Determining the Plio-Quaternary uplift of the southern French Massif Central; a new insight for intraplate orogen dynamics

Malcles, Oswald; Vernant, Philippe; Chéry, Jean; Camps, Pierre; Cazes, Gaël; Ritz, Jean‐François; Fink, David

doi:10.5194/se-11-241-2020

Cited by 21 publications

(7 citation statements)

References 58 publications

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“…Seismic surveys show that the weathering profile extends as deep as 10 m below the land surface (Dangeard et al, 2019). Regional incision rates over the last 4 Ma based on cosmogenic isotopes are 83 +17/-5 m/Ma (Malcles et al, 2020), which is consistent with vertical velocities of <0.5 mm/yr estimated from Global Positioning System stations in the surrounding area (Masson et al, 2019).…”

Section: Site Descriptionsupporting

confidence: 81%

Weathering Incongruence in Mountainous Mediterranean Climates Recorded by Stream Lithium Isotope Ratios

Golla,

Bouchez,

Kuessner

et al. 2024

JGR Earth Surface

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Lithium isotope ratios (δ7Li) of rivers are increasingly serving as a diagnostic of the balance between chemical and physical weathering contributions to overall landscape denudation rates. Here, we show that intermediate weathering intensities and highly enriched stream δ7Li values typically associated with lowland floodplains can also describe small upland watersheds subject to cool, wet climates. This behavior is revealed by stream δ7Li between +22.4 and +23.5‰ within a Critical Zone observatory located in the Cévennes region of southern France, where dilute stream solute concentrations and significant atmospheric deposition otherwise mask evidence of incongruence. The water‐rock reaction pathways underlying this behavior are quantified through a multicomponent, isotope‐enabled reactive transport model. Using geochemical characterization of soil profiles, bedrock, and long‐term stream samples as constraints, we evolve the simulation from an initially unweathered granite to a steady state weathering profile which reflects the balance between (a) fluid infiltration and drainage and (b) bedrock uplift and soil erosion. Enriched stream δ7Li occurs because Li is strongly incorporated into actively precipitating secondary clay phases beyond what prior laboratory experiments have suggested. Chemical weathering incongruence is maintained despite relatively slow reaction rates and moderate clay accumulation due to a combination of two factors. First, reactive primary mineral phases persist across the weathering profile and effectively “shield” the secondary clays from resolubilization due to their greater solubility. Second, the clays accumulating in the near‐surface profile are relatively mature weathering byproducts. These factors promote characteristically low total dissolved solute export from the catchment despite significant input of exogenous dust.

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Section: Site Descriptionsupporting

confidence: 81%

Weathering Incongruence in Mountainous Mediterranean Climates Recorded by Stream Lithium Isotope Ratios

Golla,

Bouchez,

Kuessner

et al. 2024

JGR Earth Surface

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“…Mediterranean extension appear to have played a subsidiary and progressively declining role in the rise of the Modern Pyrenees. Uplift, which has impacted not just the mountain range but also its foreland basins and perhaps the entire Iberian Plate, and likewise the Massif Central (Macles et al, 2020) is now attributed to subcrustal and sublithospheric processes driven by boundary conditions that are only partly related to the intrinsic metabolism of an orogenic crustal wedge (see Section 2.4 and Section 4.2.1.1; Pous et al, 1995a, 1995b, Lewis et al, 2000Barruol et al, 2002Barruol et al, , 2004Gunnell et al, 2008Gunnell et al, , 2009Boschi et al, 2010;Casas-Sainz et al, 2009;Chevrot et al, 2014Chevrot et al, , 2015Chevrot et al, , 2018Dufréchoux et al, 2018;Wehr et al, 2018;Conway-Jones et al, 2019;Ortiz et al, 2020;Jolivet et al, 2020). Still unexplained is the apparent acceleration of the uplift and its unsteady regime, illustrated for example by the contrast between generation P2 of wide pediments penetrating deep into parts of the orogen, and the abrupt vertical incision of these planar landforms by the deep, often Vshaped, younger valleys.…”

Section: Shaping Of the Modern Pyreneesmentioning

confidence: 99%

Denudation history and palaeogeography of the Pyrenees and their peripheral basins: an 84-million-year geomorphological perspective

Calvet

Gunnell

Laumonier

2021

Earth-Science Reviews

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“…Paleofloods and historical floods have been documented in our study area, in particular along the Ardèche river (Sheffer et al, 2003;Naulet et al, 2005) and the Gardon river (Dezileau et al, 2014), allowing the assumption of a high-discharge-variability regime since at least the middle Holocene. The absolute values of precipitation and discharge variability have probably changed through time and been modulated by the succession of glacial cycles, but, as the present-day relief is associated with late Miocene to Pliocene uplift events (Olivetti et al, 2016(Olivetti et al, , 2020Malcles et al, 2020), it can be assumed that the orographic pattern and associated relative climatic contrasts across the margin are persistent throughout the Quaternary.…”

Section: Resultsmentioning

confidence: 99%

“…Due to their connection to the Rhône valley the eastern drainage systems were probably affected by the Messinian salinity crisis (Mocochain et al, 2009;Tassy et al, 2013). The Cenozoic uplift history of the Massif Central and its mechanisms are still poorly documented, but it is suspected that most of the observed relief, with respect to the Rhône valley, is associated with distinct late Miocene to Pliocene uplift events (Olivetti et al, 2016;Malcles et al, 2020). The present tectonic activity of the Massif Central is limited, with a recent uplift rate < 100 mm kyr −1 .…”

Section: Field Settingmentioning

confidence: 99%

Investigation of stochastic-threshold incision models across a climatic and morphological gradient

Desormeaux

Godard²,

Lague³

et al. 2022

Earth Surf. Dynam.

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Abstract. Long-term landscape evolution is controlled by tectonic and climatic forcing acting through surface processes. Rivers are the main drivers of continental denudation because they set the base level of most hillslopes. The mechanisms of fluvial incision are thus a key focus in geomorphological research and require accurate representation and models. River incision is often modeled with a stream power model (SPM) based on the along-stream evolution of drainage area and channel elevation gradient but can also incorporate more complex processes such as threshold effects and statistical discharge distributions, which are fundamental features of river dynamics. Despite their importance in quantitative geomorphology, such model formulations have been confronted with field data only in a limited number of cases. Here we investigate the behavior of stochastic-threshold incision models across the southeastern margin of the French Massif Central, which is characterized by significant relief and the regular occurrence of high-discharge events. Our study is based on a new dataset combining measurements of discharge variability from gauging stations, denudation rates from 34 basins from 10Be cosmogenic radionuclide (CRN) concentration measurements in river sediments, morphometric analysis of river long profiles, and field observations. This new dataset is used for a systematic investigation of various formulations of the SPM and to discuss the importance of incision thresholds. Denudation rates across the SE margin of the Massif Central are in the 20–120 mm kyr−1 (equivalent to mm/ka in the figures) range, and they positively correlate with slope and precipitation. However, the relationship with the steepness index is complex and supports the importance of taking into account spatial variations in parameters (D50, discharge variability k, runoff) controlling the SPM. Overall, the range of denudation rate across the margin can mainly be explained using a simple version of the SPM accounting for spatially heterogeneous runoff. More complex formulations including stochastic discharge and incision thresholds yield poorer performances unless the spatial variations in bedload characteristics controlling incision thresholds are taken into account. Our results highlight the importance of the hypotheses used for such a threshold in SPM application to field studies and notably the impact of actual constraints on bedload size.

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Determining the Plio-Quaternary uplift of the southern French Massif Central; a new insight for intraplate orogen dynamics

Cited by 21 publications

References 58 publications

Weathering Incongruence in Mountainous Mediterranean Climates Recorded by Stream Lithium Isotope Ratios

Weathering Incongruence in Mountainous Mediterranean Climates Recorded by Stream Lithium Isotope Ratios

Denudation history and palaeogeography of the Pyrenees and their peripheral basins: an 84-million-year geomorphological perspective

Investigation of stochastic-threshold incision models across a climatic and morphological gradient

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