Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-23T02:04:48.009Z Has data issue: false hasContentIssue false

Eustatic and tectonic controls on Quaternary Ras Leona marine terraces (Strait of Gibraltar, northern Morocco)

Published online by Cambridge University Press:  20 January 2017

Khalil El Kadiri
Affiliation:
Département de Géologie, Fac. Sciences, Université Abdel Malek Essaâdi, BP 2121, Mhanech II, Tétouan, Morocco
Carlos Sanz de Galdeano*
Affiliation:
Instituto Andaluz de Ciencias de la Tierra, CSIC-Univ. de Granada, Facultad de Ciencias, 18071, Granada, Spain
Antonio Pedrera
Affiliation:
Instituto Geológico y Minero de España, Urb. Alcázar del Genil, 4, 18006, Granada, Spain
Ahmed Chalouan
Affiliation:
Université Mohammed V-Agdal, Département de Géologie, Faculté des Sciences, Avenue Ibn Batouta, BP 1014, Rabat, Morocco
Jesús Galindo-Zaldívar
Affiliation:
Instituto Andaluz de Ciencias de la Tierra, CSIC-Univ. de Granada, Facultad de Ciencias, 18071, Granada, Spain Departamento de Geodinámica, Facultad de Ciencias, Universidad de Granada, 18071 Granada, Spain
Ramón Julià
Affiliation:
Instituto de Ciencias de la Tierra Jaume Almera, CSIC Lluís Solé i Sabarís s/n. 08028, Barcelona, Spain
Mustafa Akil
Affiliation:
Université Mohammed V-Agdal, Département de Géologie, Faculté des Sciences, Avenue Ibn Batouta, BP 1014, Rabat, Morocco
Rachid Hlila
Affiliation:
Département de Géologie, Fac. Sciences, Université Abdel Malek Essaâdi, BP 2121, Mhanech II, Tétouan, Morocco
Mfedal Ahmamou
Affiliation:
Université Mohammed V-Agdal, Département de Géologie, Faculté des Sciences, Avenue Ibn Batouta, BP 1014, Rabat, Morocco
*
*Corresponding author. E-mail addresses: [email protected] (K. El Kadiri), [email protected] (C.S. de Galdeano), [email protected] (A. Pedrera), [email protected] (A. Chalouan), [email protected] (J. Galindo-Zaldívar), [email protected] (R. Julià), [email protected] (M. Akil), [email protected] (R. Hlila), [email protected] (M. Ahmamou).

Abstract

Well-preserved Quaternary staircased marine terraces appear on Ras Leona limestone relief. This is a peculiar sector of the Betic-Rif Cordillera, lying in the four-way junction between the Atlantic and the Mediterranean, and Europe and Africa. The age and altitude correlation of the Ras Leona terraces with travertine-covered lateral equivalent terraces fashioned in the neighbouring Beni Younech area, and comparison with those along the Moroccan Atlantic coasts, would suggest that the Ras Leona terraces were mainly formed by eustatic factors. The importance of the eustasy is supported by further comparisons with Spanish and Moroccan Mediterranean terraces and with different marine terraces developed on passive-margin coasts around the world. A tectonic event occurred mainly during the period between the formation of the Maarifian and the Ouljian terraces (i.e., between 370 and 150 ka). The moderate Quaternary tectonic uplift deduced from the marine terraces and its comparison with uplifted marine terraces developed in active subduction setting disagrees with the model of an active eastwards subduction below the Gibraltar tectonic arc.

Type
Research Article
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Akil, M. Les dépôts quaternaires littoraux entre Casablanca et cap Beddouza (Meseta côtière marocaine): études géomorphologiques et sédimentologiques. Thèse Doctorat Sciences. (1990). 417 pp.Google Scholar
Amborn, T.A. Evidence for active tectonics along the Australian passive margin: Quaternary marine of Waratah Bay. (2003). Sixteenth Keck Research Symposium in Geology Proceedings, Victoria. 1013.Google Scholar
André, A., and El Gharbaoui, A. Aspect de la morphologie littorale de la péninsule de Tanger. Revue Géographie du Maroc 23–24, (1978). 125143.Google Scholar
Bardají, T., Goy, J.L., Zazo, C., Hillaire-Marcel, C., Dabrio, C.J., Cabero, A., Ghaleb, B., Silva, P.G., and Lario, J. Sea level and climate changes during OIS 5e in the Western Mediterranean. Geomorphology 104, (2009). 2237.Google Scholar
Beaudet, G., (1969). Le plateau central marocain et ses bordures: étude géomorphologique. Thèse de Doctorat-lettres, Rabat., 478 p.Google Scholar
Biberson, P. Essai de classification du Quaternaire marin au Maroc atlantique 4, (1959). Compte Rendu Sommaire Société géologique de France, 6770.Google Scholar
Biberson, P. Le cadre paléogéographique de la Préhistoire du Maroc atlantique et Le Paléolithique inférieur du Maroc atlantique. (1961). Publications du Service des Antiquités du Maroc, Rabat, fasc. 16 et 17. Google Scholar
Boillot, G., Montadert, L., Lemoine, M., and Biju-Duval, B. Les marges continentales actuelles et fossiles autour de la France. (1984). Masson, Paris. 342 pGoogle Scholar
Bull, W.B. Correlation of flights of global marine terraces. Morisawa, M., and Hack, J. Tectonic Geomorphology: Proceedings, 15th Binghamton Geomorphology Symposium. (1985). Allen & Unwin: Boston, MA, 129152.Google Scholar
Cadet, J.P., Fourniguet, J., Gigout, M., Guillemin, M., and Pierre, G. La néotectonique des littoraux. Bulletin de la Societe Geologique de France 19, 3 (1977). 600605.Google Scholar
Chalouan, A., Sanz de Galdeano, C., Galindo-Zaldívar, J., Julià, R., El Kadiri, Kh., Pedrera, A., Hlila, R., Akil, M., and Ahmamou, M. Los travertinos de Beni Younech (SE del Estrecho de Gibraltar, Marruecos). Geogaceta. Comparación con las terrazas marinas de Ras Leona. 45, (2008). 3538.Google Scholar
Choubert, G. Évolution de la connaissance du Quaternaire au Maroc. Notes Service Géologique Maroc 185, (1965). 927.Google Scholar
Cucci, L., and Cinti, F.R. Regional uplift and local tectonic deformation recorded by the Quaternary marine terraces on the Ionian coast of northern Calabria (southern Italy). Tectonophysics 292, (1998). 6783.Google Scholar
De Martini, P.M., Pantosti, D., Palyvos, N., Lemeille, F., McNeill, L., and Collier, R. Slip rates of the Aigion and Eliki Faults from uplifted marine terraces. Corinth Gulf 336, (2004). C.R. Geosciences, Greece. 325334.Google Scholar
Duggen, S., Hoernle, K., Paul van den Bogaard, P.V.D., Rüpke, L., and Morgan, J.P. Deep roots of the Messinian salinity crisis. Nature 422, (2003). 602606.CrossRefGoogle ScholarPubMed
El Bakkali, S., Gourgaud, A., Bourdier, J.-L., Bellon, H., and Gundogdu, N. Post-collision Neogene volcanism of the Eastern Rif (Morocco): magmatic evolution through time. Lithos 45, (1998). 523543.Google Scholar
El Fahssi, A., (1999). Tectonique alpine, néotectonique et étude des formations marines quaternaires de la rive sud du Détroit de Gibraltar entre Tanger et Sebta (Rif, Maroc). Thèse, Univ, . Mohammed V. Rabat. 253 p.Google Scholar
Geraads, D. Plio-Pleistocene mammalian biostratigraphy of Atlantic Morocco/Biostratigraphie des mammifères Plio-Pléistocènes du Maroc atlantique. Quaternaire 13, (1998). 4353.Google Scholar
Gigout, M. Étude géologique sur la Meseta marocaine occidentale (arrière pays de Casablanca, Mazagan et Safi). n°3. Notes et Mémoires, Travaux Institut Scientifique Chérif 2, (1951). Service géologique de Maroc, 86 p.Google Scholar
Gigout, M., Cadet, J.P., Fourniguet, J., Guillemin, M., and Pierre, G. La chronologie du Quaternaire. Bulletin de la Societe Geologique de France 19, (1977). 575614.Google Scholar
Goy, J.L., Zazo, C., Silva, P.G., Lario, J., Bardají, T., and Somoza, L. Evaluación geomorfológica del comportamiento neotectónico del Estrecho de Gibraltar (Zona Norte) durante el Cuaternario. (1995). IV Coloquio Internacional sobre el enlace fijo del Estrecho de Gibraltar. Sevilla. SECEG, Madrid. pp. 5169.Google Scholar
Groupe de recherche néotectonique de l'Arc de Gibraltar L'histoire tectonique récente (Tortonien à Quaternaire) de l'Arc de Gibraltar et des bordures de la mer d'Alboran. Bulletin de la Societe Geologique de France 19, 3 (1977). 575614.Google Scholar
Gutscher, M.A., Malod, J., Rehault, J.P., Contrucci, I., Klingelhoefer, F., Mendes-Victor, L., and Spackman, W. Evidence for active subduction beneath Gibraltar. Geology 30, (2002). 10711074.Google Scholar
Gutscher, M.A., Dominguez, S., Westbrook, G.K., and Leroy, P. Deep structure, recent deformation and analog modeling of the Gulf of Cadiz accretionary wedge: implications for the 1755 Lisbon earthquake. Tectonophysics 475, (2009). 8597.Google Scholar
Haq, B.U., Hardenbol, J., and Vail, P.R. Chronology of fluctuating sea levels since the Triassic. Science 235, (1987). 11561167.CrossRefGoogle ScholarPubMed
Haq, B.U., Hardenbol, J., Vail, P.R. 71-108 Mesozoic and Cenozoic chronostratigraphy and eustatic cycles. Wilgus, C.K., Hastings, B.S., Kendall, C.G.S.C., Posamentier, H., Ross, C.A., Van Vagoner, J.C. Sea-level Changes. An Integrated Approach 42, (1988). Society Economic Paleontologists Mineralogists, 71108. Special Publication CrossRefGoogle Scholar
Keller, E.A., and Pinter, N. Active Tectonics (Earthquakes, Uplift and Landscape). (1996). Prentice-Hall Inc, New Jersey. 338 pGoogle Scholar
Lario, J., Zazo, C., Somoza, L., Goy, J.L., Hoyos, M., Silva, P.G., and Hernández Molina, F.J. Los episodios marinos cuaternarios de la costa de Málaga (España). Revista Sociedad Geológica de España, 6, 3/4, (1993). 4146.Google Scholar
Lario, J., Zazo, C., Somoza, L., Goy, J.L., Hoyos, M., Silva, P.G., Hernández, , Michelsen, O., Thomsen, E., Danielsen, M., Heilmann-Clausen, C., Jordt, H., and Laursen, G.V. Cenozoic sequence stratigraphy in the eastern North Sea. de Graciansky, P.Ch., Hardenbol, J., Jacquin,, Th., and Vail, P. Mesozoic and Cenozoic Sequence Stratigraphy of European Basins. (1998). SEPM (Society for Sedimentary Geology), 91118. sp. Pub. n° 60, Google Scholar
Lefèvre, D., and Raynal, J.-P. Les formations Plio-Pléistocenes de Casablanca et la chronostratigraphie du quaternaire marin du Maroc revisitées. Quaternaire 13, 1 (2002). 921.Google Scholar
Lonergan, L., and White, N. Origin of the Betic–Rif mountain belt. Tectonics 16, 3 (1997). 504522.Google Scholar
Marquardt, C., Lavenu, A., Ortlieb, L., Godoy, E., and Comte, D. Coastal neotectonics in Southern Central Andes: uplift and deformation of marine terraces in Northern Chile (27°S). Tectonophysics 394, 3–4 (2004). 193219.Google Scholar
Martín–Algarra, A., Martín–Martín, M., Andreo, B., Julià, R., and González–Gómez, C. Sedimentary pattern in perched spring travertines near Granada (Spain) as indicators of the paleohydrological and paleoclimatological evolution of a karst massif. Sedimentary Geology 161, (2003). 217228.Google Scholar
Occhietti, S., Raynal, J.-P., Pichet, P., and Lefevre, D. Aminostratigraphy of Pleistocene and Holocene littoral deposits in the Casablanca Region, Morocco. Quaternaire 13, (2002). 5564.Google Scholar
Oosterom, A.P., (1988). The geomorphology of southeast Kenya. - Ph.D. thesis, Wageningen Agricultural University, 227 p.Google Scholar
Ortlieb, L., Goy, J.L., Zazo, C., Hillaire-Marcel, C., Ghaleb, B., Guzmán, N., Thiele, R. Quaternary morphostratigraphy and vertical deformation in Mejillones Peninsula, Northern Chile. 17-19/9, (1996). Third ISAG, St Malo (France). 211214.Google Scholar
Peñalver Hernández, L.L., Castellanos, Abella E., Pérez Aragón, R.O., and Rivada Suárez, R. Las terrazas marinas de Cuba y su correlación con algunas del área circumcaribe. Geología del Cuaternario, geomorfología y carso. (2003). Memorias Geominerales, La Habana. 110. 24-24 marzo Google Scholar
Pirazzoli, P.A., Reyss, J.L., Fontugne, M., Haghipour, A., Hilgers, A., Kasper, H.U., Nazari, H., Preusser, F., and Radtke, U. Quaternary coral-reef terraces from Kish and Qeshm Islands, Persian Gulf: new radiometric ages and tectonic implications. Quaternary International 120, 2004 (2004). 1527.Google Scholar
Quezada, J., González, G., Dunai, T., Jensen, A., and Juez-Larré, J. Alzamiento litoral Pleistoceno del norte de Chile: edades 21Ne de la terraza costera más alta del área de Caldera–Bahía Inglesa. Revista Geologica de Chile 34, (2007). 8196.Google Scholar
Rhodes, E.J., Raynal, J.P., Geraads, D., and Sbihi-Alaoui, F.Z. Premières dates RPE pour l'Acheuléen du Maroc atlantique (Grotte des Rhinoce´ros, Casablanca). Comptes Rendus 319, (1994). Academic des Sciences, Paris. 11091115.Google Scholar
Rhodes, E.J., Singarayer, J.S., Raynal, J.-P., Westaway, K.E., and Sbihi-Alaoui, F.Z. New age estimates for the Palaeolithic assemblages and Pleistocene succession of Casablanca, Morocco. Quaternary Science Reviews 25, 19–20 (2006). 25692585.Google Scholar
Rodríguez-Vidal, J., and Cáceres, Puro L.M. Niveles escalonados de cuevas marinas cuaternarias en la costa oriental de Gibraltar. Geogaceta 37, (2005). 147150.Google Scholar
Rodríguez-Vidal, J., Cáceres, L.M., Finlayson, C., Gracia, F.J., and Martínez-Aguirre, A. Neotectonics and shoreline history of the Rock of Gibraltar, southern Iberia. Quaternary Science Reviews 23, (2004). 20172029.Google Scholar
Rostami, K., Peltier, W.R., and Mangini, A. Quaternary marine terraces, sea-level changes and uplift history of Patagonia, Argentina: comparisons with predictions of the ICE-4G (VM2) model of the global process of glacial isostatic adjustment. Quaternary Science Reviews 19, (2000). 14951525.Google Scholar
Royden, L.H. Evolution of retreating subduction boundaries formed during continental collision. Tectonics 12, (1993). 629638.CrossRefGoogle Scholar
Saillard, M., Hall, S.R., Audin, L., Farber, D.L., Hérail, G., Martinod, J., Regard, V., Finkel, R.C., and Bondoux, F. Non-steady long-term uplift rates and Pleistocene marine terrace development along the Andean margin of Chile (31°S) inferred from 10Be dating. Earth and Planetary Science Letters 277, (2009). 5063.Google Scholar
Sanders, J.E., and Friedman, G.M. Origin and occurrence of limestones. Chilinger, G.V., Bissell, H.J., and Fairbridge, R.W. Carbonate rocks. Developments in Sedimentology 9, (1967). Elsevier, Amsterdam. 322 pGoogle Scholar
Sanz de Galdeano, C. Geologic evolution of the Betic Cordilleras in the Western Mediterranean, Miocene to the present. Tectonophysics 172, (1990). 107119.Google Scholar
Sanz de Galdeano, C., and Alfaro, P. Tectonic significance of the present relief of the Betic Cordillera. Geomorphology 63, (2004). 178190.Google Scholar
Sirkin, L., Szabo, B.J., Padilla, A.G., Pedrin, A.S., and Diaz, R.E. Uranium-series ages of marine terraces, La Paz Peninsula, Baja California Sur, Mexico. Coral Reefs 9, (1990). 2530.Google Scholar
Societe Nationale des etudes du Detroit, S.N.E.D., Topographic map of “Detroit de Gibraltar- Sebta�.�, sheet 4–3, scale 1:25000.Google Scholar
Stearns, C.E. Pliocene–Pleistocene emergence of the Moroccan Meseta. Geological Society of America Bulletin 89, (1978). 16301644.Google Scholar
Stich, D., Mancilla, D., and Morales, J. Crust–mantle coupling in the Gulf of Cadiz (SW-Iberia). Geophysical Research Letters 32, (2005). L13306 Google Scholar
Stokes, M., and Garcia, A. Late Quaternary landscape development along the Rancho Marino coastal range front (south-central Pacific Coast Ranges, California, USA). Journal of Quaternary Science 24, (2009). 728746.Google Scholar
Texier, J.P., Raynal, J.P., and Lefèvre, D. Nouvelles propositions pour un cadre chronologique raisonné du Quaternaire marocain. C.R. Académie des Sciences Paris. T. 301, série II (1985). 183188.Google Scholar
Texier, J.-P., Lefèvre, D., Raynal, J.-P., and El Graoui, M. Lithostratigraphy of the littoral deposits of the last one million years in the Casablanca region (Morocco). Quaternaire 13, 1 (2002). 2341.Google Scholar
Wildi, W. La chaîne tello-rifaine (Algérie, Maroc, Tunisie): structure, stratigraphie et évolution du Trias au Miocène. Revue de Géologie Dynamique et de Géographie Physique 24, 3 (1983). 201297.Google Scholar
Zazo, C., Silva, P.G., Goy, J.L., Hillaire-Marcel, C., Ghaleb, B., Lario, J., Bardají, T., and González, A. Coastal uplift in continental collision plate boundaries: data from the Last Interglacial marine terraces of the Gibraltar Strait area (south Spain). Tectonophysics 301, (1999). 95109.Google Scholar
Zazo, C., Goy, J.L., Dabrio, C.J., Bardají, T., Hillaire-Marcel, C., Ghaleb, B., González-Delgado, J.A., and Soler, V. Pleistocene raised marine terraces of the Spanish Mediterranean and Atlantic coasts: records of coastal uplift, sea-level highstands and climate changes. Marine Geology 194, 1–2 (2003). 103133.Google Scholar
Zazo, C., Goy, J.L., Dabrio, C.J., Soler, V., Hillaire-Marcele, C.l., Ghalebe, B., González-Delgado, J.A., Bardají, T., and Cabero, T. Quaternary marine terraces on Sal Island (Cape Verde archipelago). Quaternary Science Reviews 26, (2007). 876893.Google Scholar