The Andatza coarse-grained turbidite system (westernmost Pyrenees)stratigraphy, sedimentology and structural control
- 1 Universidad del País Vasco (UPV-EHU), España
ISSN: 0367-0449
Año de publicación: 2017
Volumen: 73
Número: 1
Tipo: Artículo
Otras publicaciones en: Estudios geológicos
Resumen
This is a field-based work that describes the stratigraphy and sedimentology of the Andatza Conglomerate Formation. Based on facies analysis three facies associations of a coarse-grained turbidite system and the related slope have been identified: (1) an inner fan of a turbidite system (or canyon) and (2) a low- and (3) a high-gradient muddy slope respectively. The spatial distribution of the facies associations and the palaeocurrent analysis allow to interpret a depositional model for the Andatza Conglomerates consisting of an L-shaped, coarse-grained turbidite system, whose morphology was structurally controlled by synsedimentary basement-involved normal faults. The coarse-grained character of the turbidite system indicates the proximity of the source area, with the presence of a narrow shelf that fed the turbidite canyon from the north.
Referencias bibliográficas
- Abreu, V.; Sullivan, M.; Pirmez, C. & Mohrig, D. (2003). Lateral accretion packages (LAPs): an important reservoir element in deep water sinuous channels. Marine and Petroleum Geology, 20: 631–648. https://doi.org/10.1016/j.marpetgeo.2003.08.003
- Agirrezabala, L.M. & García-Mondéjar, J. (1994). A Coarse-Grained Turbidite System with Morphotectonic Control (Middle Albian, Ondarroa, Northern Iberia). Sedimentology, 41: 383–407. https://doi.org/10.1111/j.1365-3091.1994.tb02002.x
- Bachman, S.B. & Graham, S.A. (1985). La Jolla Fan, Pacific Ocean. In: Submarine Fans and Related Turbidite Systems (Bouma, A.H., Normark, W.R. & Barnes, N.E., Eds.), Springer-Verlag, New York, 65–70. https://doi.org/10.1007/978-1-4612-5114-9_11
- Bodego, A.; Iriarte, E. & Agirrezabala, L.M. (2008). The deep-water Lasarte megabreccia (mid-Cretaceous, Basque-Cantabrian Basin): sedimentological evidences of a growth structure denudation. Geo-Temas, 10: 1201–1204.
- Bodego, A. & Agirrezabala, L.M. (2013). Syn-depositional thin- and thick-skinned xtensional tectonics in the mid-Cretaceous Lasarte sub-basin, western Pyrenees. Basin Research, 25: 594–612. https://doi.org/10.1111/bre.12017
- Bodego, A.; Iriarte, E.; Agirrezabala, L.M.; García-Mondéjar, J. & López-Horgue, M.A. (2015). Synextensional mid-Cretaceous stratigraphic architecture of the eastern Basque-Cantabrian basin margin (western Pyrenees). Cretaceous Research, 55: 229–261. https://doi.org/10.1016/j.cretres.2015.01.006
- Burke, K. (1967). The Yallahs Basin: a sedimentary basin southeast of Kingston, Jamaica. Marine Geology, 5: 45–60. https://doi.org/10.1016/0025-3227(67)90067-9
- Campos, J. (1979). Estudio geológico del Pirineo Vasco al W del río Bidasoa. Munibe, 31 (1-2): 3–319.
- Choukroune, P. (1976). Structure et évolution tectonique de la zone nord-pyrénéenne. Analyse de la déformation dans une portion de la chaîne à schistosité subvertical. Mémoire de la Societé Géologique de France, 127: 116.
- Choukroune, P. & Mattauer, M. (1978). Tectonique des plaques et Pyrénées: sur le fonctionnement de la faille transformante nord-pyrénéenne; comparison avec des modèles actuels. Bulletin de la Societé Géologique de France, 20: 689–700. https://doi.org/10.2113/gssgfbull.S7-XX.5.689
- Cronin, B.T.; Kenyon, N.H.; Woodside, J.; Den Bezemer, T.; Van der Wal, J.; Millington, A.; Ivanov, M.K. & Limonov, A. (1995). The Almeria Canyon: a meandering channel systema on an active margin, Alboran sea, western Mediterranean. In: Atlas of Deep Water Environments: Architectural Style in Turbidite Systems (Pickering, K.; Hiscott, R.; Kenyon, F.; Ricci Lucchi, F. & Smith, R.D.A., Eds.), Chapman & Hall, London, 84–88. https://doi.org/10.1007/978-94-011-1234-5_15
- Cronin, B.T.; Celik, H.; Hurst A. & Turkmen, I. (2005). Mud prone entrenched deep-water slope channel complexes from the Eocene of eastern Turkey. Geological Society Special Publication, 244: 155–180.
- Debroas, E.J. (1978). Évolution de la fosse du flysch ardoisier de l'Albien supérieur au Sénonien inférieur (zone interne métamorphique des Pyrénées navarro-languedociennes). Bulletin de la Societé géologique de France, v. 7: 639–648. https://doi.org/10.2113/gssgfbull.S7-XX.5.639
- Denèle, Y.; Paquette, J.; Olivier, P. & Barbey, P. (2012). Permian granites in the Pyrenees: the Aya pluton (Basque Country). Terra Nova, 24: 105–113. https://doi.org/10.1111/j.1365-3121.2011.01043.x
- Fernández-Carrasco, J.; Cerezo, A.; Tijero, F.; Zapata- Sola, M.; Garrote, A.; García-Portero, J. & Mu-oz, L. (1990a). Mapa geológico del País Vasco. 1:25000, Hoja de Zarautz 64-I, Ente Vasco de la Energía (EVE), Bilbao.
- Fernández-Carrasco, J.; Cerezo, A.; Tijero, F.; Zapata- Sola, M.; Garrote, A.; García-Portero, J. & Mu-oz, L. (1990b). Mapa geológico del País Vasco. 1:25000, Hoja de San Sebastián 64-II, Ente Vasco de la Energía (EVE), Bilbao.
- Feuillée, P. (1967). Le Cénomanien des Pyrénées basques aux Asturies. Essai d'analyse stratigraphique. Mémoire de la Societé géologique de France, 46, 343 pp.
- Field, M.; Gardner, J. & Prior, D. (1999). Geometry and significance of stacked gullies on the northern California slope. Marine Geology, 154: 271–286. https://doi.org/10.1016/S0025-3227(98)00118-2
- García-Mondéjar, J. (1982). Aptiense-Albiense. In: El Cretácico de España (García, A., Ed.), Universidad Complutense, Madrid, 63–84.
- García-Mondéjar, J.; Agirrezabala, L.M.; Aranburu, A.; Fernández-Mendiola, P.A.; Gómez-Pérez, I.; López- Horgue, M.A. & Rosales, I. (1996). Aptian-Albian tectonic pattern of the Basque-Cantabrian basin (northern Spain). Geological Journal, 31: 13–45. https://doi.org/10.1002/(SICI)1099-1034(199603)31:1<13::AID-GJ689>3.0.CO;2-Y
- García-Senz, J. (2002). Cuencas extensivas del Cretácico Inferior en los Pirineos centrales: Formación y subsecuente inversión. Tesis doctoral, Universidad de Barcelona, 310 pp.
- Gorsline, D.S. (1978). Anatomy of margin basins. Journal of Sedimentary Petrology, 48: 1055–1068. https://doi.org/10.1306/212F75F4-2B24-11D7-8648000102C1865D
- Haq, B.U. (1988). Fluctuating Mesozoic and Cenozoic Sea Levels and Implications for Stratigraphy. American Association of Petroleum Geologists Bulletin, 72: 1521–1521.
- Lowe, D.R. (1982). Sediment gravity flows: II. Depositional models with special reference to the deposits of high-density turbidity currents. Journal of Sedimentary Petrology, 52 (I): 279–297.
- Masini, E.; Manatschal, G.; Tugend, J.; Mohn, G. & Flament, J.-M. (2014). The tectono-sedimentary evolution of a hyper-extended rift basin: the example of the Arzacq-Mauléon rift system (Western Pyrenees, SW France). International Journal of Earth Sciences (Geologische Rundschau), 103: 1569–1596. https://doi.org/10.1007/s00531-014-1023-8
- Mathey, B. (1987). Les flyschs cretacé supérieur des Pyrénées basques: age, anatomie, origine du matériel milieu de dépot et relations avec l'ouvert du Golfe de Gascogne. Mémoire Géologique de la Université de Dijon, 12, 402 pp.
- Montadert, L.; Roberts, D.G.; de Charpal, O. & Guennoc, P. (1979). Rifting and subsidence of the northern continental margin of the Bay of Biscay. In: Initial Reports of the Deep Sea Drilling Project, Leg 48, Brest, France to Aberdeen, Scotland, 1976 (Scripps Institution of Oceanography, Ed.). UK distributors IPOD Committee, NERC, Swindon, 1025–1060. https://doi.org/10.2973/dsdp.proc.48.154.1979
- Mutti, E. (1977). Distinctive thin-bedded turbidite facies and related depositional environments in the Eocene Hecho Group (South-Central Pyrenees, Spain). Sedimentology, 24: 107–131. https://doi.org/10.1111/j.1365-3091.1977.tb00122.x
- Mutti, E. (1992). Turbidite Sandstones. Agip-Istituto di Geologia. Università di Parma, 275 pp.
- Mutti, E. & Ricci Lucchi, F. (1972). Turbidites of the Northern Apennines: Introduction to facies analysis (English translation by T.H. Nilsen, 1978). International Geological Review, 20: 125–166. https://doi.org/10.1080/00206817809471524
- Mutti, E. & Ricci Lucchi, F. (1975). Turbidite facies and facies associations. In: examples of turbidite facies and facies associations from selected formations of the northern Apennines. IX Int. Congr. Sedm. Nice- 75, Field Trip A. 11. PMid:801674
- Nemec, W. & Steel, R.J. (Eds.) (1988). Fan Deltas: Sedimentology and Tectonic Settings, Blackie, London, 444 pp.
- Normark, W.R. (1970). Growth patterns of deep-sea fans. American Association of Petroleum Geologists Bulletin, 54: 2170–2195.
- Pesquera, A. & Pons, J. (1990). The Aya Pluton (Spanish Basque Pyrenees) - Structural Pattern, Ascent Model and Regional Tectonic Implication. Bulletin de la Societé Geologique de France, 6: 13–21. https://doi.org/10.2113/gssgfbull.VI.1.13
- Pickering, K.; Stow, D.; Watson, M. & Hiscott, R. (1986). Deep-water facies, processes and models: a review and classification scheme for modern and ancient sediments. Earth-Science Reviews, 23: 75–174. https://doi.org/10.1016/0012-8252(86)90001-2
- Pickering, K.; Hiscott, R. & Hein, F.J. (1989). Deep Marine Environments: Clastic Sedimentation and Tectonics, Unwyn Hyman, London, UK, 416 pp.
- Prior, D.B. & Doyle, E.H. (1985). Intra-slope canyon morphology and its modification by rockfall processes, US Atlantic continental-margin. Marine Geology, 67: 177–196. https://doi.org/10.1016/0025-3227(85)90155-0
- Rat, P. (1959). Les pays crétacés basco-cantabriques (Espagne).Thèse publié, Université de Dijon, 18, 525 pp.
- Razin, P. (1989). Évolution tecto-sédimentaire alpine des Pyrénées Basques a l'ouest de la transformante de Pamplona (Province du Labourd). Tesis doctoral, Université de Bordeaux III, 464 pp.
- Robles, S.; García-Mondéjar, J. & Pujalte, V. (1988a). A retreating fan-delta system in the Albian of Biscay, northern Spain: facies analysis and palaeotectonic implications. In: Fan Deltas: Sedimentology and Tectonic Settings (Nemec, W. & Steel, R.J., Eds.), Blackie, Glasgow, 187–211. PMid:3401078
- Robles, S.; Pujalte, V. & García-Mondéjar, J. (1988b). Evolución de los sistemas sedimentarios del margen continental cantábrico durante el Albiense y Cenomaniense, en la transversal del litoral vizcaíno. Revista de la Sociedad Geológica de España, 1: 409–441.
- Robles, S.; Quesada, S.; Rosales, I.; Aurell, M. & García- Ramos, J.C. (2004). El Jurásico marino de la Cordillera Cantábrica. In: Geología De España (Vera, J.A., Ed.), Sociedad Geológica de España-Instituto Geológico y Minero de España (IGME), Madrid, 279–285.
- Roca, E.; Mu-oz, J. A.; Ferrer, O. & Ellouz, N. (2011). The role of the Bay of Biscay Mesozoic extensional structure in the configuration of the Pyrenean orogen: Constraints from the MARCONI deep seismic reflection survey. Tectonics, 30: TC2001. https://doi.org/10.1029/2010TC002735
- Soler y José, R. (1972). El Jurásico y Cretáceo inferior de Leiza y Tolosa (Cuenca Cantábrica Oriental). Boletín Geológico y Minero, 83(6): 582–594.
- Souquet, P.; Debroas, E.J.; Boirie, J.; Pons, P.; Dixari, G.; Roux, J.; Dol, J.; Thieuloy, J.; Bonnemaison, M.; Manivit, H. & Peybernès, B. (1985). Le Group du Flysch Noir (Albo-Cénomanien) dans Les Pyrénées. Bulletin Centre Recherche Pau-SNPA, 15: 183–252.
- Souquet, P. & Peybernès, B. (1991). Stratigraphie séquentielle du cycle Albien dans les Pyrénées Franco-Espagnoles. Bulletin Centre Recherche Pau-SNPA, 15: 195–213.
- Stow, D.; Reading, H.G. & Collinson, J.D. (1996). Deep seas. In: Sedimentary Environments: Processes, Facies and Stratigraphy, 3rd ed. (Reading, E., Ed.), Blackwell Science, Oxford, 395–453.
- Surlyk, F. (1987). Slope and deep shelf gully sandstones, Upper Jurassic, East Greenland. American Association of Petroleum Geologists Bulletin, 71: 464–475.
- Surpless, K.D.; Ward, R.B. & Graham, S.A. (2009). Evolution and stratigraphic architecture of marine slope gully complexes: Monterey Formation (Miocene), Gaviota Beach, California. Marine Petroleum Geology, 26: 269–288. https://doi.org/10.1016/j.marpetgeo.2007.10.005
- Voort, H.B. (1963). Zum flysch problem in den Westpyrenäen. Geologie Rundschau, 53: 220–233. https://doi.org/10.1007/BF02040748
- Walker, R.G. (1978). Deep water sandstone facies and ancient submarine fans: models for exploration for stratigraphic traps. American Association of Petroleum Geologists Bulletin, 62: 932–966.