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Late Neogene exhumation and relief development of the Aar and Aiguilles Rouges massifs (Swiss Alps) from low-temperature thermochronology modeling and 4He/3He thermochronometry
Valla P., Van Der Beek P., L. Shuster D., Braun J., Herman F. et al
Journal of Geophysical Research - earth surface 117 (2012) F01004 - http://hal.in2p3.fr/in2p3-00675140
Planète et Univers/Sciences de la Terre/Géophysique
Physique/Physique/Géophysique
Sciences de l'environnement/Milieux et Changements globaux
Late Neogene exhumation and relief development of the Aar and Aiguilles Rouges massifs (Swiss Alps) from low-temperature thermochronology modeling and 4He/3He thermochronometry
Pierre Valla1, Peter Van Der Beek1, D. L. Shuster, Jean Braun1, F. Herman, L. Tassan-Got2, C. Gautheron3
1 :  ISTerre - Institut des sciences de la Terre
http://isterre.fr/
CNRS : UMR5275 – IFSTTAR – Université de Savoie – Université Joseph Fourier - Grenoble I – INSU – OSUG – Institut de recherche pour le développement [IRD] : UR219
BP 53 38041 Grenoble cedex 9
France
2 :  IPNO - Institut de Physique Nucléaire d'Orsay
http://ipnweb.in2p3.fr
CNRS : UMR8608 – IN2P3 – Université Paris XI - Paris Sud
IPN - 15, rue Georges Clemenceau - 91406 ORSAY CEDEX
France
3 :  IDES - Université Paris-Sud
CNRS : UMR8148
bâts. 504 & 509, 91405 Orsay cedex
France
Tectonique reliefs et bassins
The late Neogene-Quaternary exhumation history of the European Alps is the subject of controversial findings and interpretations, with several thermochronological studies arguing for long-term steady state exhumation rates, while others have pointed to late Miocene-Pliocene exhumation pulses associated with tectonic and/or climatic changes. Here, we perform inverse thermal-kinematic modeling on dense thermochronological data sets combining apatite fission track (AFT) data from the literature and recently published apatite (U-Th-Sm)/He (AHe) data along the upper Rhône valley (Aar and Aiguilles Rouges massifs, Swiss Alps) in order to derive precise estimates on the denudation and relief history of this region. We then apply forward numerical modeling to interpret cooling paths quantified from apatite 4He/3He thermochronometry, in terms of denudation and relief-development scenarios. Our modeling results highlight the respective benefits of using AFT/AHe thermochronology data and 4He/3He thermochronometry for extracting quantitative denudation and relief information. Modeling results suggest a late Miocene exhumation pulse lasting until ∼8-10 Ma, consistent with recently proposed exhumation histories for other parts of the European Alps, followed by moderate (∼0.3-0.5 km Myr−1) denudation rates during the late Miocene/Pliocene. Both inverse modeling and 4He/3He data reveal that the late stage exhumation of the studied massifs can be explained by a significant increase (∼85-100%) in local topographic relief through efficient glacial valley carving. Modeling results quantitatively constrain Rhône valley carving to 1-1.5 km since ∼1 Ma. We postulate that recent relief development within this part of the Swiss Alps is climatically driven by the onset of major Alpine glaciations at the mid-Pleistocene climate transition.

Articles dans des revues avec comité de lecture
2012
Journal of Geophysical Research - earth surface
117
F01004

INSU-CNRS 07-TOPO-EUROPE-FP-023 ANR-08-BLAN-0303-01 "Erosion and Relief Development in the Western Alps" (to P.A.v.d.B.), ANR-06-JCJC-0079 U.S. National Science Foundation grant EAR-0720225