Importance des facteurs salifères dans la tectonique tunisienne. Livre Jubilaire M. Solignac. Ann Mines et Géol Tunis 26:110–120
Burollet PF (1981) Signification géologique de l’axe Nord-Sud. Résumé du 1er Congrès Nat Sc Terre, Tunis, p 31
Busson G (1967) Le Mésozoïque saharien. 1ère partie: l’Extrême-Sud Tunisien. Publ CRZA, Géologie 8. CNRS, Paris, 194 pp
Castany G (1951) Etude géologique de l’Atlas tunisien oriental. Annales des Mines et de la Géologie no 8, 632 pp
Chihi L (1995) Les fossés néogènes à quaternaires de la Tunisie et de la mer pélagienne: Etude structurale et leur signification dans le cadre géodynamique de la Méditerranée centrale. Thesis Es Sciences, Tunis II University, 568 pp
Cordell L (1979) Gravimetric expression of graben faulting in Santa Fe Country and the Espanola basin, New Mexico. In: Ingersoll RV (ed) Guidebook to Santa Fe Country. New Mexico geological society guidebook: 30th field conference, pp 59–64
Dhahri F (2009) Analyse géométrique et cinématique du complexe Ousselet–Bou Dabbous–Bou Hajar, Tunisie centro-septentrionale. PhD thesis, Tunis II University, 149 pp
Dhahri F, Boukadi N (2007) Differential thrusting and strike-slip faults in the Atlasic chain of Tunisia: example of the Ousselet, Bou Dabbous, and Bou Hajar jebels. C R Geosci 399:347–357
Dhahri F, Boukadi N (2010) The evolution of pre-existing structures during the tectonic inversion process of the Atlas chain of Tunisia. J Afr Earth Sci 56:139–149
Dlala M (1984) Tectonique récente et microtectonique de la région de Kasserine (Tunisie centrale). PhD Montpelier University
Dlala M (1995) Evolution géodynamique et tectonique superposée en Tunisie: implication sur la tectonique récente et la sismicité. Thesis Es Sciences, Tunis II University, 200 pp
Dlala M, Rebai S (1994) Relation compression-extension Miocène supérieur à Quaternaire en Tunisie: implication sismotectonique. C R Acad Sci Paris (série II) 319:945–950
Doglioni C, Bosellini A, Frare MC, Dhaha F, Ben Said E (1990) Aspects tectoniques de la région au Sud-Ouest de Kairouan (Tunisie Centrale). Ann Univ Ferrara (Nuova Serie), Scienze delle Terra 2(5)77–94
Ellouz N (1984) Etude de la subsidence de la Tunisie atlasique, orientale et de la mer pélagienne. Thesis 3eme cycle. Pierre et Marie Curie University, Paris, 139 pp
Fabre J (1976) Introduction à la géologie du Sahara algérien et des régions voisines. SNED, Alger, 422 pp
Frizon de Lamotte D, Michard A, Saddiqi O (2006) Some recent developments on the Maghreb geodynamics: an introduction. C R Geosci 338:1–10
Gabtni H (2005) Apport de la gravimétrie à l’étude des structures profondes du Sahel de Tunisie (cas de la région de Kairouan–Sousse–Monastir). C R Geosci 337(16):1409–1414
Gabtni H, Jallouli C, Mickus K, Zouari H, Turki MM (2005) Geophysical constraints on the location and nature of the north Saharan flexure in southern Tunisia. Pure appl Geophys 162(11):2051–2069
Guiraud R (1998) Mesozoic rifting and basin inversion along the Northern African Tethyan margin: An overview. In: MacGregor DS, Moody RTJ, Clark-Lowes DD (eds) Petroleum geology of North Africa, vol 132. Geological Society London Special Publications, pp 217–229
Guiraud R, Bosworth W, Thierry J, Delplanque A (2005) Phanerozoic geological evolution of Northern and Central Africa: an overview. J Afr Earth Sc 43:83–143
Haji T, Dhahri F, Marco I, Boukadi N (2013) New insights on the tectonic and paleogeographic evolution of the central Atlasic domain of Tunisia. Arab J Geosci 7:1–12
Haller P (1983) Structure profonde du Sahel Tunisien. Interprétation géodynamique. Thesis Franche-Compté University, 183 pp
Jallouli C, Mickus K (2000) Regional gravity analysis of the crustal structure of Tunisia. J Afr Earth Sci 30:345–357
Jauzein A, Perthuisot V (1985) Accident du Socle et plissements de couverture : une hypothèse pour la structure de la Tunisie autochtone. In: Proceeding 1st national congress earth science, Tunis 1981, pp 405–416
Khomsi S, Bedir M, Ben Jemia G, Zouari H (2004) Mise en évidence d’un nouveau front de chevauchement dans l’Atlas tunisien oriental de Tunisie par sismique réflexion. Contexte structural régional et rôle du Trias salifère. C R Geosci 336:1401–1408
M’rabet A (1981) Stratigraphie, sédimentologie et diagenèse des carbonates des séries du Crétacé inférieur de Tunisie central. Thesis Es-Sceinces, Paris Sud University, 540 pp
M’rabet A (1987) Stratigraphie, sédimentation et diagenèse carbonatée des séries du Crétacé inférieur de Tunisie centrale. Annales des mines et de la géologie, vol 30. Tunisia, 345 p
M’rabet A, Mejri F, Burollet PF, Memmi L, Chandoul H (1995) Catalog of type sections in Tunisia. Cetaceous. Mémoires ETAP, no 8A, 123 p
Marco I, Dhahri F, Hajji T, Boukadi N (2014) The Aptian–Albian transition in central Tunisia: tectonosedimentary and paleogeographic records. J Earth Sci 25(5). ISSN 1674-487X
Marie J, Trouve PH, Desforges G, Dufaure PH (1984) Nouveaux éléments de paléogéographie du Crétacé de Tunisie. Notes et Mémoires Total, no 19 Paris, 37 pp
Masrouhi A, Ghanmi M, Ben Slama MM, Ben Youssef M, Vila JM, Zargouni F (2008) New tectono-sedimentary evidence constraining the timing of the positive tectonic inversion and the Eocene Atlasic phase in northern Tunisia: Implication for the North African paleo-margin evolution. CR Geosci 340(11):771–778
Morelli C (1976) Modern standards for gravity surveys. Geophysics 41:1051
Morgan M, Grocott J, Moody RTJ (1992) The structural setting and evolution of the Zaghouan-Ressas structural belt in the Zaghouan area. Tunisian Atlas, Northern Tunisia, Memoires ETAP, Tunisia no. 5, pp 193–209
Ouali J (1984) Structure et évolution géodynamique du chaînon Nara-Sidi Khalif (Tunisie centrale). These Doct 3eme cycle Rennes 119 pp
Perthuisot V (1978) Dynamique et pétrogenèse des extrusions triasiques de Tunisie septentrionale. Travaux du Laboratoire de Géologie no. 12. Presses de l’Ecole Normale Supérieure Paris, p 312
Pervinquière L (1903) Etude géologique de la Tunisie centrale. Thèse Doct. Es-Sci. Univ. Paris, 360 pp
Rabhi M (1999) Contribution à l’étude stratigraphique et analyse de l’évolution géodynamique de l’axe Nord-Sud et des structures avoisinantes (Tunisie centrale). PhD thesis Tunis-el-Manar University, 206 pp
Roure F, Casero P, Addoum B (2012) Alpine inversion of the North African margin and delamination of its continental lithosphere. Tectonics Vol 31 TC3006, 28 pp
Touati MA (1985) Etude géologique et géophysique de la concession Sidi El Itayem en Tunisie orientale - Sahel de Sfax. Ph.D. Pierre et Marie Curie University Paris VI, 226 pp
Vially R, Letouzey J, Bénard F, Haddadi N, Desforges G, Askri H, Boudjema A (1994) Basin inversion along the North African margin: the Saharan Atlas (Algeria), in PeriTethyan Platforms, edited by F. Roure, pp 79–117 Ed Technip Paris
Zghal I, Ouali J, Bismuth H (1998) Tectonique synsédimentaire en Tunisie centrale (région du Jebel Mrhila) pendant l’Aptien–Albien. C R Acad Sci Paris 326:187–192
Acknowledgments
We would like to thank the Office national des Mines (ONM) and the Entreprise Tunisienne d’Activités Pétrolières (ETAP) for providing, respectively, the gravity and seismic data used in this paper. Constructive comments and helpful suggestions from Prof. Wolf-Christian Dullo, anonymous reviewers and Professor Arthur W. Snoke substantially improved the manuscript and are gratefully acknowledged.
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Dhahri, F., Tanfous, D., Gabtni, H. et al. Structural and geodynamic study in central Tunisia using field and geophysical data: new structural interpretation of the N–S axis and associated Atlassic structures. Int J Earth Sci (Geol Rundsch) 104, 1819–1835 (2015). https://doi.org/10.1007/s00531-015-1159-1
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DOI: https://doi.org/10.1007/s00531-015-1159-1