Tectonic evolution and global crustal architecture of the European Variscan belt constrained by geophysical data

[1]  K. Schulmann,et al.  Reconstruction of the mid-devonian HP-HT metamorphic event in the bohemian massif (European variscan belt) , 2022, Geoscience Frontiers.

[2]  H. Whitechurch,et al.  Eclogite subduction wedge intruded by arc-type magma: The earliest record of Variscan arc in the Bohemian Massif , 2021 .

[3]  M. Spalla,et al.  Cld-St-And-Bearing Assemblages in the Central Southalpine Basement: Markers of an Evolving Thermal Regime during Variscan Convergence , 2021, Minerals.

[4]  P. Allemand,et al.  Fast exhumation rate during late orogenic extension: the new timing of the Pilat detachment fault (French Massif Central, Variscan belt) , 2021, Gondwana Research.

[5]  K. Schulmann,et al.  The Mid-Variscan Allochthon: Keys from correlation, partial retrodeformation and plate-tectonic reconstruction to unlock the geometry of a non-cylindrical belt , 2021 .

[6]  T. Gerya,et al.  Trans-lithospheric diapirism explains the presence of ultra-high pressure rocks in the European Variscides , 2021, Communications Earth & Environment.

[7]  F. Neubauer,et al.  Hf isotopic constraints for Austroalpine basement evolution of Eastern Alps: review and new data , 2021 .

[8]  M. Malinowski,et al.  Pre-existing lithospheric weak zone and its impact on continental rifting – The Mid-Polish Trough, Central European Basin System , 2021 .

[9]  J. J. Villalaín,et al.  Characterizing the Source of the Eastern Galicia Magnetic Anomaly (NW Spain): The Role of Extension in the Origin of Magnetization at the Central Iberian Arc , 2021, Tectonics.

[10]  P. Jeřábek,et al.  Monazite geochronology in melt-percolated UHP meta-granitoids: An example from the Erzgebirge continental subduction wedge, Bohemian Massif , 2021 .

[11]  R. Spiess,et al.  Building an Orogen: Review of U-Pb Zircon Ages from the Calabria–Peloritani Terrane to Constrain the Timing of the Southern Variscan Belt , 2020, Minerals.

[12]  P. Pitra,et al.  From Burial to Exhumation: Emplacement and Metamorphism of Mafic Eclogitic Terranes Constrained Through Multimethod Petrochronology, Case Study from the Lévézou Massif (French Massif Central, Variscan Belt) , 2020, Journal of Petrology.

[13]  J. Alcalde,et al.  Evolution of the Iberian Massif as deduced from its crustal thickness and geometry of a mid-crustal (Conrad) discontinuity , 2020, Solid Earth.

[14]  R. Kryza,et al.  The Central Sudetic Ophiolite (European Variscan Belt): precise U–Pb zircon dating and geotectonic implications , 2020, Geological Magazine.

[15]  F. Finger,et al.  The Dobra Gneiss and the Drosendorf Unit in the southeastern Bohemian Massif, Austria: West Amazonian crust in the heart of Europe , 2020, Special Publications.

[16]  V. Gardien,et al.  Flow of partially molten crust controlling construction, growth and collapse of the Variscan orogenic belt: the geologic record of the French Massif Central , 2020, BSGF - Earth Sciences Bulletin.

[17]  M. Filippi,et al.  Variscan eclogites from the Argentera–Mercantour Massif (External Crystalline Massifs, SW Alps): a dismembered cryptic suture zone , 2020, International Journal of Earth Sciences.

[18]  A. Marotta,et al.  How many subductions in the Variscan orogeny? Insights from numerical models , 2020, Geoscience Frontiers.

[19]  K. Gaidzik,et al.  Late Palaeozoic strike-slip tectonics versus oroclinal bending at the SW outskirts of Baltica: case of the Variscan belt’s eastern end in Poland , 2020, International Journal of Earth Sciences.

[20]  K. Schulmann,et al.  Correlation of allochthonous terranes and major tectonostratigraphic domains between NW Iberia and the Bohemian Massif, European Variscan belt , 2019, International Journal of Earth Sciences.

[21]  K. Schulmann,et al.  Finite pattern of Barrovian metamorphic zones: interplay between thermal reequilibration and post-peak deformation during continental collision—insights from the Svratka dome (Bohemian Massif) , 2019, International Journal of Earth Sciences.

[22]  J. Sláma,et al.  Architecture and composition of ocean floor subducted beneath northern Gondwana during Neoproterozoic to Cambrian: A palinspastic reconstruction based on Ocean Plate Stratigraphy (OPS) , 2019 .

[23]  M. Schimmel,et al.  Lithospheric image of the Central Iberian Zone (Iberian Massif) using global-phase seismic interferometry , 2019, Solid Earth.

[24]  P. Hanžl,et al.  The rise of the Brunovistulicum: age, geological, petrological and geochemical character of the Neoproterozoic magmatic rocks of the Central Basic Belt of the Brno Massif , 2019, International Journal of Earth Sciences.

[25]  M. Ballèvre,et al.  Reassignment of Pentamerus davyi Oehlert to Zdimir robustus (Barrande) (Brachiopoda, Devonian): Stratigraphic and palaeogeographic implications , 2019, Annales de Paléontologie.

[26]  S. Mazur,et al.  Depth-to-basement for the East European Craton and Teisseyre-Tornquist Zone in Poland based on potential field data , 2019, International Journal of Earth Sciences.

[27]  A. Muñoz-Martín,et al.  The Spanish‐Portuguese Central System: An Example of Intense Intraplate Deformation and Strain Partitioning , 2018, Tectonics.

[28]  K. Verner,et al.  Complex mid‐crustal flow within a growing granite–migmatite dome: An example from the Variscan belt illustrated by the anisotropy of magnetic susceptibility and fabric modelling , 2018, Geological Journal.

[29]  F. Corfu,et al.  Chronology of the Saxothuringian subduction in the West Sudetes (Bohemian Massif, Czech Republic and Poland) , 2018, Journal of the Geological Society.

[30]  J. J. Villalaín,et al.  Magnetic Anomalies in Extensional Detachments: The Xistral Tectonic Window of the Lugo Dome (NW Spain) , 2018, Tectonics.

[31]  P. Pitra,et al.  Timing and duration of Variscan high-pressure metamorphism in the French Massif Central: A multimethod geochronological study from the Najac Massif , 2018 .

[32]  K. Schulmann,et al.  Combined Lu-Hf and Sm-Nd geochronology of the Mariánské Lázně Complex: New constraints on the timing of eclogite- and granulite-facies metamorphism , 2018 .

[33]  K. Schulmann,et al.  Late Palaeozoic palaeomagnetic and tectonic constraints for amalgamation of Pangea supercontinent in the European Variscan belt , 2018 .

[34]  M. Ballèvre,et al.  From opening to subduction of an oceanic domain constrained by LA-ICP-MS U-Pb zircon dating (Variscan belt, Southern Armorican Massif, France) , 2017 .

[35]  L. Matias,et al.  Crustal seismic structure beneath Portugal and southern Galicia (Western Iberia) and the role of Variscan inheritance , 2017 .

[36]  T. Torsvik,et al.  The Palaeozoic Variscan oceans revisited , 2017 .

[37]  A. Levander,et al.  Lithospheric structure of Iberia and Morocco using finite‐frequency Rayleigh wave tomography from earthquakes and seismic ambient noise , 2017 .

[38]  G. Manatschal,et al.  U–Pb geochronology of the Sondalo gabbroic complex (Central Alps) and its position within the Permian post-Variscan extension , 2017, International Journal of Earth Sciences.

[39]  A. Azor,et al.  Testing the Avalonian affinity of the South Portuguese Zone and the Neoproterozoic evolution of SW Iberia through detrital zircon populations , 2017 .

[40]  M. Corsini,et al.  Crustal exhumation during ongoing compression in the Variscan Maures-Tanneron Massif, France-Geological and thermo-mechanical aspects , 2016, Tectonophysics.

[41]  R. Albert,et al.  Allochthonous terranes involved in the Variscan suture of NW Iberia: A review of their origin and tectonothermal evolution , 2016 .

[42]  J. Wees,et al.  The Thor suture zone: From subduction to intraplate basin setting , 2016 .

[43]  P. Jeřábek,et al.  Two-stage exhumation of subducted Saxothuringian continental crust records underplating in the subduction channel and collisional forced folding (Krkonoše-Jizera Mts., Bohemian Massif) , 2016 .

[44]  S. Guillot,et al.  European Variscan orogenic evolution as an analogue of Tibetan‐Himalayan orogen: Insights from petrology and numerical modeling , 2016 .

[45]  G. Martelet,et al.  Mapping of a buried basement combining aeromagnetic, gravity and petrophysical data: The substratum of southwest Paris Basin, France , 2016 .

[46]  M. Malinowski,et al.  Is the Teisseyre‐Tornquist Zone an ancient plate boundary of Baltica? , 2015 .

[47]  J. Carreras,et al.  The “Castilian bend” of Rudolf Staub (1926): historical perspective of a forgotten orocline in Central Iberia , 2015, Swiss Journal of Geosciences.

[48]  J. G. Barreiro,et al.  2-D thermal modeling of HT–LP metamorphism in NW and Central Iberia: Implications for Variscan magmatism, rheology of the lithosphere and orogenic evolution , 2015 .

[49]  L. Casini,et al.  Evolution of the Corsica–Sardinia Batholith and late-orogenic shearing of the Variscides , 2015 .

[50]  R. Jorge,et al.  Detrital zircon geochronology of the Carboniferous Baixo Alentejo Flysch Group (South Portugal); constraints on the provenance and geodynamic evolution of the South Portuguese Zone , 2015, Journal of the Geological Society.

[51]  G. Gutiérrez-Alonso,et al.  Dating of lithospheric buckling: 40Ar/39Ar ages of syn-orocline strike–slip shear zones in northwestern Iberia , 2015 .

[52]  J. Brun,et al.  Extensional tectonics in the Hercynian Armorican belt (France). An overview , 2015 .

[53]  D. Martí,et al.  Lithospheric velocity model across the Southern Central Iberian Zone (Variscan Iberian Massif): The ALCUDIA wide‐angle seismic reflection transect , 2015 .

[54]  J. R. Martínez Catalán,et al.  Detrital zircon and tectonostratigraphy of the Parautochthon under the Morais Complex (NE Portugal): implications for the Variscan accretionary history of the Iberian Massif , 2014, Journal of the Geological Society.

[55]  A. Paul,et al.  Ambient noise tomography of the Pyrenees and the surrounding regions: inversion for a 3-D Vs model in the presence of a very heterogeneous crust , 2014 .

[56]  P. Jeřábek,et al.  Magnetic fabric in amphibolized eclogites and serpentinized ultramafites in the Mariánské Lázně Complex (Bohemian Massif, Czech Republic): Product of exhumation-driven retrogression? , 2014 .

[57]  L. Godin,et al.  Tracking basement cross-strike discontinuities in the Indian crust beneath the Himalayan orogen using gravity data – relationship to upper crustal faults , 2014 .

[58]  M. Chichorro,et al.  Early Cambrian granitoids of North Gondwana margin in the transition from a convergent setting to intra-continental rifting (Ossa-Morena Zone, SW Iberia) , 2014, International Journal of Earth Sciences.

[59]  C. Ribeiro,et al.  Variability over time in the sources of South Portuguese Zone turbidites: evidence of denudation of different crustal blocks during the assembly of Pangaea , 2014, International Journal of Earth Sciences.

[60]  C. McFarlane,et al.  U–Pb geochronology and petrology of the late Paleozoic Gil Marquez pluton: magmatism in the Variscan suture zone, southern Iberia, during continental collision and the amalgamation of Pangea , 2014, International Journal of Earth Sciences.

[61]  D. Martí,et al.  Crustal deformation styles along the reprocessed deep seismic reflection transect of the Central Iberian Zone (Iberian Peninsula) , 2014 .

[62]  J. Lardeaux Deciphering orogeny: a metamorphic perspective Examples from European Alpine and Variscan belts: Part II: Variscan metamorphism in the French Massif Central -- A review , 2014 .

[63]  A. Marotta,et al.  The transition from Variscan collision to continental break-up in the Alps: insights from the comparison between natural data and numerical model predictions , 2014 .

[64]  M. Faure,et al.  The Moldanubian Zone in the French Massif Central, Vosges/Schwarzwald and Bohemian Massif revisited: differences and similarities , 2014 .

[65]  G. Ruffet,et al.  Correlation of the nappe stack in the Ibero-Armorican arc across the Bay of Biscay: a joint French–Spanish project , 2014 .

[66]  K. Schulmann,et al.  Anatomy of a diffuse cryptic suture zone: An example from the Bohemian Massif, European Variscides , 2014 .

[67]  L. Vondrovic,et al.  A plate-kinematic model for the assembly of the Bohemian Massif constrained by structural relationships around granitoid plutons , 2014 .

[68]  K. Schulmann,et al.  Palaeozoic evolution of the Variscan Vosges Mountains , 2014 .

[69]  L. Casini,et al.  Early Permian 90° clockwise rotation of the Maures–Estérel–Corsica–Sardinia block confirmed by new palaeomagnetic data and followed by a Triassic 60° clockwise rotation , 2014 .

[70]  C. Guerrot,et al.  Middle Carboniferous intracontinental subduction in the Outer Zone of the Variscan Belt (Montagne Noire Axial Zone, French Massif Central): multimethod geochronological approach of polyphase metamorphism , 2014 .

[71]  J. R. Martínez Catalán,et al.  Structural and stratigraphical significance of U–Pb ages from the Mora and Saldanha volcanic complexes (NE Portugal, Iberian Variscides) , 2014 .

[72]  M. Corsini,et al.  Thermal and mechanical evolution of an orogenic wedge during Variscan collision: an example in the Maures–Tanneron Massif (SE France) , 2014 .

[73]  J. Carreras,et al.  Framing the tectonic regime of the NE Iberian Variscan segment , 2014 .

[74]  P. Ayarza,et al.  The late Variscan HT/LP metamorphic event in NW and Central Iberia: relationships to crustal thickening, extension, orocline development and crustal evolution , 2014 .

[75]  J. Matas,et al.  Regional structure of the southern segment of Central Iberian Zone (Spanish Variscan Belt) interpreted from potential field images and 2.5 D modelling of Alcudia gravity transect , 2014 .

[76]  J. Sláma,et al.  U–Pb zircon provenance of Moldanubian metasediments in the Bohemian Massif , 2013, Journal of the Geological Society.

[77]  K. Verner,et al.  Multistage magma emplacement and progressive strain accumulation in the shallow‐level Krkonoše‐Jizera plutonic complex, Bohemian Massif , 2013 .

[78]  A. Cocherie,et al.  Tectonic evolution of the European Variscan belt constrained by palaeomagnetic, structural and anisotropy of magnetic susceptibility data from the Northern Vosges magmatic arc (eastern France) , 2013, Journal of the Geological Society.

[79]  C. Vérard,et al.  The formation of Pangea , 2013 .

[80]  J. Matas,et al.  High-pressure metamorphism in the Early Variscan subduction complex of the SW Iberian Massif , 2013 .

[81]  F. Hrouda,et al.  Magnetic fabrics in garnet peridotites-pyroxenites and host felsic granulites in the South Bohemian Granulites (Czech Republic): Implications for distinguishing between primary and metamorphism induced fabrics , 2013 .

[82]  A. Casas,et al.  Gravity and magnetic anomalies in the allochthonous Órdenes Complex (Variscan belt, northwest Spain): Assessing its internal structure and thickness , 2012 .

[83]  B. Baets,et al.  Estimating crustal thickness in Belgium and surrounding regions from Moho-reflected waves , 2012 .

[84]  A. Cocherie,et al.  The origin of zircon and the significance of U–Pb ages in high-grade metamorphic rocks: a case study from the Variscan orogenic root (Vosges Mountains, NE France) , 2012, Contributions to Mineralogy and Petrology.

[85]  J. R. Catalán,et al.  The Central Iberian arc, an orocline centered in the Iberian Massif and some implications for the Variscan belt , 2012 .

[86]  D. Martí,et al.  Imaging the crustal structure of the Central Iberian Zone (Variscan Belt): The ALCUDIA deep seismic reflection transect , 2012 .

[87]  C. Guerrot,et al.  The significance of Late Devonian ophiolites in the Variscan orogen: a record from the Vosges Klippen Belt , 2012, International Journal of Earth Sciences.

[88]  G. Gutiérrez-Alonso,et al.  Oroclines of the Variscan orogen of Iberia: Paleocurrent analysis and paleogeographic implications , 2012 .

[89]  R. Meissner,et al.  Crustal thickness controlled by plate tectonics: A review of crust–mantle interaction processes illustrated by European examples , 2012 .

[90]  M. Corsini,et al.  Crustal influx, indentation, ductile thinning and gravity redistribution in a continental wedge: Building a Moldanubian mantled gneiss dome with underthrust Saxothuringian material (European Variscan belt) , 2012 .

[91]  K. Schulmann,et al.  A geophysical model of the Variscan orogenic root (Bohemian Massif): Implications for modern collisional orogens , 2011 .

[92]  K. Schulmann,et al.  Tectono‐metamorphic history recorded in garnet porphyroblasts: insights from thermodynamic modelling and electron backscatter diffraction analysis of inclusion trails , 2011 .

[93]  C. Krawczyk,et al.  Anomalies of the Earth's total magnetic field in Germany – the first complete homogenous data set reveals new opportunities for multiscale geoscientific studies , 2011 .

[94]  C. Quesada,et al.  Tectonic escape of a crustal fragment during the closure of the Rheic Ocean: U–Pb detrital zircon data from the Late Palaeozoic Pulo do Lobo and South Portuguese zones, southern Iberia , 2011, Journal of the Geological Society.

[95]  P. Maguire,et al.  LISPB DELTA, a lithospheric seismic profile in Britain: analysis and interpretation of the Wales and southern England section , 2011, Journal of the Geological Society.

[96]  K. Schulmann,et al.  Model of syn‐convergent extrusion of orogenic lower crust in the core of the Variscan belt: implications for exhumation of high‐pressure rocks in large hot orogens , 2011 .

[97]  K. Schulmann,et al.  Heat sources and trigger mechanisms of exhumation of HP granulites in Variscan orogenic root , 2011 .

[98]  P. O'Brien,et al.  Diamond and coesite discovered in Saxony-type granulite: Solution to the Variscan garnet peridotite enigma , 2010 .

[99]  P. Hrubcová,et al.  From the Variscan to the Alpine Orogeny: crustal structure of the Bohemian Massif and the Western Carpathians in the light of the SUDETES 2003 seismic data , 2010 .

[100]  D. Demaiffe,et al.  New occurrence of UHP eclogites in Limousin (French Massif Central): age, tectonic setting and fluid-rock interactions , 2010 .

[101]  J. Brun,et al.  Deep reflection seismic imaging of the internal zone of the South Armorican Hercynian belt (western France) (ARMOR 2/Géofrance 3D Program) , 2010 .

[102]  J. Ritchie,et al.  Three-dimensional gravity and magnetic modelling of the Irish sector of the NE Atlantic margin , 2010 .

[103]  A. Gerdes,et al.  Baltica- and Gondwana-derived sediments in the Mid-German Crystalline Rise (Central Europe): Implications for the closure of the Rheic ocean , 2010 .

[104]  J. Pedro,et al.  GEOCHEMISTRY AND U-PB ZIRCON AGE OF THE INTERNAL OSSA-MORENA ZONE OPHIOLITE SEQUENCES: A REMNANT OF RHEIC OCEAN IN SW IBERIA , 2010 .

[105]  C. Pin,et al.  Comment on “Rheic Ocean ophiolitic remnants in southern Iberia questioned by SHRIMP U‐Pb zircon ages on the Beja‐Acebuches amphibolites” by A. Azor et al. , 2009 .

[106]  A. Azor,et al.  Reply to comment by C. Pin and J. Rodríguez on “Rheic Ocean ophiolitic remnants in southern Iberia questioned by SHRIMP U‐Pb zircon ages on the Beja‐Acebuches amphibolites” , 2009 .

[107]  K. Schulmann,et al.  Geophysical constraints and model of the “Saxothuringian and Rhenohercynian subductions – magmatic arc system” in NE France and SW Germany , 2009 .

[108]  P. Hrubcová,et al.  The crust-mantle transition and the Moho beneath the Vogtland/West Bohemian region in the light of different seismic methods , 2009 .

[109]  A. Gerdes,et al.  The Saxo-Danubian Granite Belt: magmatic response to post-collisional delamination of mantle lithosphere below the southwestern sector of the Bohemian Massif (Variscan orogen) , 2009 .

[110]  D. Marquer,et al.  Famenno-Carboniferous (370-320 Ma) strike slip tectonics monitored by syn-kinematic plutons in the French Variscan belt (Massif Armoricain and French Massif Central) , 2009 .

[111]  Andrés Pérez-Estaún,et al.  Nature of the lithosphere across the Variscan orogen of SW Iberia: Dense wide‐angle seismic reflection data , 2009 .

[112]  T. Jeffries,et al.  A rootless suture and the loss of the roots of a mountain chain: The Variscan belt of NW Iberia , 2009 .

[113]  A. Cocherie,et al.  A restored section of the “southern Variscan realm” across the Corsica–Sardinia microcontinent , 2009 .

[114]  R. Shail,et al.  The Rhenohercynian passive margin of SW England : development, inversion and extensional reactivation , 2009 .

[115]  K. Schulmann,et al.  An Andean type Palaeozoic convergence in the Bohemian Massif , 2009 .

[116]  F. Bussy,et al.  The Variscan evolution in the External massifs of the Alps and place in their Variscan framework , 2009 .

[117]  M. Sintubin,et al.  Early Palaeozoic orogenic events north of the Rheic suture (Brabant, Ardenne): A review , 2009 .

[118]  M. Ballèvre,et al.  Palaeozoic history of the Armorican Massif: Models for the tectonic evolution of the suture zones , 2009 .

[119]  P. Ledru,et al.  A review of the pre-Permian geology of the Variscan French Massif Central , 2009 .

[120]  A. Gerdes,et al.  The Cadomian Orogeny and the opening of the Rheic Ocean: The diacrony of geotectonic processes constrained by LA-ICP-MS U–Pb zircon dating (Ossa-Morena and Saxo-Thuringian Zones, Iberian and Bohemian Massifs) , 2008 .

[121]  C. Pin,et al.  The ca. 350 Ma Beja Igneous Complex: A record of transcurrent slab break-off in the Southern Iberia Variscan Belt? , 2008 .

[122]  P. Hrubcová,et al.  Crustal structure at the easternmost termination of the Variscan belt based on CELEBRATION 2000 and ALP 2002 data , 2008 .

[123]  D. Rubatto,et al.  Rheic Ocean ophiolitic remnants in southern Iberia questioned by SHRIMP U‐Pb zircon ages on the Beja‐Acebuches amphibolites , 2008 .

[124]  P. Hrubcová,et al.  Lithospheric structure of the Bohemian Massif and adjacent Variscan belt in central Europe based on profile S01 from the SUDETES 2003 experiment , 2008 .

[125]  J. Chéry,et al.  Why is the Ligurian Basin (Mediterranean Sea) seismogenic? Thermomechanical modeling of a reactivated passive margin , 2008 .

[126]  Richard S. Smith,et al.  Tilt-depth method: A simple depth estimation method using first-order magnetic derivatives , 2007 .

[127]  P. Maguire,et al.  A crustal seismic velocity model for the UK, Ireland and surrounding seas , 2007 .

[128]  H. Massonne,et al.  Dating of zircon and monazite from diamondiferous quartzofeldspathic rocks of the Saxonian Erzgebirge – hints at burial and exhumation velocities , 2007, Mineralogical Magazine.

[129]  A. Marotta,et al.  Permian‐Triassic high thermal regime in the Alps: Result of late Variscan collapse or continental rifting? Validation by numerical modeling , 2007 .

[130]  P. Ayarza,et al.  Potential field constraints on the deep structure of the Lugo gneiss dome (NW Spain) , 2007 .

[131]  E. Brückl,et al.  Crustal structure due to collisional and escape tectonics in the Eastern Alps region based on profiles Alp01 and Alp02 from the ALP 2002 seismic experiment , 2007 .

[132]  M. Faure,et al.  Structural, AMS and geochronological study of a laccolith emplaced during Late Variscan orogenic extension: the Rocles pluton (SE French Massif Central) , 2007 .

[133]  K. Schulmann,et al.  The Variscan tectonic inheritance of the Upper Rhine Graben: evidence of reactivations in the Lias, Late Eocene–Oligocene up to the recent , 2007 .

[134]  H. Whitechurch,et al.  Seismicity wedge beneath the Upper Rhine Graben due to backwards Alpine push , 2006 .

[135]  P. Poprawa,et al.  Charakterystyka geochronologiczna obszarów źródłowych dla dolnopaleozoicznych utworów z NW kratonu wschodnioeuropejskiego oraz strefy Koszalin-Chojnice; datowania detrytycznych łyszczyków (K/Ar) i cyrkonów (U/Pb SHRIMP) , 2006 .

[136]  P. Betts,et al.  Resolving the nature and geometry of major fault systems from geophysical and structural analysis: The Palmerville Fault in NE Queensland, Australia , 2006 .

[137]  M. Munschy,et al.  Insight into the structure of the Upper Rhine Graben and its basement from a new compilation of Bouguer Gravity , 2006 .

[138]  G. R. Keller,et al.  Crustal and uppermost mantle structure of the Bohemian Massif based on CELEBRATION 2000 data , 2005 .

[139]  D. Demaiffe,et al.  Ocean‐floor hydrothermal metamorphism in the Limousin ophiolites (western French Massif Central): evidence of a rare preserved Variscan oceanic marker , 2005 .

[140]  M. Malinowski,et al.  Seismic and geological structure of the crust in the transition from Baltica to Palaeozoic Europe in SE Poland—CELEBRATION 2000 experiment, profile CEL02 , 2005 .

[141]  E. Hegner,et al.  Chronological constraints on the pre-orogenic history, burial and exhumation of deep-seated rocks along the eastern margin of the Variscan Orogen, Bohemian Massif, Czech Republic , 2005 .

[142]  K. Schulmann,et al.  Contrasting Early Carboniferous field geotherms: evidence for accretion of a thickened orogenic root and subducted Saxothuringian crust (Central European Variscides) , 2005, Journal of the Geological Society.

[143]  A. Azor,et al.  The tectonic frame of the Variscan–Alleghanian orogen in Southern Europe and Northern Africa , 2005 .

[144]  C. Braithwaite,et al.  Magma-mixing in the genesis of Hercynian calc-alkaline granitoids: an integrated petrographic and geochemical study of the Sázava intrusion, Central Bohemian Pluton, Czech Republic , 2004 .

[145]  C. Pin,et al.  The northern Ossa-Morena Cadomian batholith (Iberian Massif): magmatic arc origin and early evolution , 2004 .

[146]  J. Brun,et al.  Tectonic history of the Hercynian Armorican Shear belt (Brittany, France) , 2004 .

[147]  G. Jenner,et al.  Provenance constraints from detrital zircon U–Pb ages in the NW Iberian Massif: implications for Palaeozoic plate configuration and Variscan evolution , 2004, Journal of the Geological Society.

[148]  J. Brun,et al.  Late pervasive crustal-scale extension in the south Armorican Hercynian belt (Vendée, France) , 2004 .

[149]  Bruno Verduzco,et al.  The meter readerNew insights into magnetic derivatives for structural mapping , 2004 .

[150]  Christopher Juhlin,et al.  Crustal structure of the transpressional Variscan orogen of SW Iberia: SW Iberia deep seismic reflection profile (IBERSEIS) , 2003 .

[151]  W. Frisch,et al.  The Rand Granite in the southern Schwarzwald and its geodynamic significance in the Variscan belt of SW Germany , 2003 .

[152]  G. R. Keller,et al.  Crustal structure of the Trans‐European suture zone region along POLONAISE'97 seismic profile P4 , 2003 .

[153]  C. Truffert,et al.  Imagerie sismique de la zone de collision hercynienne dans le Sud-Est du Massif armoricain (projet Armor 2/programme Géofrance 3D) , 2003 .

[154]  M. Robardet The Armorica ‘microplate’: fact or fiction? Critical review of the concept and contradictory palaeobiogeographical data , 2003 .

[155]  G. Jenner,et al.  A study of inherited zircons in granitoid rocks from the South Portuguese and Ossa-Morena Zones, Iberian Massif: support for the exotic origin of the South Portuguese Zone , 2002 .

[156]  T. Gerya,et al.  Thermal regime and gravitational instability of multi-layered continental crust implications for the buoyant exhumation of high-grade metamorphic rocks , 2002 .

[157]  A. Chauvet,et al.  Structural evolution of the southernmost segment of the West European Variscides: the South Portuguese Zone (SW Iberia) , 2002 .

[158]  M. Robardet Alternative approach to the Variscan Belt in southwestern Europe: Preorogenic paleobiogeographical constraints , 2002 .

[159]  P. Ledru,et al.  The Velay dome (French Massif Central): melt generation and granite emplacement during orogenic evolution , 2001 .

[160]  J. Busby,et al.  The nature of the Variscan basement in southeast England: evidence from integrated potential field modelling , 2001, Geological Magazine.

[161]  P. Matte The Variscan collage and orogeny (480–290 Ma) and the tectonic definition of the Armorica microplate: a review , 2001 .

[162]  P. Ledru,et al.  The Variscan French Massif Central—a new addition to the ultra-high pressure metamorphic ‘club’: exhumation processes and geodynamic consequences , 2001 .

[163]  P. Andreo,et al.  Refraction/wide-angle reflection investigation of the Cadomian crust between northern Brittany and the Channel Islands , 2001 .

[164]  J. Edel,et al.  Paleomagnetic evolution of the Armorican Massif in Late Paleozoic times, in the light of overprints recorded in Cadomian and Paleozoic units , 2001 .

[165]  J. Brun,et al.  Cadomian tectonics in northern Brittany: a contribution of 3-D crustal-scale modelling , 2001 .

[166]  Jean-Pierre Brun,et al.  Deep seismic imaging of the Cadomian thrust wedge of Northern Brittany , 2001 .

[167]  S. Mazur,et al.  The Tepla(?)/Saxothuringian suture in the Karkonosze–Izera massif, western Sudetes, central European Variscides , 2001 .

[168]  I. Fletcher,et al.  Deducing the ancestry of terranes: SHRIMP evidence for South America–derived Gondwana fragments in central Europe , 2000 .

[169]  K. Schulmann,et al.  Intrusion within a transtensional tectonic domain: the Čistá granodiorite (Bohemian Massif)—structure and rheological modelling , 2000 .

[170]  Fabio Boschetti,et al.  Inferring Geological Structures using Wavelet-Based Multiscale Edge Analysis and Forward Models , 2000 .

[171]  J. A. Pulgar,et al.  Seismic signature of Variscan and Alpine tectonics in NW Iberia: Crustal structure of the Cantabrian Mountains and Duero basin , 2000 .

[172]  T. Pharaoh Palaeozoic terranes and their lithospheric boundaries within the Trans-European Suture Zone (TESZ): a review , 1999 .

[173]  E. Hegner,et al.  Plutonism in the Variscan Odenwald (Germany): from subduction to collision , 1999 .

[174]  O. Oncken,et al.  Structure of the Saxonian Granulites: Geological and geophysical constraints on the exhumation of high‐pressure/high‐temperature rocks in the mid‐European Variscan belt , 1999 .

[175]  H. Gebrande,et al.  3-D Prestack-migration of Wide-angle Data from a Variscan Transition Zone , 1999 .

[176]  A. Plesch,et al.  Orogenic wedge growth during collision — constraints on mechanics of a fossil wedge from its kinematic record (Rhenohercynian FTB, Central Europe) , 1999 .

[177]  R. Meissner Terrane accumulation and collapse in central Europe: seismic and rheological constraints , 1999 .

[178]  O. Oncken,et al.  Accretion of a rifted passive margin: The Late Paleozoic Rhenohercynian fold and thrust belt (Middle European Variscides) , 1999 .

[179]  E. Bernárdez,et al.  Revisión bioestratigráfica de las pizarras del Ordovícico Medio en el noroeste de España (zonas Cantábrica, Asturoccidental-leonesa y Centroibérica septentrional) , 1999 .

[180]  U. Enderle,et al.  The refraction seismic experiment GRANU95 in the Saxothuringian belt, southeastern Germany , 1998 .

[181]  J. A. Pulgar,et al.  Estudio Sísmico de la Corteza Ibérica Norte 3.3: A seismic image of the Variscan crust in the hinterland of the NW Iberian Massif , 1998 .

[182]  R. Arenas,et al.  Variscan accretionary complex of northwest Iberia: Terrane correlation and succession of tectonothermal events , 1997 .

[183]  F. Jestin,et al.  Constraints on Moho depth and crustal thickness in the Liguro-Provençal basin from a 3D gravity inversion: geodynamic implications , 1997, Geological Society, London, Special Publications.

[184]  C. Pin,et al.  A mantle-derived bimodal suite in the Hercynian Belt: Nd isotope and trace element evidence for a subduction-related rift origin of the Late Devonian Brévenne metavolcanics, Massif Central (France) , 1997 .

[185]  F. Bastida,et al.  Diachronous Variscan tectonothermal activity in the NW Iberian Massif: Evidence from 40Ar/39Ar dating of regional fabrics , 1997 .

[186]  A. Hirn,et al.  REFRACTION-SEISMIC INVESTIGATIONS OF THE NORTHERN MASSIF CENTRAL (FRANCE) , 1997 .

[187]  O. Oncken Transformation of a magmatic arc and an orogenic root during oblique collision and it’s consequences for the evolution of the European Variscides (Mid-German Crystalline Rise) , 1997 .

[188]  M. Roberts,et al.  Variscan granitoids of central Europe: their typology, potential sources and tectonothermal relations , 1997 .

[189]  J. A. Pulgar,et al.  Seismic structure of the northern continental margin of Spain from ESCIN deep seismic profiles , 1996 .

[190]  J. A. Pulgar,et al.  SEISMIC IMAGE OF THE CANTABRIAN MOUNTAINS IN THE WESTERN EXTENSION OF THE PYRENEES FROM INTEGRATED ESCIN REFLECTION AND REFRACTION DATA , 1996 .

[191]  H. Mueller Modelling the lower crust by simulation of the in situ conditions: an example from the Saxonian Erzgebirge , 1995 .

[192]  P. Rey,et al.  Lower crustal rejuvenation and growth during post-thickening collapse: Insights from a crustal cross section through a Variscan metamorphic core complex , 1995 .

[193]  M. Cosca,et al.  Variscan Sm-Nd and Ar-Ar ages of eclogite facies rocks from the Erzgebirge, Bohemian Massif , 1995 .

[194]  R. Rudnick,et al.  Nature and composition of the continental crust: A lower crustal perspective , 1995 .

[195]  K. Weber,et al.  Cadomian terranes, wrench faulting and thrusting in the central Europe Variscides: geophysical and geological evidence , 1995 .

[196]  J. Paquette,et al.  Geochemical and isotopic study of a norite-eclogite transition in the European Variscan belt: Implications for UPb zircon systematics in metabasic rocks , 1995 .

[197]  M. Faure Late orogenic carboniferous extensions in the Variscan French Massif Central , 1995 .

[198]  Vijay Singh,et al.  Potential field tilt—a new concept for location of potential field sources , 1994 .

[199]  J. A. Pulgar,et al.  Crustal structure of the external variscides in northwest spain from deep seismic reflection profiling , 1994 .

[200]  Peter Molnar,et al.  Geological and Geophysical Evidence for Deep Subduction of Continental Crust Beneath the Pamir , 1993 .

[201]  C. Prodehl,et al.  Crustal structure along the Central Segment of the EGT from seismic-refraction studies , 1992 .

[202]  S. Plaumann Die Schwerekarte 1:500 000 der Bundesrepublik Deutschland - (Bouguer-Anomalien), Blatt Mitte , 1991 .

[203]  P. Matte Accretionary history and crustal evolution of the Variscan belt in Western Europe , 1991 .

[204]  T. Wonik,et al.  Magnetic anomaly pattern of Central Europe , 1991 .

[205]  B. Le Gall Crustal evolutionary model for the Variscides of Ireland and Wales from SWAT seismic data , 1991, Journal of the Geological Society.

[206]  J. Brun,et al.  Crustal-scale structure of the southern Rhinegraben from ECORS-DEKORP seismic reflection data , 1991 .

[207]  J. Brun,et al.  A deep reflection seismic line across the Northern Rhine Graben , 1991 .

[208]  J. Murphy,et al.  Supercontinent model for the contrasting character of Late Proterozoic orogenic belts , 1991 .

[209]  P. Ledru,et al.  Evolution of nappes in the eastern margin of the Bohemian Massif: a kinematic interpretation , 1991 .

[210]  A. Scherp,et al.  Crustal structure of the Rhenish Massif: results of deep seismic reflection lines Dekorp 2-North and 2-North-Q , 1990 .

[211]  V. Gardien,et al.  Crust-mantle relationships in the French Variscan chain: the example of the Southern Monts du Lyonnais unit (eastern French Massif Central) , 1990 .

[212]  J. Malavieille,et al.  Collapse of the thickened Variscan crust in the French Massif Central: Mont Pilat extensional shear zone and St. Etienne Late Carboniferous basin , 1990 .

[213]  D. Gajewski,et al.  Crustal structure of southern Germany from seismic refraction data , 1990 .

[214]  B. Gall Evidence of an imbricate crustal thrust belt in the southern British Variscides: Contributions of southwestern approaches traverse (SWAT) deep seismic reflection profiling recorded through the English Channel and the Celtic Sea , 1990 .

[215]  B. Damotte,et al.  Near-vertical vibroseis versus large-offset dynamite seismic reflection profiling: example of the ECORS northern France profile , 1990 .

[216]  J. Edel,et al.  The upper Rhenish Shield basement (Vosges, Upper Rhinegraben and Schwarzwald): Main structural features deduced from magnetic, gravimetric and geological data , 1989 .

[217]  J. M. Miranda,et al.  Aeromagnetic anomalies in mainland Portugal and their tectonic implications , 1989 .

[218]  J. Marchand,et al.  Ou sont les nappes dans le massif central francais , 1989 .

[219]  K. Lambeck,et al.  Geophysical evidence for 'thick-skinned' crustal deformation in central Australia , 1989, Nature.

[220]  K. Weber,et al.  Structural model for the Saxothuringian-Moldanubian suture in the Variscan basement of the Oberpfalz (Northeastern Bavaria, F.R.G.) interpreted from geophysical data , 1989 .

[221]  P. Molnar A review of geophysical constraints on the deep structure of the Tibetan Plateau, the Himalaya and the Karakoram, and their tectonic implications , 1988, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[222]  D. Córdoba,et al.  P-wave velocity-depth distribution in the Hercynian crust of northwest Spain , 1988 .

[223]  H. Behr,et al.  Geological interpretation of DEKORP 2-S: A deep seismic reflection profile across the Saxothuringian and possible implications for the Late Variscan structural evolution of Central Europe , 1987 .

[224]  D. Gajewski,et al.  Seismic refraction investigation of the Black Forest , 1987 .

[225]  W. Holbrook,et al.  A three-dimensional crustal model of southwest Germany derived from seismic refraction data , 1987 .

[226]  D. Córdoba,et al.  The Hercynian crust in northwestern Spain: a seismic survey☆☆☆ , 1987 .

[227]  J. Mercier,et al.  Cinematique de mise en place des ophiolites et nappes crystallophiliennes du Limousin, Ouest du Massif Central francais , 1986 .

[228]  P. Matte Tectonics and plate tectonics model for the Variscan belt of Europe , 1986 .

[229]  J. Royer,et al.  Paleomagnetic investigations and K-AR dating on the variscan plutonic massif of the champ du feu and its volcanic-sedimentary environment, northern vosges, France , 1986 .

[230]  C. Bois,et al.  Structure de la croute hercynienne du Nord de la France; premiers resultats du profil ECORS , 1985 .

[231]  H. N. A. Priem,et al.  Rb-Sr evidence for the presence of Ordovician gsranites in the deformed basement of the Badajoz-Córdoba belt, SW Spain , 1985 .

[232]  K. Weber,et al.  The Variscan Belt in Central Europe: Main structures, geodynamic implications, open questions , 1984 .

[233]  C. Pin,et al.  Granulites and related rocks in variscan median Europe: A dualistic interpretation , 1983 .

[234]  R. King,et al.  Progress report on rhenish massif seismic experiment , 1982 .

[235]  C. Pin,et al.  U-Pb dating of an early paleozoic bimodal magmatism in the french Massif Central and of its further metamorphic evolution , 1982 .

[236]  R. Montigny,et al.  Late Paleozoic rotations of Corsica and Sardinia: New evidence from paleomagnetic and K-Ar studies , 1981 .

[237]  P. Matte,et al.  Late Paleozoic strike-slip faulting in southern Europe and northern Africa: Result of a right-lateral shear zone between the Appalachians and the Urals , 1977 .

[238]  C. Barrois Sketch of the Geology of central Brittany , 1899 .

[239]  P. Pitra,et al.  Prograde and retrograde P–T evolution of a Variscan high-temperature eclogite, French Massif Central, Haut-Allier , 2020, BSGF - Earth Sciences Bulletin.

[240]  V. Červený,et al.  Gaussian Beams and Paraxial Ray Approximation in Three-Dimensional Elastic Inhomogeneous Media , 2019 .

[241]  K. Verner,et al.  Formation of elongated granite–migmatite domes as isostatic accommodation structures in collisional orogens , 2014 .

[242]  F. Bussy,et al.  Pre-Mesozoic Alpine basements - Their place in the European Paleozoic framework , 2013 .

[243]  K. Verner,et al.  The generation of voluminous S-type granites in the Moldanubian unit, Bohemian Massif, by rapid isothermal exhumation of the metapelitic middle crust , 2011 .

[244]  M. Faure,et al.  The Léon Domain (French Massif Armoricain): a westward extension of the Mid-German Crystalline Rise? Structural and geochronological insights , 2010 .

[245]  A. Gerdes,et al.  Timing of dextral strike-slip processes and basement exhumation in the Elbe Zone (Saxo-Thuringian Zone): the final pulse of the Variscan Orogeny in the Bohemian Massif constrained by LA-SF-ICP-MS U-Pb zircon data , 2009 .

[246]  B. Růžek,et al.  Inversion of travel times obtained during active seismic refraction experiments CELEBRATION 2000, ALP 2002 and SUDETES 2003 , 2007 .

[247]  P. Matte Variscan thrust nappes, detachments, and strike-slip faults in the French Massif Central: Interpretation of the lineations , 2007 .

[248]  A. Gerdes,et al.  The continuum between Cadomian orogenesis and opening of the Rheic Ocean: Constraints from LA-ICP-MS U-Pb zircon dating and analysis of plate-tectonic setting (Saxo-Thuringian zone, northeastern Bohemian Massif, Germany) , 2007 .

[249]  R. Kryza,et al.  The Variscan Orogen in Poland , 2006 .

[250]  M. Searle,et al.  Crustal flow in Tibet : geophysical evidence for the physical state of Tibetan lithosphere , and inferred patterns of active flow , 2006 .

[251]  C. Juhlin,et al.  Transpressional collision tectonics and mantle plume dynamics: the Variscides of southwestern Iberia , 2006, Geological Society, London, Memoirs.

[252]  M. Grad,et al.  Lithospheric structure of the TESZ in Poland based on modern seismic experiments , 2006 .

[253]  J. Saul,et al.  Differences in the Crustal and Uppermost Mantle Structure of the Bohemian Massif from Teleseismic Receiver Functions , 2005 .

[254]  D. Aerden Correlating deformation in Variscan NW-Iberia using porphyroblasts; implications for the Ibero-Armorican Arc , 2004 .

[255]  J. Winchester,et al.  Palaeozoic amalgamation of Central Europe: an introduction and synthesis of new results from recent geological and geophysical investigations , 2002, Geological Society, London, Special Publications.

[256]  M. Grad,et al.  Seismic refraction evidence for crustal structure in the central part of the Trans-European Suture Zone in Poland , 2002, Geological Society, London, Special Publications.

[257]  W. Franke The mid-European segment of the Variscides: tectonostratigraphic units, terrane boundaries and plate tectonic evolution , 2000, Geological Society, London, Special Publications.

[258]  W. Franke,et al.  The eastern termination of the Variscides: terrane correlation and kinematic evolution , 2000, Geological Society, London, Special Publications.

[259]  P. Jaeckel,et al.  Chronological constraints on the pre-Variscan evolution of the northeastern margin of the Bohemian Massif, Czech Republic , 2000, Geological Society, London, Special Publications.

[260]  P. Hanžl,et al.  The Brunovistulian: Avalonian Precambrian sequence at the eastern end of the Central European Variscides? , 2000, Geological Society, London, Special Publications.

[261]  M. Séranne The Gulf of Lion continental margin (NW Mediterranean) revisited by IBS: an overview , 1999, Geological Society, London, Special Publications.

[262]  F. Bussy,et al.  The Paleozoic metamorphic evolution of the Alpine External Massifs , 1999 .

[263]  A. Pérez-Estaún,et al.  Crustal structure of the Cantabrian Zone: seismic image of a Variscan foreland thrust and fold belt (NW Spain) , 1995 .

[264]  J. A. Pulgar,et al.  Results from the ESCI-N3.3 marine deep seismic profile along the Cantabrian continental margin , 1995 .

[265]  J. A. Pulgar,et al.  Results from the ESCI-N3.1 and ESCI-N3.2 marine deep seismic profiles in the northwestern Galicia Margin , 1995 .

[266]  W. Mooney Multi-genetic origin of crustal reflectivity: a review of seismic reflection profiling of the continental lower crust and Moho. , 1992 .

[267]  M. Spalla,et al.  From granulites to eclogites in the Sesia zone (Italian Western Alps): a record of the opening and closure of the Piedmont ocean , 1991 .

[268]  J. Burg Syn-migmatization way-up criteria , 1991 .

[269]  M. Robardet,et al.  Sedimentary and Faunal Domains in the Iberian Peninsula During Lower Paleozoic Times , 1990 .

[270]  W. Franke Tectonostratigraphic units in the Variscan belt of central Europe , 1989 .

[271]  É. Dufour,et al.  Granulites à kornérupine et décompression post-orogénique des Monts du Lyonnais (M.C.F.) , 1989 .

[272]  B. Briand,et al.  Les complexes leptyno-amphiboliques (C.I.A.); revue critique et suggestions pour un meilleur emploi de ce terme , 1988 .

[273]  C. Pin,et al.  Les granulites de haute-pression d'Europe moyenne temoins d'une subduction eo-hercynienne; implications sur l'origine des groupes leptyno-amphiboliques , 1988 .

[274]  R. Meissner Twenty years of deep seismic reflection profiling in Germany—a contribution to our knowledge of the nature of the lower Variscan crust , 1986, Geological Society, London, Special Publications.

[275]  J. Lancelot,et al.  La faille NW-SE du Pays de Bray, un decrochement ductile dextre hercynien; deformation a 330 Ma d'un granite a 570 Ma dans le sondage Pays de Bray 201 , 1986 .

[276]  Peter Molnar,et al.  Structure and Tectonics of the Himalaya: Constraints and Implications of Geophysical Data , 1984 .

[277]  P. Choukroune,et al.  Shear zones in the iberian arc , 1980 .

[278]  G. Fuchs Zur Entwicklung der Böhmischen Masse , 1976 .