Browsing by Author "Chéry, J"

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    Burial ages, ghost-rocks and karst network structure. Insights from the Vis canyon (Southern France)
    (Groupe français de géomorphologie, 2020-10-21) Malcles, O; Vernant, P; Chéry, J; Ritz, JF; Cazes, G; Fink, D
    New burial ages by measuring 26 Al / 10 Be isotopic ratios in three cavities near the Vis canyon (south of France, south-eastern limit of Grands-Causses) challenge the classic karstogenesis model. used to explain the structuring of networks. Indeed, the subhorizontal levels of underground galleries are generally used as markers of the position of the regional base level ( ie , river). If the relationship between burial age and height relative to the regional base level expected using the classical model per descensumfor the Scorpions caves (1.2 ± 0.4 Ma, +105 m relative to the base level -rnb-) and Bergougnous (1.2 ± 0.3 Ma, +117 m rnb) is in agreement with the quantification of the average regional incision rate (83 ± 35 m / Ma), it does not explain the age of 0.94 ± 0.07 Ma obtained for the infills of the horizontal levels of the Rocas located much higher in altitude (+317 m rnb). The first two cavities open directly into the gorges, while the third opens onto the plateau less than 4 km from the gorges. To our knowledge, this is the first time that quantitative data support the proposition that the model of regional karstogenesis controlled by the position of the base level is not universal. These dates make it possible to suggest that ghosting plays a primordial role in controlling the location of the sub-horizontal levels. This process internal to the karst relegates the role of the position of the regional base level to that of a simple external triggering of the hollowing out of the alteration products generated by the phantomization. © French group of geomorphology
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    Determining the Plio-Quaternary uplift of the southern French Massif Central; a new insight for intraplate orogen dynamics
    (European Geosciences Union, 2020-02-26) Malcles, O; Vernant, P; Chéry, J; Camps, P; Cazes, G; Ritz, JF; Fink, D
    The evolution of intraplate orogens is still poorly understood. Yet, it is of major importance for understanding the Earth and plate dynamics, as well as the link between surface and deep geodynamic processes. The French Massif Central is an intraplate orogen with a mean elevation of 1000  m , with the highest peak elevations ranging from 1500 to 1885  m. However, active deformation of the region is still debated due to scarce evidence either from geomorphological or geodetic and seismologic data. We focus our study on the southern part of the Massif Central, known as the Cévennes and Grands Causses, which is a key area to study the relationship between the recent geological deformation and landscape evolution. This can be done through the study of numerous karst systems with trapped sediments combined with the analysis of a high-resolution digital elevation model (DEM). Using the ability of karst to durably record morphological evolution, we first quantify the incision rates. We then investigate tilting of geomorphological benchmarks by means of a high-resolution DEM. We finally use the newly quantified incision rates to constrain numerical models and compare the results with the geomorphometric study. We show that absolute burial age ( 10 Be ∕ 26 Al on quartz cobbles) and the paleomagnetic analysis of karstic clay deposits for multiple cave system over a large elevation range correlate consistently. This correlation indicates a regional incision rate of 83+ 17 / - 5 m Ma −1 during the last ca. 4  Myr (Pliocene – Quaternary). Moreover, we point out through the analysis of 55 morphological benchmarks that the studied region has undergone a regional southward tilting. This tilting is expected as being due to a differential vertical motion between the northern and southern part of the studied area. Numerical models show that erosion-induced isostatic rebound can explain up to two-thirds of the regional uplift deduced from the geochronological results and are consistent with the southward tilting derived from morphological analysis. We presume that the remaining unexplained uplift is related to dynamic topography or thermal isostasy due to the Massif Central Pliocene – Quaternary magmatism. Integrating both geochronology and morphometrical results into lithospheric-scale numerical models allows a better understanding of this intraplate – orogen evolution and dynamic. We assume that the main conclusions are true to the general case of intraplate deformation. That is to say, once the topography has been generated by a triggering process, rock uplift is then enhanced by erosion and isostatic adjustment leading to a significant accumulation of mainly vertical deformation. © Author (s) 2020