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W1624109400 abstract "Paleomagnetic and structural analyses of the Western European Variscan Belt (WEVB) suggest that the most viable kinematic model for Variscan deformation in northern Iberia is oroclinal bending of an originally linear belt in a two‐stage tectonic history. This history represents two regional compression phases (E‐W in the Late Carboniferous and N‐S in the Permian, both in present‐day coordinates), which resulted in the refolding (about steeply plunging axes) of initially north‐south trending thrusts and folds in the hinge zone, and oroclinal tightening due to vertical axis rotation of the belt's limbs. However, the orocline model has yet to be critically tested in the WEVB's core. This study reports new paleomagnetic, rock magnetic, and structural data from the inner core of the WEVB in order to test opposing kinematic models for the well‐documented fault and fold interference structures formed by late stage Variscan deformation and to better understand the overall development of the WEVB arc. Map‐scale structural features within the WEVB core have a highly sinuous geometry characterized by transverse and thrust‐parallel fold systems formed by fault bend folding over footwall ramps. The intersections of these two fold systems produce steeply plunging interference folds, which are best exposed in the Ponga thrust unit. A total of 67 paleomagnetic sites were collected in the Barcaliente Formation of the Ponga Unit, with emphasis placed on detailed spatial coverage of individual structural domains. A multicomponent paleomagnetic remanence was measured, which is interpreted to be composed of two components; a low unblocking temperature recent viscous magnetization and a high unblocking temperature ancient magnetization that was acquired in the latest Stephanian to Early Permian after initial D1 thrusting and folding bur prior to major secondary rotation. Rock magnetic experiments show that the characteristic remanence magnetization is carried by secondary authigenic pseudosingle‐domain magnetite. These paleomagnetic results are used to determine the kinematics and geometry of postmagnetization deformation by restoring in situ magnetic vectors back to a defined reference direction. On the basis of the restored Ponga Unit geometry, the steeply plunging interference folds found in the WEVB core are best described by a combination of secondary buckling of frontal‐ramp‐parallel hanging wall anticlines and modification of D1 lateral/oblique ramps as frontal ramps during late stage north‐south shortening. This combination of structural modification of the inner core of the WEVB was necessary to accommodate oroclinal bending during the final amalgamation of Pangea in the late Paleozoic." @default.
W1624109400 created "2016-06-24" @default.
W1624109400 creator A5061278757 @default.
W1624109400 date "2006-06-01" @default.
W1624109400 modified "2023-10-13" @default.
W1624109400 title "Kinematics of orocline tightening in the core of an arc: Paleomagnetic analysis of the Ponga Unit, Cantabrian Arc, northern Spain" @default.
W1624109400 cites W1565246037 @default.
W1624109400 cites W181754626 @default.
W1624109400 cites W1966233754 @default.
W1624109400 cites W1966965408 @default.
W1624109400 cites W1968535573 @default.
W1624109400 cites W1975502690 @default.
W1624109400 cites W1975579431 @default.
W1624109400 cites W1980930235 @default.
W1624109400 cites W1981196268 @default.
W1624109400 cites W1984765308 @default.
W1624109400 cites W1985899760 @default.
W1624109400 cites W1988212783 @default.
W1624109400 cites W1993859923 @default.
W1624109400 cites W1996151629 @default.
W1624109400 cites W1996903431 @default.
W1624109400 cites W2000460840 @default.
W1624109400 cites W2009079992 @default.
W1624109400 cites W2010936533 @default.
W1624109400 cites W2012594522 @default.
W1624109400 cites W2013853084 @default.
W1624109400 cites W2020000659 @default.
W1624109400 cites W2022514834 @default.
W1624109400 cites W2026620925 @default.
W1624109400 cites W2031296488 @default.
W1624109400 cites W2031357751 @default.
W1624109400 cites W2035592590 @default.
W1624109400 cites W2037887393 @default.
W1624109400 cites W2042024191 @default.
W1624109400 cites W2043599273 @default.
W1624109400 cites W2043682836 @default.
W1624109400 cites W2047281303 @default.
W1624109400 cites W2049361944 @default.
W1624109400 cites W2050413777 @default.
W1624109400 cites W2052128667 @default.
W1624109400 cites W2052314789 @default.
W1624109400 cites W2053024735 @default.
W1624109400 cites W2054465479 @default.
W1624109400 cites W2055092449 @default.
W1624109400 cites W2058197219 @default.
W1624109400 cites W2058801906 @default.
W1624109400 cites W2059953658 @default.
W1624109400 cites W2063510845 @default.
W1624109400 cites W2063963068 @default.
W1624109400 cites W2066993557 @default.
W1624109400 cites W2067837663 @default.
W1624109400 cites W2068200136 @default.
W1624109400 cites W2071732165 @default.
W1624109400 cites W2073594993 @default.
W1624109400 cites W2074180110 @default.
W1624109400 cites W2081372083 @default.
W1624109400 cites W2081858478 @default.
W1624109400 cites W2082002429 @default.
W1624109400 cites W2082189313 @default.
W1624109400 cites W2082632259 @default.
W1624109400 cites W2083302925 @default.
W1624109400 cites W2083725193 @default.
W1624109400 cites W2086838630 @default.
W1624109400 cites W2090052585 @default.
W1624109400 cites W2090397507 @default.
W1624109400 cites W2091179707 @default.
W1624109400 cites W2095016071 @default.
W1624109400 cites W2095293118 @default.
W1624109400 cites W2095800081 @default.
W1624109400 cites W2095885691 @default.
W1624109400 cites W2097767948 @default.
W1624109400 cites W2102206214 @default.
W1624109400 cites W2110347449 @default.
W1624109400 cites W2110949060 @default.
W1624109400 cites W2111676506 @default.
W1624109400 cites W2114480852 @default.
W1624109400 cites W2116941272 @default.
W1624109400 cites W2118204502 @default.
W1624109400 cites W2122111106 @default.
W1624109400 cites W2128121900 @default.
W1624109400 cites W2139538598 @default.
W1624109400 cites W2140041033 @default.
W1624109400 cites W2147616711 @default.
W1624109400 cites W2158961141 @default.
W1624109400 cites W2164375006 @default.
W1624109400 cites W2164507222 @default.
W1624109400 cites W2165658162 @default.
W1624109400 cites W2167311768 @default.
W1624109400 cites W2169115796 @default.
W1624109400 cites W2180716828 @default.
W1624109400 cites W2323103518 @default.
W1624109400 cites W2331716385 @default.
W1624109400 cites W2397159464 @default.
W1624109400 cites W2405172221 @default.
W1624109400 cites W4234550589 @default.
W1624109400 cites W83342289 @default.
W1624109400 cites W91644961 @default.
W1624109400 doi "https://doi.org/10.1029/2005tc001861" @default.
W1624109400 hasPublicationYear "2006" @default.
W1624109400 type Work @default.