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Geological Society, London, Special Publications; 2009; v. 324; p. 167-179;
DOI: 10.1144/SP324.13
© 2009 Geological Society of London

Part II: Applied thermochronology - long-term evolution studies

Late- and post-Variscan evolution of the Ardennes in France and Belgium: constraints from apatite fission-track data

Changhai Xu1,2,*, Jean Louis Mansy1, Peter Van Den Haute3, Francois Guillot1, Zuyi Zhou2, Jun Chen2 & Johan De Grave3

1 UMR PBDS (CNRS) Université Lille 1, F-59655 Villeneuve d'Ascq Cédex, France
2 State Key Laboratory of Marine Geology, Tongji University, Shanghai 200092, China
3 Geological Institute, Ghent University, Krijgslaan 281, B9000, Ghent, Belgium

* Corresponding author (e-mail: xchxch{at}tongji.edu.cn)

Apatite fission-track (AFT) analyses were performed on 13 Late Palaeozoic samples in order to unravel the late- to post-Variscan evolution of the Ardennes. The dated AFT ages cover a range from 290±33 Ma to 168±12 Ma, and the mean confined track lengths correspond to a unimodal distribution, with means varying between 13.1±0.1 µm and 11.7±0.3 µm. These ages for the sedimentary rocks are clearly younger than the respective stratigraphic ages, indicative of a cooling through the apatite partial annealing zone after post-depositional complete annealing. All available AFT data (290–146 Ma) from this region might be classified as three groups, that is 290–229 Ma, 218–198 Ma and 190–146 Ma, at least in correlation with three exhumation events. Using an inverse model, four major cooling episodes are identified from the modelled temperature–time (Tt) paths. The first rapid cooling (4.2–5.4 °C Ma–1, 320–300 Ma) corresponds to the late-Variscan rapid thrusting that ceased at about 300 Ma. The second cooling episode (0.2–4.0 °C Ma–1, up to 230 Ma) activated differentially, and was probably controlled by the post-Variscan transtension. The third cooling regime (0.1–0.3 °C Ma–1, 230–45 Ma) in the Ardennes Allochthon is slow, and represents a long-term and slow exhumation. In the Brabant Parautochthon, however, it is subdivided into 0.7 °C Ma–1 (225–110 Ma) and 0.2 °C Ma–1 (110–45 Ma). The last accelerated cooling (0.7–1.1 °C Ma–1, since 45 Ma) that affected the whole Ardennes is associated with a south–north compression during the Pyrenean phase.





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F. Lisker, B. Ventura, and U. A. Glasmacher
Apatite thermochronology in modern geology
Geological Society, London, Special Publications, 2009; 324: 1 - 23.
[Abstract] [Full Text] [PDF]