Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-24T08:56:26.273Z Has data issue: false hasContentIssue false
  • English
  • Français

Ordovician deformations in the Pyrenees: new insights into the significance of pre-Variscan (‘sardic’) tectonics

Published online by Cambridge University Press:  25 January 2010

J. M. CASAS
J. M. CASAS*
Affiliation:
Departament de Geodinàmica i Geofísica-Institut de recerca GEOMODELS, Universitat de Barcelona, Martí Franquès s/n, 08028 Barcelona, Spain
*
*E-mail: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

Two deformational events which developed prior to the Variscan structures can be characterized in the Palaeozoic rocks of the Pyrenees: a Middle (?) Ordovician folding event and a Late Ordovician fracture episode. The Middle (?) Ordovician folding event gives rise to NW–SE- to N–S-oriented, metric- to hectometric-sized folds, without cleavage formation or related metamorphism. These folds can account for the deformation and uplift of the pre-Upper Ordovician (Cambro-Ordovician) sequence and for the formation of the Upper Ordovician unconformity. Ordovician folds control the orientation of the Variscan main-folding-phase minor structures, fold axes and intersection lineation in the Cambro-Ordovician sediments. The Late Ordovician fracture episode gave rise to normal faults affecting the lower part of the Upper Ordovician series, the basal unconformity and the underlying Cambro-Ordovician metasediments. Displacement of some of these faults diminishes progressively upwards of the series and tapers off in the upper part of the Upper Ordovician rocks, indicating that the faults became inactive during Late Ordovician times before deposition of the Ashgillian metasediments. Normal faults can be linked to the Upper Ordovician volcanic activity, which has been extensively described in the Pyrenees. The aforementioned deformation episodes took place after the Early Ordovician magmatic event, which gave rise to a large volume of plutonic rocks in the Pyrenees as in other segments of the European Variscides. This Middle Ordovician contractional event separated two extensional events in the Pyrenees from Early Ordovician to Silurian times. This event prevents us from assuming the existence of a continuous extensional regime through Ordovician and Silurian times, and suggests a more complex evolution of this segment of the northern Gondwana margin during the Ordovician.

Keywords

Ordovician deformationpre-Variscan foldsLate Ordovician normal faultsPyrenees
Type
Original Article
Information
Geological Magazine , Volume 147 , Issue 5 , September 2010 , pp. 674 - 689
Copyright
Copyright © Cambridge University Press 2010

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

Abad, A. 1987. Primera cita de arqueociátidos en Cataluña. Trabajos Museo Geología Seminario Barcelona 222, 10.Google Scholar
Arthaud, F. 1963 Un exemple de tectonique superposée dans le paléozoique de l'Iglesiente (Sardaigne). Comptes Rendus Sommaire des Séances de la Societé Géoloqique de France 9, 303–4.Google Scholar
Autran, A., Fonteilles, M. & Guitard, G. 1970. Rélations entre les intrusions de granitoides, l'anatexie, et le métamorphisme régional considerées principalment du point de vue de l'eau: cas de la Chaine hercynienne des Pyrénées Orientales. Bulletin Societé Géologique de France 7, 673731.CrossRefGoogle Scholar
Ayora, C. & Casas, J. M. 1986. Strata-bound As–Au mineralization in pre-Caradocian rocks from the Vall de Ribes, Eastern Pyrenees, Spain. Mineralium Deposita 21, 278–87.CrossRefGoogle Scholar
Barca, S., Carmignani, L., Cocozza, T., Franceschelli, M., Ghezzo, C., Memmi, I., Minzoni, N., Pertusati, P. C. & Ricci, C. A. 1985. The Caledonian events in Sardinia. In The Caledonian Orogen–Scandinavian and related areas (eds Gee, D. G. & Sturt, B. A.), pp. 1195–9. John Wiley and Sons Ltd.Google Scholar
Barca, S., Cocozza, T., Del Rio, M., Pillola, G. L. & Pittau Demalia, P. 1987. Datation de l'Ordovicien inférieur par Dyctonema flabelliforme et Acritarches dans la partie supérieure de la formation «Cambrienne» de Cabitza (SW de la Sardaigne, Italie): conséquences géodynamiques. Comptes Rendus Académie Sciences Paris 305, 1109–13.Google Scholar
Capellà, I. 1995. El estilo del hercinico en el sector suroccidental del macizo del Canigo-Carançà (Pirineos Orientales). Revista de la Sociedad Geologica de España 8, 720.Google Scholar
Capellà, I. & Bou, O. 1997. La estructura del domo de la Rabassa y del sector oriental del sinclinal de Llavorsi (Pirineo central). Estudios Geológicos 53, 121–33.CrossRefGoogle Scholar
Carmignani, L., Cocozza, T., Gandin, A. & Pertusati, P. C. 1986 a. The geology of Iglesiente. In Guide book of the Excursion to the Paleozoic basement of Sardinia (eds Carmignani, L., Pertusati, P. C., Cocozza, T., Ghezzo, C. & Ricci, C. A.), pp. 31–49. IGCP Project no. 5 Newsletter Special Issue.Google Scholar
Carmignani, L., Cocozza, T., Ghezzo, C., Pertusati, P. C. & Ricci, C. A. 1986 b. Outlines of the Hercynian basement of Sardinia. In Guide book of the Excursion to the Paleozoic basement of Sardinia (eds Carmignani, L., Pertusati, P. C., Cocozza, T., Ghezzo, C. & Ricci, C. A.), pp. 11–21. IGCP Project no. 5 Newsletter Special Issue.Google Scholar
Carmignani, L., Oggiano, G., Barca, S., Conti, P., Salvadori, I., Eltrudis, A., Funedda, A. & Pasci, A. 2001. Geologia della Sardegna. Note illustrative della Carta Geologica della Sardegna a scala 1:200.000. Memoria descrittive della Carta Geologica d'Italia. LX. Servizio Geologico d'Italia, 283 pp.Google Scholar
Casas, J. M., Domingo, F., Poblet, J. & Soler, A. 1989. On the role of the Hercynian and Alpine thrusts in the Upper Paleozoic rocks of the Central and Eastern Pyrenees. Geodinamica Acta 3, 135–47.CrossRefGoogle Scholar
Casas, J. M. & Fernandez, O. 2007. On the Upper Ordovician unconformity in the Pyrenees: New evidence from the La Cerdanya area. Geologica Acta 5, 193–8.Google Scholar
Casas, J. M. & Fernández, O. 2008. Late Ordovician extensional tectonics in the Eastern Pyreenes. Geotemas 10, 213.Google Scholar
Casas, J. M., Parés, J. M. & Megías, L. 1998. La fábrica magnética de los materiales cambro-ordovícicos del Anticlinal de la Massana (Andorra, Pirineo Central). Revista de la Sociedad Geológica de España 11, 317–29.Google Scholar
Castiñeiras, P., Navidad, M., Liesa, M., Carreras, J. & Casas, J. M. 2008. U–Pb zircon ages (SHRIMP) for Cadomian and Lower Ordovician magmatism in the Eastern Pyrenees: new insights in the pre-Variscan evolution of the northern Gondwana margin. Tectonophysics 461, 228–39.CrossRefGoogle Scholar
Cavet, P. 1957. Le Paléozoïque de la zone axiale des Pyrénées orientales françaises entre le Roussillon et l'Andorre. Bulletin Service Carte Géologique France 55, 303518.Google Scholar
Cirés, J., Martínez, A., Copons, R., Domingo, F., Casas, J. M., Fernández, O., Soriano, C. & Picart, J. In press. Mapa geológic o de España a escala 1:50.000, hoja de Bellver (n° 216). ITGE Madrid, España.Google Scholar
Cocherie, A., Baudin, Th., Autran, A., Guerra, C., Fanning, C. M. & Laumonier, B. 2005. U–Pb zircon (ID-TIMS and SHRIMP) evidence for the early Ordovician intrusion of metagranites in the late Proterozoic Canaveilles Group of the Pyrenees and the Montagne Noire (France). Bulletin Societé Géologique de France 176, 269–82.CrossRefGoogle Scholar
Conti, P., Carmignani, L. & Funedda, A. 2001. Change of nappe transport direction during the Variscan collsional evolution of central-southern Sardinia (Italy). Tectonophysics 332, 255–73.CrossRefGoogle Scholar
Cygan, C., Perret, M. F. & Raymond, D. 1981. Le Dévonien et le Carbonifère du “Synclinal de Villefranche-de-Conflent” (Pyrénées orientales, France): datation par Conodontes et conséquences structurales. Bulletin Bureau Recherches Géologiques et Minières 2, 113–18.Google Scholar
Delvolvé, J. J., Souquet, P., Vachard, D., Perret, M. F. & Aguirre, P. 1993. Caractérisation d'un basin d'avant-pays dans le Carbonifère des Pyrénées: faciès, chronologie de la tectonique synsédimentaire. Comptes Rendus Académie Sciences Paris 316, 959–66.Google Scholar
Delvolvé, J. J., Vachard, D. & Souquet, P. 1998. Stratigraphic record of thrust propagation, Carboniferous foreland basin, Pyrenees, with emphasis on Pays-de-Sault (France/Spain). Geologische Rundschau 87, 363–72.Google Scholar
Den Brok, S. W. J. 1989. Evidence for pre-Variscan deformation in the Lys Caillaouas area, Central Pyrenees, France. Geologie en Mijnbouw 68, 377–80.Google Scholar
Díaz García, F. 2001. Tectónica y magmatismo Ordovícicos en el área de Sanabria, Macizo Ibérico. Geogaceta 32, 119–22.Google Scholar
Díez Balda, M. A., Vegas, R. & González Lodeiro, F. 1990. Central Iberian Zone. Autochtonous sequences. Structure. In Pre-Mesozoic Geology of Iberia (eds Dallmeyer, R. D. & García, E. Martínez), pp. 172–88. Berlin: Springer-Verlag.Google Scholar
Domingo, F., Muñoz, J. A. & Santanach, P. 1988. Estructures d'encavalcament en les materials del sòcol hercinia del massís de la Tossa d'Alp, Pirineu oriental. Acta Geologica Hispanica 23, 141–53.Google Scholar
Finney, S. 2005. Global Series and Stages for the Ordovician System: A Progress Report. Geologica Acta 3, 309–16.Google Scholar
García-Sansegundo, J., Gavaldà, J. & Alonso, J. L. 2004. Preuves de la discordance de l'Ordovicien supérieur dans la zone axiale des Pyrénées: exemple de dôme de la Garonne (Espagne, France). Comptes Rendus Geosciences 336, 1035–40.CrossRefGoogle Scholar
Gil-Peña, I., Barnolas, A., Villas, E. & Sanz-López, J. 2004. El Ordovícico Superior de la Zona Axial. In Geología de España (ed. Vera, J. A.), pp. 247–9. Madrid: SGE-IGME.Google Scholar
Gil Peña, I., Sanz Lopez, J., Barnolas, A., Clariana, P. 2000. Secuencia sedimentaria del Ordovicico superior en el margen occidental del domo del Orri (Pirineos Centrales). Geotemas 1 (2), 187–90.Google Scholar
Guitard, G. 1967. Phases de plissement dans les terrains métamorphiques de la zone axiale pyrénéenne du Canigou durant l'orogenése hercynienne. Comptes Rendus Académie Sciences Paris 265, 1357–60.Google Scholar
Guitard, G. 1970. Le métamorphisme hercynien mésozonal et les gneiss oeillés du massif du Canigou (Pyrénées orientales). Orléans: Mémoires du B.R.G.M. 63, 353 pp.Google Scholar
Guitard, G., Geyssant, J., Laumonier, B., Autran, A., Fonteilles, M., Dalmayrach, B., Vidal, J. C. & Bandet, Y. 1992. Carte géologique de la France à 1:50.000 Prades (1095). Service Géologique National, Orléans: BRGM.Google Scholar
Guitard, G., Laumonier, B., Autran, A., Bandet, Y. & Berger, G. M. 1998. Notice explicative, Carte géologique France (1:50.000), feuille Prades (1095). Orléans: BRGM, 198 pp.Google Scholar
Gutierrez-Marco, J. C., Robardet, M., Rabano, I., Sarmiento, G. N., San Jose Lancha, M. A., Herranz, P. & Pieren Pidal, A. P. 2002. Ordovician. In The Geology Of Spain (eds Gibbons, W. & Moreno, Y. T.), pp. 3149. London: Geological Society.CrossRefGoogle Scholar
Hartevelt, J. J. A. 1970. Geology of the upper Segre and Valira valleys, central Pyrenees, Andorra/Spain. Leidse Geologische Mededelingen 45, 167236.Google Scholar
Laumonier, B. 1988. Les groupes de Canaveilles et de Jujols («Paléozoïque inférieur») des Pyrénées orientales. Arguments en faveur de l’âge essentiellement cambrien de ces séries. Hercynica 4, 2538.Google Scholar
Laumonier, B. 1996. Le Cambro-Ordovicien des Pyrénées. In Synthèse géologique et géophysique des Pyrénées (eds Barnolas, A. & Chiron, J. C.), pp. 140–80. Orléans & Madrid: BRGM-ITGE.Google Scholar
Laumonier, B. & Guitard, G. 1978. Contribution à l’étude des tectoniques superposes hercyniennes dans les Pyrénées orientales: le problème des plissements précoces dans le synclinal de Villefranche. Revue géographie physique et géologie dynamique 20, 177212.Google Scholar
Leone, F., Ferretti, A., Hammann, W., Loi, A., Pillola, G. L. & Serpagli, E. 2002. A general view of the post-Sardic Ordovician sequence from SW Sardinia. Rendiconti della Società Paleontologica Italiana 1, 5168.Google Scholar
Llopis Lladó, N. 1965. Sur le Paléozoïque inférieur de l'Andorre. Bulletin Societé Géologique de France 7, 652–9.CrossRefGoogle Scholar
Lüneburg, C. M. & Lebit, H. D. W. 1998. The development of a single cleavage in an area of repeated folding. Journal of Structural Geology 20, 1531–48.CrossRefGoogle Scholar
Martí, J., Muñoz, J. A. & Vaquer, R. 1986. Les roches volcaniques de l'Ordovicien supérieur de la région de Ribes de Freser-Rocabruna (Pyrénées catalanes): caractères et signification. Comptes Rendus Académie Sciences Paris 302, 1237–42.Google Scholar
Martínez, F. J., Capdevila, R. & Reche, J. 2009. Lower-Paleozoic rifting-related magmatism in two Northeastern Iberian massifs. Geochronology and geochemistry. In The Iapetan and Rheic margin of northwest Gondwana, and the Evolution of the Ibero-Armorican Arc. Field trip guide and conference abstracts (eds Gutiérrez-Alonso, G., Weil, A. B., Fernández-Suárez, J., Johnston, S. T., González-Clavijo, E., Díaz-Montes, A., Alonso, M. A. Rodríguez, Rubio, A. & Merino, O. Tomé), pp. 270–1. Salamanca: Universidad de Salamaca.Google Scholar
Martínez-Catalán, J. R. 1990. A non-cylindrical model for the northwest Iberian allochtonous terranes and their equivalents in the Hercynian belt of Western Europe. Tectonophysics 179, 253–72.CrossRefGoogle Scholar
Martínez Catalán, J. R., Rodríguez, M. P. H., Alonso, P. V., Pérez Estaún, A. & González Lodeiro, F. 1992. Lower Paleozoic extensional tectonics in the limit between the West Asturian-Leonese and Central Iberian Zones of the Variscan Fold-Belt in NW Spain. Geologische Rundschau 81, 545–60.CrossRefGoogle Scholar
Martini, I. P., Tongiorgi, M., Oggiano, G. & Cocoza, T. 1991. Ordovician alluvial fan to marine shelf transition in SW Sardinia, Western Mediterranean Sea: Tectonically (“Sardic phase”) influenced clastic sedimentation. Sedimentary Geology 72, 97115.CrossRefGoogle Scholar
Matte, Ph. 1986. Tectonics and plate tectonics model for the variscan belt of Europe. Tectonophysics 126, 329–74.CrossRefGoogle Scholar
Muñoz, J. A. 1992 a. Estructura alpina i herciniana a la vora sud de la Zona Axial del Pirineu oriental. Monografies núm. 1. Publicació del Servei Geològic de Catalunya, Barcelona: Generalitat de Catalunya, Departament de Política Territorial i Obres Públiques, Servei Geologic de Catalunya, 227 pp.Google Scholar
Muñoz, J. A. 1992 b. Evolution of a continental colision belt: ECORS-Pyrenees crustal balanced cross-section. In Thrust Trectonics (ed. McClay, K. R.), pp. 235–46. London: Chapman & Hall.CrossRefGoogle Scholar
Muñoz, J. A. & Casas, J. M. 1996. Tectonique préhercynienne. In Synthèse géologique et géophysique des Pyrénées (eds Barnolas, A. & Chiron, J. C.), pp. 587–9. Orléans & Madrid: BRGM-ITGE.Google Scholar
Naud, G. 1981. Confirmation de l'existence de la discordance angulaire anté-ordovicienne dans le Sarrabus (Sardaigne sub-orientale): conséquences géodynamiques. Comptes Rendus Académie Sciences Paris 292, 1153–6.Google Scholar
Oen, I. S. 1970. Granite intrusions, folding and metamorphism in central northern Portugal. Boletín Geológico y Minero 81, 271–98.Google Scholar
Ramsay, J. G. & Huber, M. I. 1983. The Techniques of Modern Structural Geology. Volume 1: Strain Analysis. London: Academic Press, 307 pp.Google Scholar
Ravier, J. R., Thiébaut, J. & Chevenoy, M. 1975. Sur l'importance des évenéments calédoniens dans l'histoire de la chaîne pyrénéenne. Comptes Rendus Académie Sciences Paris 280, 2521–3.Google Scholar
Ribeiro, A., Munhà, J., Dias, R., Mateus, A., Pereira, E., Ribeiro, L., Fonseca, P., Araújo, A., Oliveira, T., Romão, J., Chaminé, H., Coke, C. & Pedro, J. 2007. Geodynamic evolution of the SW Europe Variscides. Tectonics 26, TC6009.CrossRefGoogle Scholar
Robardet, M. 2002. Alternative approach to the Variscan Belt in southwestern Europe: Preorogenic paleobiogeographical constraints. In Variscan–Appalachian dynamics: The building of the late Paleozoic basement (eds Catalán, J. R. Martínez, Hatcher, R. D., Arenas, R. & García, F. Díaz), pp. 115. Boulder, Colorado: Geological Society of America Special Paper no. 364.Google Scholar
Robert, J. F. & Thiebaut, J. 1976. Découverte d'un volcanisme acide dans le Caradoc de la région de Ribes de Feser (Prov. de Gerone). Comptes Rendus Académie Sciences Paris 282, 2050–79.Google Scholar
Roda, J. 1986. Nuevos datos sobre la fase de deformación sárdica. Geometría de los pliegues prehercínicos del Río Salor (Cáceres). Geogaceta 1, 1315.Google Scholar
Romão, J., Coke, C., Dias, R. & Ribeiro, A. 2005. Transient inversion during the opening stage of the Wilson cycle “Sardic phase” in the Iberian Variscides – stratigraphic and tectonic record. Geodinamica Acta 18, 115–29.CrossRefGoogle Scholar
Romão, J. & Ribeiro, A. 1992. Thrust tectonics of Sardic age in the Rosmaninhal area (Beira Baixa, Central Portugal). Comunicações dos Serviços Geológicos de Portugal 78, 8795.Google Scholar
Romer, R. L. & Soler, A. 1995. U–Pb age and lead isotopic characterization of Au-bearing skarn related to the Andorra granite. Mineralium Deposita 30, 374–83.CrossRefGoogle Scholar
Santanach, P. F. 1972 a. Estudio tectónico del Paleozoico inferior del Pirineo entre la Cerdaña y el río Ter. Acta Geológica Hispánica 7, 44–9.Google Scholar
Santanach, P. 1972 b. Sobre una discordancia en el Paleozoico inferior de los Pirineos orientales. Acta Geológica Hispánica 7, 129–32.Google Scholar
Silva, A. F. & Ribeiro, A. 1985. Thrust tectonics of “Sardic” Age in the Alto Douro region (north-eastern Portugal). Comunicações dos Serviços Geológicos de Portugal 71, 151–7.Google Scholar
Speksnijder, A. 1986. Geological analysis of Paleozoic large-scale faulting in the south-central Pyrenees. Geologica Ultraiectina 43, 211 pp.Google Scholar
Stampfli, G. M., Von Raumer, J. F. & Borel, G. D. 2002. Paleozoic evolution of pre-Variscan terranes: from Gondwana to the Variscan collision. In Variscan–Appalachian dynamics: The building of the late Paleozoic basement (eds Catalán, J. R. Martínez, Hatcher, R. D., Arenas, R. & García, F. Díaz), pp. 263–80. Boulder, Colorado: Geological Society of America Special Paper no. 364.Google Scholar
Stille, H. 1939. Bemerkungen betreffend die “Sardische” Faultung und den Ausdruck “Ophiolithisch”. Zeitschrift der Deutschen Geologischen Gesellschaft 91, 771–3.CrossRefGoogle Scholar
Teichmüller, R. 1931. Zur Geolgie des Thyrrhenisgebietes. Teil 1: Alte und junge Krustenbewegungen im südlinchen Sardinien. Abhandlungen der wissenschaftlichen Gessellschaft Göttingen (Math.-Phys. Kl.) 3, 857950.Google Scholar
Valverde-Vaquero, P. & Dunning, G. R. 2000. New U–Pb ages for Early Ordovician magmatism in Central Spain. Journal of the Geological Society, London 157, 1526.CrossRefGoogle Scholar
Von Raumer, J. F., Stampfli, G. M., Borel, G. & Bussy, F. 2002. Organization of pre-Variscan basement areas at the north-Gondwanan margin. International Journal of Earth Sciences 91, 3552.CrossRefGoogle Scholar
Zwart, H. J. 1979. The geology of the Central Pyrenees. Leidse Geologische Mededelingen 50, 174.Google Scholar