The Villa Olmo Conglomerate (lower member of the Como Conglomerate Formation, Gonfolite Lombarda Group, Southern Alps, Italy) represents the first coarse clastic inputs into the Oligocene Southalpine Foredeep. A number of techniques including sedimentary lithofacies analyses, clast counts on turbidite conglomerate bodies, sandstone petrography through Gazzi-Dickinson point-count method and XRF analyses, and optical and minero-chemical analyses on single clasts have been performed, in order to better define the sediment source area and geodynamic conditions which promoted sedimentation in the Southalpine Foredeep at the end of the Oligocene. The Villa Olmo Conglomerate interdigitates with the upper part of the Chiasso Formation, and gradually passes upward into the overlying Como Conglomerate Formation. Provenance analyses (conglomerate clast counts and sandstone petrography) reveal a strong metamorphic provenance signal, likely sourced from eroded Southalpine basement. An increase in igneous plutonic clasts reflects sediment supply from the Southern Steep Belt and a decrease of volcano-sedimentary Mesozoic cover sequences. Optical and minero-chemical analyses on volcanic detritus detect the presence of sub-intrusive to effusive, andesite to rhyolite products, ascribable to the Varese-Lugano Permian volcanoclastic suite, as well as Oligocene andesite products. Plutonic clasts document the presence of tonalites, granites, and brittle deformed granodiorites (with two micas), being likely sourced from the tonalite tail of the Bergell Pluton and the plutonic units of the Bellinzona-Dascio Zone. The identification of this provenance suite implies palaeo-drainage from the region between Varese (Southern Alps) and the Bellinzona-Dascio Zone (Central Alps). The Villa Olmo Conglomerate is the first depositional record of the onset of tectonically driven erosion in the Alpine belt. We infer that the previous low sediment budget regime (Eocene-Middle Oligocene) was a consequence of a tectonically controlled melting phase, during which tectonic events promoted magmatic production in the middle crust of the Central Alps at rates higher than those of crustal deformation, so inhibiting sediment production. We conclude that changes in the deep structures of the Alpine Orogenic chain have controlled the main geodynamic processes during Oligocene-Neogene times, and have controlled sediment composition and supply into the Southalpine Foredeep.

Di Capua, A., Vezzoli, G., Cavallo, A., Groppelli, G. (2016). Clastic sedimentation in the Late Oligocene Southalpine Foredeep: From tectonically controlled melting to tectonically driven erosion. GEOLOGICAL JOURNAL, 51(3), 338-353 [10.1002/gj.2632].

Clastic sedimentation in the Late Oligocene Southalpine Foredeep: From tectonically controlled melting to tectonically driven erosion

Di Capua, A
;
Vezzoli, G;Cavallo, A;Groppelli, G
2016

Abstract

The Villa Olmo Conglomerate (lower member of the Como Conglomerate Formation, Gonfolite Lombarda Group, Southern Alps, Italy) represents the first coarse clastic inputs into the Oligocene Southalpine Foredeep. A number of techniques including sedimentary lithofacies analyses, clast counts on turbidite conglomerate bodies, sandstone petrography through Gazzi-Dickinson point-count method and XRF analyses, and optical and minero-chemical analyses on single clasts have been performed, in order to better define the sediment source area and geodynamic conditions which promoted sedimentation in the Southalpine Foredeep at the end of the Oligocene. The Villa Olmo Conglomerate interdigitates with the upper part of the Chiasso Formation, and gradually passes upward into the overlying Como Conglomerate Formation. Provenance analyses (conglomerate clast counts and sandstone petrography) reveal a strong metamorphic provenance signal, likely sourced from eroded Southalpine basement. An increase in igneous plutonic clasts reflects sediment supply from the Southern Steep Belt and a decrease of volcano-sedimentary Mesozoic cover sequences. Optical and minero-chemical analyses on volcanic detritus detect the presence of sub-intrusive to effusive, andesite to rhyolite products, ascribable to the Varese-Lugano Permian volcanoclastic suite, as well as Oligocene andesite products. Plutonic clasts document the presence of tonalites, granites, and brittle deformed granodiorites (with two micas), being likely sourced from the tonalite tail of the Bergell Pluton and the plutonic units of the Bellinzona-Dascio Zone. The identification of this provenance suite implies palaeo-drainage from the region between Varese (Southern Alps) and the Bellinzona-Dascio Zone (Central Alps). The Villa Olmo Conglomerate is the first depositional record of the onset of tectonically driven erosion in the Alpine belt. We infer that the previous low sediment budget regime (Eocene-Middle Oligocene) was a consequence of a tectonically controlled melting phase, during which tectonic events promoted magmatic production in the middle crust of the Central Alps at rates higher than those of crustal deformation, so inhibiting sediment production. We conclude that changes in the deep structures of the Alpine Orogenic chain have controlled the main geodynamic processes during Oligocene-Neogene times, and have controlled sediment composition and supply into the Southalpine Foredeep.
Articolo in rivista - Articolo scientifico
Alpine tectonics; Periadriatic magmatism; Villa Olmo Conglomerate;
Villa Olmo Conglomerate; Alpine tectonics; Periadriatic magmatism
English
2016
51
3
338
353
none
Di Capua, A., Vezzoli, G., Cavallo, A., Groppelli, G. (2016). Clastic sedimentation in the Late Oligocene Southalpine Foredeep: From tectonically controlled melting to tectonically driven erosion. GEOLOGICAL JOURNAL, 51(3), 338-353 [10.1002/gj.2632].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/62644
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