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Volume 7, issue 1
Solid Earth, 7, 205–228, 2016
https://doi.org/10.5194/se-7-205-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
Solid Earth, 7, 205–228, 2016
https://doi.org/10.5194/se-7-205-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 08 Feb 2016

Research article | 08 Feb 2016

Response of a low-subsiding intracratonic basin to long wavelength deformations: the Palaeocene–early Eocene period in the Paris Basin

J. Briais1,2, F. Guillocheau1, E. Lasseur2, C. Robin1, J. J. Châteauneuf3, and O. Serrano2 J. Briais et al.
  • 1Géosciences-Rennes, UMR6118, Université de Rennes 1 – CNRS, 35042 Rennes CEDEX, France
  • 2BRGM, 3 avenue Claude Guillemin, 45060 Orléans CEDEX, France
  • 3Biostratigraphy Consultant, 8 quai du Châtelet, 45000 Orléans, France

Abstract. The uppermost Cretaceous to early Palaeogene is a period of major deformations of the western part of the Eurasian plate with prominent basin inversions starting from the Coniacian onwards. These deformations occur in a complex geodynamic setting within both the context of the Africa–Eurasia convergence and the North Atlantic opening. While Mesozoic graben inversions have been extensively studied, particularly in Eastern Europe and the North Sea, more gentle deformations that affect thicker crust areas (intracratonic basins and emerged lands) are not as well documented.

The objective of this study is to constrain the exact timing, type, and magnitude of the early Palaeogene deformations affecting the intracratonic Paris Basin and to integrate them at the western European scale. Low-amplitude deformations are attempted through a high-resolution reconstitution of its stratigraphic record based on well-dated outcrops and well-dated wells, and a high number of well-logs that are correlated using the “stacking pattern” sequence stratigraphic technique.

Two orders of sequences are identified (third and fourth order) and correlated throughout the basin. Basin geometric and palaeogeographic reconstitutions are based on sediment thickness and facies analysis. Two-dimensional accommodation space measurements were taken in order to quantify the magnitude of the deformations.

Three phases of deformation were recognized.

1. An intra-Maastrichtian–pre-Thanetian (59 Ma) deformation, with major uplift and erosion of the Cretaceous strata with two sub-periods of deformation: Maastrichtian–pre-middle-Danian and Upper Danian–pre-Thanetian long-wavelength deformations. This period of major deformation is coeval with Upper Cretaceous/pre-Danian compressive deformations linked to the Africa–Eurasia convergence in southern France and with volcanic activity from the North Atlantic to Massif Central and the Rhenish Shield during the Palaeocene.

2. An early Ypresian (55.1–54.3 Ma) medium-wavelength deformation ( ×  10 km), here reported to be a stress rearrangement related to the onset of the North Atlantic opening.

3. An uppermost Ypresian (49.8 Ma) long-wavelength deformation ( ×  100 km), contemporaneous with flexural compressive deformations in the Aquitaine Basin (Pyrenean deformation), and related to the Iberia–Eurasia convergence.

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This paper focuses on the record of lithospheric deformations within an intracratonic basin. This study is based on a detailed analysis of sedimentology and stratigraphy of the Paris Basin (European plate). We identified four intraplate deformations during the Palaeocene-early Eocene period. Age, amplitude, wavelength, and orientation of these deformations are specified and attributed to the geodynamic events. This paper is based on results from J. Briais Phd thesis.
This paper focuses on the record of lithospheric deformations within an intracratonic basin....
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