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Lower Cretaceous inversion of the European Variscan basement: record from the Vendée and Limousin (France)

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Abstract

The post-orogenic evolution of the European Variscan basement remains difficult to constrain due to the absence of post-orogenic sedimentary records. One of the current ways to access this history is to constrain the thermal evolution of these basement areas through indirect methods such as low-temperature thermochronology (LTT) thermal modelling. In this study, apatite fission-track (AFT) data have been acquired for the north-eastern part (Vendée and Limousin) of the French Massif Central Variscan basement. Similar thermal inversion procedure has been done, assuming that some samples were close to the surface during Triassic times. The results show a complex post-Variscan evolution of the western part of the Massif Central. Inversion of the AFT data indicates a high-temperature event during the Jurassic period. This thermal event can be interpreted as the deposition of a significant sedimentary cover which has been later eroded during the Late Jurassic and/or Early Cretaceous. Interpretation of the thermal models implies the presence of the sampled rocks close to the surface during Cretaceous and Eocene times. The estimated volume of this eroded sedimentary cover suggests a probable larger extension of the surrounding sedimentary basins (Paris Basin and Aquitaine Basin) across the Variscan basement area.

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References

  • Ballèvre M, Bosse V, Ducassou C, Pitra P (2009) Palaeozoic history of the Armorican Massif: models for the tectonic evolution of the suture zones. CR Geosci 341(2–3):174–201

    Article  Google Scholar 

  • Bambier A, Capdeville JP, Cariou E, Floc’h, JP, Gabilly P, Hantzergue P (1983) Notice explicative, Carte géologique de la France (1/50 000), feuille La Rochefoucauld (509)

  • Barbarand J, Lucazeau F, Pagel M, Séranne M (2001) Burial and exhumation history of the south-eastern Massif Central (France) constrained by apatite fission-track thermochronology. Tectonophysics 335(3–4):275–290

    Article  Google Scholar 

  • Barbarand J, Carter A, Wood I, Hurford T (2003) Compositional and structural control of fission-track annealing in apatite. Chem Geol 198(1–2):107–137

    Article  Google Scholar 

  • Barbarand J, Quesnel F, Pagel M (2013) Lower paleogene denudation of upper cretaceous cover of the Morvan Massif and southeastern Paris Basin (France) revealed by AFT thermochronology and constrained by stratigraphy and paleosurfaces. Tectonophysics 608:1310–1327

    Article  Google Scholar 

  • Barbarand J, Bour I, Pagel M, Quesnel F, Delcambre, B, Dupuis C, Yans J (2018) Post-Paleozoic evolution of the northern Ardenne Massif constrained by apatite fission-track thermochronology and geological dataHistoire post-Paléozoïque du nord du massif de l’Ardenne reconstituée à partir de la thermochronologie traces de fission dans les cristaux d’apatite et des données géologiques. Bulletin de la Société Géologique de France 189: 4–6

  • Béchennec F (2009) Carte géologique harmonisée du département de Vendée. BRGM/RP-57473-FR, 348 p. 3 fig. 2 tab. 3 pl. hors-texte

  • Béchennec F, Chèvremont P, Bouton P, Karnay G, Stussi JM, Thiéblemont D, avec la collaboration de Cocherie A, Roy C (2010) Notice explicative, Carte géol. France (1/50 000), feuille Luçon (585) - Orléans, BRGM, p 188

  • Bessin P, Guillocheau F, Robin C, Schroëtter JM, Bauer H (2015) Planation surfaces of the Armorican Massif (western France): denudation chronology of a Mesozoic land surface twice exhumed in response to relative crustal movements between Iberia and Eurasia. Geomorphology 233:75–91

    Article  Google Scholar 

  • Bétard F (2010) Uplift and denudation history at low-elevation passive margins: insights from morphostratigraphic analysis in the SE Armorican Massif along the French Atlantic margin. CR Geosci 342(3):215–222

    Article  Google Scholar 

  • Biteau JJ, Le Marrec A, Le Vot M, Masset JM (2006) The aquitaine basin. Petroleum Geoscience 12(3):247–273

    Article  Google Scholar 

  • Bogdanoff S, Cohen-Julien M, Böessé JM, Crodde JL, Dambrinne P, Freytet P, Sy D, Lerouge G, Constans J (1989) Notice explicative, carte géol. France (1150 000), feuille Saint-Sulpice-les-feuilles (615), 34 p. Carte géologique par Bogdanoff S, Böessé JM, Cirodde JL, Dambrinne P, Sy D, Ziserman A, Pellaton C, Lorenz C (1988)

  • Bonté D, Guillou-Frottier L, Garibaldi C, Bourgine B, Lopez S, Bouchot V, Lucazeau F (2010) Subsurface temperature maps in French sedimentary basins: new data compilation and interpolation. Bulletin de la Société Géologique de France 181(4):377–390

    Article  Google Scholar 

  • Bourquin S, Guillocheau F, Péron S (2009) Braided rivers within an arid alluvial plain (example from the Lower Triassic, western German Basin): recognition criteria and expression of stratigraphic cycles. Sedimentology 56(7):2235–2264

    Article  Google Scholar 

  • Bouton P, Branger P (2007) Notice explicative de la carte géologique de France au 1: 50000, feuille Coulonges-sur-l’Autize (587). BRGM, Orléans

    Google Scholar 

  • Brigaud B, Vincent B, Pagel M, Gras A, Noret A, Landrein P, Huret E (2018) Sedimentary architecture, depositional facies and diagenetic response to intracratonic deformation and climate change inferred from outcrops for a pivotal period (Jurassic/Cretaceous boundary, Paris Basin, France). Sed Geol 373:48–76

    Article  Google Scholar 

  • Brunet MF, Le Pichon X (1982) Subsidence of the Paris basin. J Geophys Res Solid Earth 87(B10):8547–8560

    Article  Google Scholar 

  • Burtner RL, Nigrini A, Donelick RA (1994) Thermochronology of Lower Cretaceous source rocks in the Idaho-Wyoming thrust belt. AAPG bulletin 78(10):1613–1636

    Google Scholar 

  • Capdevila R (2010) Les granites varisques du Massif Armoricain. Bull de la Société Géologique et Minéralogique de Bretagne 7:1–52

    Google Scholar 

  • Cartannaz C, Cocherie A (2012) Notice explicative, Carte géol. France (1/50 000), feuille La Souterraine (641). Orléans: BRGM, 165 p. Carte géologique par Cartannaz C, Grandprat M, Mougin B, Bouillier N

  • Cartannaz C, Rolin P, Cocherie A, Marquer D, Legendre O, Fanning CM, Rossi P (2006) Characterization of wrench tectonics from dating of syn-to post-magmatism in the north-western French Massif Central. Int J Earth Sci 96(2):271–287

    Article  Google Scholar 

  • Chantraine J, Autran A, Cavelier C (2003) Carte géologique de la France à 1/1 000 000 6ème édition révisée. BRGM, Orléans

    Google Scholar 

  • Cohen BE, Mark DF, Lee MR, Simpson SL (2017) A new high-precision 40Ar/39Ar age for the Rochechouart impact structure: at least 5 Ma older than the Triassic-Jurassic boundary. Meteorit Planet Sci 52(8):1600–1611

    Article  Google Scholar 

  • De Bruijne CH, Andriessen PAM (2002) Far field effects of Alpine plate tectonism in the Iberian microplate recorded by fault-related denudation in the Spanish Central System. Tectonophysics 349(1–4):161–184

    Article  Google Scholar 

  • Debrand-Passard S (1984). Synthèse géologique du Sud-Est de la France, vol 125. Éditions du Bureau de recherches géologiques et minières, Service géologique national

  • Faure M, Lardeaux JM, Ledru P (2009) A review of the pre-Permian geology of the Variscan French Massif Central. CR Geosci 341(2–3):202–213

    Article  Google Scholar 

  • Fraisse C, Lorenz C, Lorenz J, Prost A (1987) Notice explicative, Carte géol. France (1/50000), feuille La Châtre (594). BRGM, Orléans

  • Galbraith RF, Laslett GM (1993) Statistical models for mixed fission track ages. Nucl Tracks Radiat Meas 21(4):459–470

    Article  Google Scholar 

  • Galbraith RF, Laslett GM, Green PF, Duddy IR (1990) Apatite fission track analysis: geological thermal history analysis based on a three-dimensional random process of linear radiation damage. PhilosTrans R Soc London Series A Phys Eng Sci 332(1627):419–438

    Google Scholar 

  • Gallagher K (2012) Transdimensional inverse thermal history modeling for quantitative thermochronology. J Geophy Res Solid Earth 117:B2

    Google Scholar 

  • Gilg HA, Frei R (1997) Isotope dating of residual kaolin deposits in Europe (Tirschenreuth, Germany and St. Yrieix, France). Energy and Mineral Resources for the 21st Century. Geol Minerr Deposits Miner Econ 9:123–132

    Google Scholar 

  • Gleadow AJW (1981) Fission-track dating methods: what are the real alternatives? Nuclear Tracks 5(1–2):3–14

    Article  Google Scholar 

  • Greff-Lefftz M, Robert B, Besse J, Frizon de Lamotte D, Vicente de Gouveia S (2017) Dynamic topography and lithospheric stresses since 400 Ma. Geochem Geophys Geosyst 18(7):2673–2700

    Article  Google Scholar 

  • Guillocheau F, Robin C, Allemand P, Bourquin S, Brault N, Dromart G, Friedenberg R, Garcia JP, Gaulier JM, Gaumet F, Grosdoy B, Hanot F, Le Strat P, Mettraux P, Nalpas TC, Prijac C, Rigollet C, Serrano O, Grandjean G (2000) Meso-Cenozoic geodynamic evolution of the Paris Basin: 3D stratigraphic constraints. Geodinamica Acta 13(4):189–245 (ISO 690)

    Google Scholar 

  • Guillocheau F, Brault N, Thomas E, Barbarand J (2003) Histoire géologique du massif armoricain depuis 140 Ma (Crétacé-actuel)

  • Hantzpergue P (1997) Biostratigraphie du Jurassique ouest-européen et méditerranéen: zonations parallèles et distribution des invertébrés et microfossiles, vol 17. Elf Aquitaine

  • Holford SP, Green PF, Duddy IR, Turner JP, Hillis RR, Stoker MS (2009) Regional intraplate exhumation episodes related to plate-boundary deformation. Geol Soc Am Bull 121(11–12):1611–1628

    Article  Google Scholar 

  • Hottin AM, Marchand G, Maurin G, Debacque G, Constans J, Turland M, Freytet P (1991) Notice explicative de la carte géologique d’Evaux-Les-Bains au 1/50.000, no 643. Editions BRGM, Orléans

  • Hottin AM, Berthier F, avec la collaboration de Feys R, Becqgiraudon JF, Recoing M, Freytet P, Delbos R (1993) Notice explicative, Carte géol. France (1/50000), feuille Guéret (642). Orléans: BRGM, 83 p. Carte géologique par Berthier F, Feys R (1986)

  • Hurford AJ (1990) Standardization of fission track dating calibration: recommendation by the Fission Track Working Group of the IUGS Subcommission on Geochronology. Chem Geol Isotope Geosci Sect 80(2):171–178

    Article  Google Scholar 

  • Hurford AJ, Green PF (1983) The zeta age calibration of fission-track dating. Chem Geol 41:285–317

    Article  Google Scholar 

  • Jacquin T, de Graciansky PC (1998) Major transgressive/regressive cycles: the stratigraphic signature of European basin development. In: De Graciansky PC, Hardenbol J, Jacquin T, Vail PR, eds Mesozoic and Cenozoic Sequence Stratigraphy of European Basins. SEPM Special Publication 60, pp 15–29

  • Ketcham RA, Carter A, Donelick RA, Barbarand J, Hurford AJ (2007) Improved modeling of fission-track annealing in apatite. Am Miner 92(5–6):799–810

    Article  Google Scholar 

  • Lambert P (2010) Target and impact deposits at Rochechouart impact structure, France. Geol Soc Am Spec Papers 465:509–541

    Google Scholar 

  • Landrein P, Vigneron G, Delay J, Lebon P, Pagel M (2013) Lithologie, hydrodynamisme et thermicité dans le système sédimentaire multicouche recoupé par les forages Andra de Montiers-sur-Saulx (Meuse). Bulletin de la Société géologique de France 184(6):519–543

    Article  Google Scholar 

  • Laslett GM, Gleadow AJW, Duddy IR (1984) The relationship between fission track length and track density in apatite. Nucl Tracks Radiat Meas 1982 9(1):29–38

    Google Scholar 

  • Le Pochat G, Floc’h JP, Platel JP, Recoing M (1985) Notice explicative, Carte géol. France (1/50 000), feuille Montbron (710). Orléans: BRGM, 48 p. Carte géologique par Le Pochat G, Floc’h JP, Platel JP, Recoing M (1985)

  • Ledru P, Lardeaux JM, Santallier D, Autran A, Quenardel JM, Floc’h JP, Lerouge G, Maillet N, Marchand J, Ploquin A (1989) Où sont les nappes dans le Massif central français? Bulletin de la Société géologique de France 3:605–618

    Article  Google Scholar 

  • Matte P (1986) Tectonics and plate tectonics model for the Variscan belt of Europe. Tectonophysics 126(2–4):329–374

    Article  Google Scholar 

  • Matte P (2001) The Variscan collage and orogeny (480–290 Ma) and the tectonic definition of the Armorica microplate: a review. Terra Nova 13(2):122–128

    Article  Google Scholar 

  • Mauroux B, Wyns R, Castagnac C, Prognon C, ZAmmit C, Martelet G, Lions J, Touchard F, Karnay G, Jaouen T, Thomas E (2009) Silures limousin—module 1—SILURES “Base de données” Recueil des données, interprétations et bilans-Rapport final-Rapport BRGM/RP-57901-FR, 365 pages, 54 illustrations, 24 tableaux, 25 annexes

  • Mazur S, Scheck-Wenderoth M (2005) Constraints on the tectonic evolution of the Central European Basin System revealed by seismic reflection profiles from Northern Germany. Neth J Geosci 84(4):389–401

    Google Scholar 

  • Mégnien C (1980) Tectogenese du Bassin de Paris; étapes de l’évolution du bassin. Bulletin de la Société géologique de France 7(4):669–680

    Article  Google Scholar 

  • Olivetti V, Balestrieri M, Godard V, Bellier O, Gautheron C, Valla P, Zattin M, Faccenna C, Pinna Jamme R, Manchuel K (2020) Cretaceous and late Cenozoic uplift of the eastern French Massif Central: insights from low-temperature thermochronometry. Lithosphere. https://doi.org/10.1130/L1142.1

    Article  Google Scholar 

  • Peyaud JB, Barbarand J, Carter A, Pagel M (2005) Mid-Cretaceous uplift and erosion on the northern margin of the Ligurian Tethys deduced from thermal history reconstruction. Int J Earth Sci 94(3):462–474

    Article  Google Scholar 

  • Reiners PW, Brandon MT (2006) Using thermochronology to understand orogenic erosion. Annu Rev Earth Planet Sci 34:419–466

    Article  Google Scholar 

  • Rougier G, Ford M, Christophoul F, Bader AG (2016) Stratigraphic and tectonic studies in the central Aquitaine Basin, northern Pyrenees: constraints on the subsidence and deformation history of a retro-foreland basin. CR Geosci 348(3–4):224–235

    Article  Google Scholar 

  • Rusciadelli G (1996) Stratigraphie séquentielle et quantification de l’espace disponible du remplissage du Jurassique supérieur et du Crétacé inférieur du Bassin de Paris, thèse, univ. Paris Sud, Orsay, p 178p

    Google Scholar 

  • Thiry M (2009) Diversity of continental silicification features: examples from the Cenozoic deposits in the Paris Basin and neighbouring basement. Palaeoweathering, Palaeosurf Relat Cont Depos 73:87

    Google Scholar 

  • Thiry M, Simon-Coinçon R, Schmitt JM (1999) Paléoaltérations kaoliniques: signification climatique et signature dans la colonne sédimentaire. Comptes Rendus de l’Académie des Sci Series IIA-Earth Planetary Sci 329(12):853–863

    Google Scholar 

  • Thiry M, Quesnel F, Yans J, Wyns R, Vergari A, Théveniaut H, Simon-Coinçon R, Ricordel C, Moreau MG, Giot D, Dupuis C, Bruxelles L, Barbarand J, Baele JM (2006) Continental France and Belgium during the Early Cretaceous: paleoweatherings and paleolandforms. Bull de la Société Géologique de France 177(3):155–175

    Article  Google Scholar 

  • Timar-Geng Z, Fügenschuh B, Wetzel A, Dresmann H (2006) Low-temperature thermochronology of the flanks of the southern Upper Rhine Graben. Int J Earth Sci 95(4):685

    Article  Google Scholar 

  • Vergès J, Garcia-Senz J (2001) Mesozoic evolution and Cenozoic inversion of the Pyrenean Rift. In: Ziegler PA et al (eds) Peri-Tethys Memoir 6: Pery-Tethyan Rift/Wrench Basins and Passive Margins, vol 186. Mémoires du Muséum National d’Histoire Naturelle, Paris, pp 187–212

    Google Scholar 

  • Wagner GA, Coyle DA, Duyster J, Henjes-Kunst F, Peterek A, Schröder B, Wemmer K, Zulauf G, Ahrendt H, Bischoff R, Hejl E, Jacobs J, Menzel D, Nand Lal P, Van den haute P, Vercoutere C, Welzel B (1997) Post-Variscan thermal and tectonic evolution of the KTB site and its surroundings. J Geophys Res Solid Earth 102(B8):18221–18232

    Article  Google Scholar 

  • Willett SD, Brandon MT (2013) Some analytical methods for converting thermochronometric age to erosion rate. Geochem Geophys Geosyst 14(1):209–222

    Article  Google Scholar 

  • Wyns R, Lablanche G, Lefravais-Raymond A (1988) Notice explicative, Carte géologique de la France (1/50000), feuille Chantonnay (563)

  • Wyns R (1991) Evolution tectonique du bâti armoricain oriental au Cénozoïque d’après l’analyse des paléosurfaces continentales et des formations géologiques associées. Géologie de la France 3(1): l–42

  • Wyns R, Quesnel F, Simon-Coinçon R, Guillocheau F, Lacquement F (2003) Major weathering in France related to lithospheric deformation. Géol Fr 1:79–87

    Google Scholar 

  • Ziegler PA (1988) Evolution of the Arctic-North Atlantic and the Western Tethys: a visual presentation of a series of Paleogeographic-Paleotectonic maps. AAPG memoir 43:164–196

    Google Scholar 

  • Ziegler PA (1990) Geological atlas of western and central Europe. Geological Society of London, London

    Google Scholar 

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Acknowledgements

This work is funded and carried out in the framework of the BRGM-TOTAL project Source-to-Sink. The authors would like to thank Gombretière quarry for the sampling and Andrew Carter (Department of Earth Planetary Sciences, Birkbeck College, London) for some unpublished fission-track data. We are thankful to M. Bernet and an anonymous reviewer for highly constructive comments on the manuscript.

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Authors and Affiliations

  1. Université Paris-Saclay, CNRS, GEOPS, Orsay, 91405, France

    Thomas François & Jocelyn Barbarand

  2. BRGM (French Geological Survey), DGR/GAT, 1, Av. Cl. Guillemin, BP 36009, 45060, Orléans Cedex 2, France

    Robert Wyns

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  1. Thomas François
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Correspondence to Thomas François.

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François, T., Barbarand, J. & Wyns, R. Lower Cretaceous inversion of the European Variscan basement: record from the Vendée and Limousin (France). Int J Earth Sci (Geol Rundsch) 109, 1837–1852 (2020). https://doi.org/10.1007/s00531-020-01875-z

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