- Iberian plate
The microcontinent Iberia encompassed not only the Iberian Peninsula but also Corsica, Sardinia, the Balearic Islands, and the Briançonnais zone of the Penninic nappes of the Alps. Nowadays, the Iberian plate is a part of the Eurasian plate.
The Iberian plate came into existence during the Cadomian Orogeny of the late Neoproterozoic, about 650-550 Ma, on the margin of the Gondwana continent, involving the collisions and accretion of the island arcs of the Central Iberian Plate, Ossa-Morena Plate, South Portuguese Plate. The three plates have never separated substantially from each other since that time (López-Guijarro et al. 2008).
In the Mesozoic, Late Jurassic Africa started moving east, and the Alpine Tethys opened. Subsistence related to this caused deep deposits of sediments on the east and some sediment remnants in pop downs in central parts of Spain. Two stages of rifting occurred in the east, one from Later Permian to Triassic, and the second from Late Jurassic to early Cretaceous.
On the south side deposits of carbonates and clastic sediments formed a shelf in shallow water during late Triassic and Liassic times. This was rifted in Toarcian times (Early Jurassic 190 Ma). Active rifting was complete by 160 Ma. After this thermal subsidence occurred till the end of Cretaceous. During this time rifting separated North America from Africa forming a transform zone (Andeweg 2002). In Late Triassic and Early Jurassic there were two stages of rifting involving extension and subsistence on the western margin of Iberia. It also extended the western margin. The Iberian Abyssal Plain, off the west coast of Portugal and Spain, formed 126 Ma. This separated Newfoundland's Grand Banks, with Galica Bank and Flemish Cap being split at 118 Ma. By Early Cretaceous, 110 Ma rifting occurs on west and north west edges.
During the time of the supercontinent Pangea, the Iberian plate was joined to Armorica (Northern France). During the break-up of Pangea, in the early Cretaceous, the Bay of Biscay started opening around 126 Ma and completed by 85 Ma. This created the Biscay Abyssal Plain, and parted the Iberian plate from the Trevelyan Escarpment. During this time Iberia rotated anticlockwise relative to Eurasia. This caused the subduction of the Ligurian Basin onto the eastern side. This formed the Betic nappe stack. After 85 Ma the Atlantic Ocean opening started between Ireland and Greenland. This left the Bay of Biscay as a failed rift (Andeweg 2002).
The rotation of the Iberia and its relation to the formation of the Pyrenees has been difficult to decipher with certainty. Detailed aeromagnetic measurements from the sea floor offshore of the Grand Banks of Newfoundland to show that Iberia moved as part of the African plate from late Cretaceous to mid-Eocene time, with a plate boundary extending westward from the Bay of Biscay. When motion along this boundary ceased, a boundary linking extension in the King's Trough to compression along the Pyrenees came into existence.
Since the late Oligocene, the Iberian plate has been moving as part of the Eurasian plate, with the boundary between Eurasia and Africa situated along the Azores–Gibraltar fracture zone.
Continued rotation of the Iberian plate in the early Miocene once again separated the Iberian plate from Eurasia opening the Betic Corridor a strait of water connecting the Mediterranean Sea with the Atlantic Ocean. As the Iberian plate rotated, it closed the Betic Corridor approximately 5.96 million years ago during the Messinian period of the Miocene, precipitating the Messinian Salinity Crisis, a period when the Mediterranean Sea evaporated partly or completely (Krijgsman et al. 1996).
The core of the Iberian Peninsula consists of a Hercynian cratonic block known as the Iberian Massif. On the northeast this is bounded by The Pyrenean fold belt, and on the southeast it is bounded by the Betic Foldchain. These twofold chains are part of the Alpine belt. To the west, the peninsula is delimited by the continental boundary formed by the magma poor opening of the Atlantic Ocean. The Hercynian Foldbelt is mostly buried by Mesozoic and Tertiary cover rocks to the east, but nevertheless outcrops through the Iberian Chain and the Catalonian Coastal Ranges.
- ^ Map is based on Franke (1992, 2000), Matte (2001), von Raumer et al. (2003) and Walter (2003)
- ^ Schmid, Stefan M.. "Description of the Western and Central Alps". Geologisch-Paläontologisches Institut, University of Basel. http://pages.unibas.ch/earth/tecto/Members/Schmid/alps/schmid_html/Text_Schmid.html.
- ^ Le Bayon & Ballèvre 2006.
- ^ Andeweg 2002.
- ^ a b Srivastava, Schouten & Roest Klitgord1990.
- ^ Le Pichon & Sibuet 1971.
- ^ Le Pichon, Sibuet & Francheteau 1971.
- ^ Sclater, Hellinger & Tapscott 1977.
- ^ Grimaud, S.; Boillot, G.; Collette, B.J.; Mauffret, A.; Miles; P.R.; Roberts, D.B. (January 1982). "Western extension of the Iberian-European plate-boundary during early Cenozoic (Pyrenean) convergence: a new model". Marine Geology 45 (1–2): 63−77. doi:10.1016/0025-3227(82)90180-3.
- ^ JL Olivet, JM Auzende, P Beuzart (September 1983). "Western extension of the Iberian-European plate boundary during the Early Cenozoic (Pyrenean) convergence: A new model — Comment". Marine Geology 53 (3): 237−238. doi:10.1016/0025-3227(83)90078-6.
- ^ S. Grimaud, G. Boillot, B.J. Collette, A. Mauffret, P.R. Miles and D.B. Roberts (September 1983). "Western extension of the Iberian-European plate boundary during the Early Cenozoic (Pyrenean) convergence: A new model — Reply". Marine Geology 53 (3): 238−239. doi:10.1016/0025-3227(83)90079-8.
- ^ Olivet et al. 1984.
- ^ Schouten, Srivastava & Klitgord 1984.
- ^ Savostovin et al. 1986.
- ^ Martín et al. 2009.
- ^ Seber et al. 1996.
- Andeweg, Bernd (2002). Cenozoic tectonic evolution of the Iberian Peninsula, causes and effects of changing stress fields (PhD Thesis). http://www.geo.vu.nl/~andb/iberia/index-en.html.
- Benjamin Le Bayon and Michel Ballèvre (May 2006). "Deformation history of a subducted continental crust (Gran Paradiso, Western Alps): continuing crustal shortening during exhumation". Journal of Structural Geology (Journal of Structural Geology) 28 (5): 793–815. doi:10.1016/j.jsg.2006.02.009.
- Krijgsman, W.; Garcés, M.; Langereis, C.G.; Daams, R.; Van Dam, J.; Van Der Meulen, A.J.; Agustí, J.; Cabrera, L. (1996). "A new chronology for the middle to late Miocene continental record in Spain". Earth and Planetary Science Letters 142 (3–4): 367–380. Bibcode 1996E&PSL.142..367K. doi:10.1016/0012-821X(96)00109-4. http://doc.rero.ch/lm.php?url=1000,43,39,20091210000225-ZZ/PAL_E203.pdf. Retrieved 2008-03-01.
- Rafael López-Guijarro, Maider Armendáriz, Cecilio Quesada, Javier Fernández-Suárez; J. Brendan Murphy, Christian Pin, and Felix Bellido (December 2008). "Ediacaran–Palaeozoic tectonic evolution of the Ossa Morena and Central Iberian zones (SW Iberia) as revealed by Sm–Nd isotope systematics". Tectonophysics 461 (1–4): 202–214. doi:10.1016/j.tecto.2008.06.006.
- José M. Martín, Juan C. Braga, Julio Aguirre and Ángel Puga-Bernabéu (15 April 2009). "History and evolution of the North-Betic Strait (Prebetic Zone, Betic Cordillera): A narrow, early Tortonian, tidal-dominated, Atlantic–Mediterranean marine passage". Sedimentary Geology 216 (3–4): 80–90. doi:10.1016/j.sedgeo.2009.01.005.
- Olivet, J.L., Bonnin, J., Beuzart, Paul & Auzende, Jean-Marie (October 1984). "Cinématique de l'Atlantique Nord et Central [Kinematics of the North and Central Atlantic]" (in french). Publication du Centre National pour I'Exploitation des Ocean (Cnexo). Rapports scientifiques et techniques (Paris: Centre Oceanologique de Bretagne, Brest) 54: 1−108. http://archimer.ifremer.fr/doc/1984/publication-7439.pdf.
- Le Pichon, X.; Sibuet, J.C. (September 1971). "Earth planet |DUPLICATE DATA: title=Western extension of boundary between European and Iberian plates during the Pyrenean orogeny". Earth and Planetary Science Letters 12 (1): 83−88. doi:10.1016/0012-821X(71)90058-6.
- Le Pichon, X., Sibuet, J. C. & Francheteau, J. (23 March 1977). "The fit of the continents around the North Atlantic Ocean". Tectonophysics 38 (3–4): 169−209. doi:10.1016/0040-1951(77)90210-4.
- L.M. Pinheiro, R.C.L. Wilson, R. Pena dos Reis, R.B. Whitmarsh, A. Ribeiro (1996). "The Western Iberia Margin: A Geophysical and Geological Overview". Proceedings of the Ocean Drilling Program. Scientific results 149: 3–23. ISSN 0884-5891. http://odp.pangaea.de/publications/149_SR/VOLUME/CHAPTERS/SR149_01.PDF.
- Savostovin, L. A., Sibuet, J. C., Zonenshain, L. P., Le Pichon, X. & Roulet, M. J. (1986). "Kinematic evolution of the Tethys belt from the Atlantic ocean to the pamirs since the Triassic". Tectonophysics 123: 1−35. doi:10.1016/0040-1951(86)90192-7.
- Schouten, H., Srivastava, S. P. & Klitgord, K. (1984). Trans. Am. Geophys. Un. 65: 190.
- Sclater, J. G., Hellinger, S. & Tapscott, C. R. J. (1977). "Paleobathymetry Of Atlantic Ocean From Jurassic To Present". Journal of Geology 85 (5): 509−552. Bibcode 1977JG.....85..509S. doi:10.1086/628336. ISSN 0022-1376.
- Seber, D.; Barazangi, M.; Ibenbrahim, A.; Demnati, A. (1996). "Geophysical evidence for lithospheric delamination beneath the Alboran Sea and Rif--Betic mountains". Nature 379 (6568): 785–790. doi:10.1038/379785a0.
- S.P. Srivastava, H. Schouten, W.R. Roest, K.D. Klitgord; L.C. Kovacs, J. Verhoef, & R. Macnab (19 April 1990). "Iberian plate kinematics: a jumping plate boundary between Eurasia and Africa". Nature 344 (6268): 756. doi:10.1038/344756a0.
Tectonic plates Major Minor OtherAegean Sea · Altiplano · Amurian · Anatolian · Apulian · Australian · Balmoral Reef · Banda Sea · Bird's Head · Burma · Capricorn · Caroline · Conway Reef · Easter · Explorer · Falklands · Futuna · Galapagos · Gonâve · Gorda · Greenland · Halmahera · Iberian · Indian · Iranian · Juan Fernández · Kerguelen · Kermadec · Kula · Madagascar · Manus · Maoke · Mariana · Molucca Sea · New Hebrides · Niuafo'ou · North Andes · North Bismarck · North Galapagos · Nubian · Okhotsk · Okinawa · Panama · Pelso · Philippine Mobile Belt · Rivera · Sangihe · Seychelles · Shetland · Solomon Sea · Somali · South Bismarck · South Sandwich · Sri Lanka · Sunda · Timor · Tisza · Tonga · Woodlark · Yangtze All
Wikimedia Foundation. 2010.
Look at other dictionaries:
Plate tectonics — The tectonic plates of the world were mapped in the second half of the 20th century … Wikipedia
Geology of the Iberian Peninsula — The geology of the Iberian Peninsula consists of the study of the rock formations on the Iberian Peninsula, which includes Spain, Portugal, Andorra, and Gibraltar. The peninsula contains rocks from every age from Ediacaran to Recent, and almost… … Wikipedia
North American Plate — The North American plate, shown in brown The North American Plate is a tectonic plate covering most of North America, Greenland, Cuba, Bahama … Wikipedia
Nazca Plate — The Nazca plate, shown in light blue Full size image showing all plates The Nazca Plat … Wikipedia
African Plate — The African plate, shown in pinkish orange The African Plate is a tectonic plate which includes the continent of Africa, as well as oceanic crust which lies … Wikipedia
Okhotsk Plate — Map of the Okhotsk Plate and its neighbouring plates The Okhotsk Plate is a tectonic plate covering the Sea of Okhotsk, the Kamchatka Peninsula, and Eastern Japan. It was formerly considered a part of the North American Plate, but recent studies… … Wikipedia
Molucca Sea Plate — Map of the Molucca Sea Plate (as Mer des Moluques ) and its neighbouring plates (in French) Contents 1 Earlier theory … Wikipedia
North Bismarck Plate — Map of the North Bismarck Plate (as Bismarck Nord ) and its neighbouring plates (in French). Where Manus is labeled it should be BSSL. The North Bismarck Plate is a small tectonic plate located in the Bismarck Sea off the northeast coast of New… … Wikipedia
Amurian Plate — China Plate redirects here. For the ceramic pottery, see fine china. Map of the Amurian Plate and the adjacent tectonic plates (in French) The Amurian Plate (or Amur Plate; also occasionally referred to as the China Plate) is a proposed… … Wikipedia
Manus Plate — Map of the Manus Plate and its neighboring plates (in French) The Manus Plate is a tiny tectonic plate located northeast of New Guinea. It is sandwiched between the North Bismarck Plate and the South Bismarck Plate. References 50. Bird, P. (2003) … Wikipedia