Andrea Madella scite author profile

We present 10 Be-based basin-averaged denudation rates for the entire western margin of the Peruvian Andes. Denudation rates range from c. 9 mm ka À1 to 190 mm ka À1 and are related neither to the subduction of the Nazca plate nor to the current seismicity along the Pacific coast and the occurrence of raised Quaternary marine terraces. Therefore, we exclude a tectonic control on denudation on a millennial time-scale. Instead, we explain >60% of the observed denudation rates with a model where erosion rates increase either with mean basin slope angles or with mean annual water discharge. These relationships suggest a strong environmental control on denudation.

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Frictional Segmentation of the Chilean Megathrust From a Multivariate Analysis of Geophysical, Geological, and Geodetic Data

Molina

Tassara

Abarca

et al. 2021

JGR Solid Earth

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Seismic asperities, as defined by the classic conceptual model of Lay and Kanamori (1981), are high-friction regions of a fault plane that are locked over the interseismic period and can suddenly slip during an earthquake, releasing the elastic strain accumulated around the fault. Asperities can be spatially limited by barriers, defined by Aki (1979) as geometric discontinuities and/or low friction areas segmenting the fault. After decades of research, there is now ample recognition that fault planes are formed by a heterogeneous distribution of asperities and barriers (e.g.

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10Be-inferred paleo-denudation rates imply that the mid-Miocene western central Andes eroded as slowly as today

Madella

Delunel

Akçar

et al. 2018

Sci Rep

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Terrestrial cosmogenic nuclide concentrations of detrital minerals yield catchment-wide rates at which hillslopes erode. These estimates are commonly used to infer millennial scale denudation patterns and to identify the main controls on mass-balance and landscape evolution at orogenic scale. The same approach can be applied to minerals preserved in stratigraphic records of rivers, although extracting reliable paleo-denudation rates from Ma-old archives can be limited by the target nuclide’s half-life and by exposure to cosmic radiations after deposition. Slowly eroding landscapes, however, are characterized by the highest cosmogenic radionuclide concentrations; a condition that potentially allows pushing the method’s limits further back in time, provided that independent constraints on the geological evolution are available. Here, we report 13–10 million-year-old paleo-denudation rates from northernmost Chile, the oldest 10Be-inferred rates ever reported. We find that at 13–10 Ma the western Andean Altiplano has been eroding at 1–10 m/Ma, consistent with modern paces in the same setting, and it experienced a period with rates above 10 m/Ma at ~11 Ma. We suggest that the background tectono-geomorphic state of the western margin of the Altiplano has remained stable since the mid-Miocene, whereas intensified runoff since ~11 Ma might explain the transient increase in denudation.

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Miocene basement exhumation in the Central Alps recorded by detrital garnet geochemistry in foreland basin deposits

Stütenbecker¹,

Tollan

Madella³

et al. 2019

Solid Earth

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Abstract. The Neogene evolution of the European Alps was characterized by the exhumation of crystalline basement, the so-called external crystalline massifs. Their exhumation presumably controlled the evolution of relief, distribution of drainage networks, and generation of sediment in the Central Alps. However, due to the absence of suitable proxies, the timing of their surficial exposure and thus the initiation of sediment supply from these areas are poorly constrained. The northern Alpine foreland basin preserves the Oligocene to Miocene sedimentary record of tectonic and climatic adjustments in the hinterland. This contribution analyses the provenance of 25 to 14 Myr old alluvial fan deposits by means of detrital garnet chemistry. Unusually grossular- and spessartine-rich garnet is found (1) to be a unique proxy for identifying detritus from the external crystalline massifs and (2) to occur abundantly in ca. 14 Myr old deposits of the foreland basin. In contrast to previous assumptions, we therefore propose that the external massifs were already exposed to the surface ca. 14 Myr ago.

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Andrea Madella

Environmental controls on ¹⁰Be‐based catchment‐averaged denudation rates along the western margin of the Peruvian Andes

Frictional Segmentation of the Chilean Megathrust From a Multivariate Analysis of Geophysical, Geological, and Geodetic Data

10Be-inferred paleo-denudation rates imply that the mid-Miocene western central Andes eroded as slowly as today

Miocene basement exhumation in the Central Alps recorded by detrital garnet geochemistry in foreland basin deposits

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Andrea Madella

Environmental controls on 10Be‐based catchment‐averaged denudation rates along the western margin of the Peruvian Andes

Frictional Segmentation of the Chilean Megathrust From a Multivariate Analysis of Geophysical, Geological, and Geodetic Data

10Be-inferred paleo-denudation rates imply that the mid-Miocene western central Andes eroded as slowly as today

Miocene basement exhumation in the Central Alps recorded by detrital garnet geochemistry in foreland basin deposits

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Product

Resources

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Environmental controls on ¹⁰Be‐based catchment‐averaged denudation rates along the western margin of the Peruvian Andes