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Aspromonte Massif

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Journal Article

Strain localization and sheath fold development during progressive deformation in a ductile shear zone: a case study of macro-to micro-scale structures from the Aspromonte Massif, Calabria Available to Purchase

Eugenio Fazio, Gaetano Ortolano, Roberto Visalli, Ian Alsop, Rosolino Cirrincione, Antonino Pezzino
Published: 01 June 2018
Italian Journal of Geosciences (2018) 137 (2): 208–218.
DOI: https://doi.org/10.3301/IJG.2018.09
... of its massifs and related Alpine and pre-Alpine basement rocks (modified after A ngí et alii, 2010 ; C irrincione et alii, 2011); (c) geological sketch map of the Aspromonte Massif (after P ezzino et alii, 1990 , 2008 ; O rtolano et alii, 2005 ; F azio et alii, 2008 ); (d) schematic...
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View PDF for article title, Strain localization and sheath fold development during progressive deformation in a ductile shear zone: a case study of macro-to micro-scale structures from the <span class="search-highlight">Aspromonte</span> <span class="search-highlight">Massif</span>, Calabria
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Schematic cross-sections of the Sila and Serre-Aspromonte massifs in Calabria.

Schematic cross-sections of the Sila and Serre-Aspromonte massifs in Calabr... Available to Purchase

Published: 01 November 2002
Figure 1. Schematic cross-sections of the Sila and Serre-Aspromonte massifs in Calabria.
Book Chapter

Weathering in the crystalline rocks of Calabria, Italy, and relationships to landslides Available to Purchase

Author(s)
Domenico Calcaterra, Mario Parise
Book: Weathering as a Predisposing Factor to Slope Movements
Series: Geological Society, London, Engineering Geology Special Publications
Publisher: Geological Society of London
Published: 01 January 2010
DOI: 10.1144/EGSP23.7
EISBN: 9781862393851
... predisposing erosion and landslides ( Nicotera 1959 a ; Fig.  1 ). He found that some catchments in the Serre and Aspromonte Massifs, widely characterized by crystalline rocks, were among those most affected by slope instabilities. A few years later, De Lorenzo (1904) mentioned the difficulties...
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Abstract
View PDF for content titled, Weathering in the crystalline rocks of Calabria, Italy, and relationships to landslides
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Abstract This paper reviews approximately 40 years of studies focused on landslides in weathered crystalline rocks of Calabria, southern Italy. In these studies geological, geomorphological, mineralogical, petrographical, engineering-geological and geotechnical aspects of the Palaeozoic granitoids and the high-grade metamorphic rocks cropping out in the Calabrian massifs have been considered. This in turn has allowed depiction of the regional landsliding scenario, where almost all the main typologies of mass movements have been recognized, ranging from shallow soil slips and extremely rapid debris flows to slow-moving deep-seated gravitational slope deformations. From north to south, the Sila Massif, Coastal Chain, and Poro, Serre and Aspromonte Massifs are described, with reference to the studies dealing with weathering and slope movements in the different geological and morphological settings. The regional extent of the weathering processes gave researchers the opportunity to adopt and calibrate mapping methods, specifically devoted to analysis and mitigation of the landslide hazard in weathered materials, which have also been applied to important civil engineering works. A further distinctive character of the Calabrian weathering is its age, which has been ascribed to Tertiary time. Such an ancient initiation could be regarded as one of the main reasons for the depth of the weathered mantle, which, despite the rugged topography, in some districts exceeds 150–200 m.

Journal Article

Structural and geomorphological constraints on active normal faulting and landscape evolution in Calabria, Italy Available to Purchase

Duna C. Roda-Boluda, Alexander C. Whittaker
Published: 23 February 2017
Journal of the Geological Society (2017) 174 (4): 701–720.
DOI: https://doi.org/10.1144/jgs2016-097
...–400 m, and the Aspromonte massif by up to c. 1150–1300 m. We find that these faults have throws between c. 640 and 1430 m, and throw rates between c. 0.6 and 1.4 mm a −1 . Their footwall ranges have variable proportions of inherited relief, up to c. 300–800 m. The channels draining these ranges...
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View PDF for article title, Structural and geomorphological constraints on active normal faulting and landscape evolution in Calabria, Italy
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COSMOGENIC NUCLIDE DATA, MILLENNIAL-SCALE EROSION RATES, AND ROCK UPLIFT RA... Open Access

Published: 01 June 2010
TABLE 2. COSMOGENIC NUCLIDE DATA, MILLENNIAL-SCALE EROSION RATES, AND ROCK UPLIFT RATES IN THE ROMAGNA APENNINES, PELORITANI MOUNTAINS, AND ASPROMONTE MASSIF
Image
Simplified map of Italy showing the locations of the Romagna Apennines, Peloritani Mountains, and Aspromonte Massif study areas. Elevations are SRTM 3 arc-second (∼90 m) data.

Simplified map of Italy showing the locations of the Romagna Apennines, Pel... Open Access

Published: 01 June 2010
Figure 1. Simplified map of Italy showing the locations of the Romagna Apennines, Peloritani Mountains, and Aspromonte Massif study areas. Elevations are SRTM 3 arc-second (∼90 m) data.
Image
- Synthesis of geological setting: (a) schematic map of the Alpine belt in the southern Mediterranean area (GK= Grande Kabylie; PK = Petit Kabylie; Sa = Sardinia; CPO = Calabrian Peloritani Orogen); (b) geological sketch map of the Calabria-Peloritani Orogen with distribution of its massifs and related Alpine and pre-Alpine basement rocks (modified after Angíet alii, 2010; Cirrincioneet alii, 2011); (c) geological sketch map of the Aspromonte Massif (after Pezzinoet alii, 1990, 2008; Ortolanoet alii, 2005; Fazioet alii, 2008); (d) schematic tectono-stratigraphic column of the tectono-metamorphic units (modified after Ortolanoet alii, 2015 and Fazioet alii, 2015).

- Synthesis of geological setting: (a) schematic map of the Alpine belt in ... Available to Purchase

Published: 01 June 2018
massifs and related Alpine and pre-Alpine basement rocks (modified after A ngí et alii, 2010 ; C irrincione et alii, 2011); (c) geological sketch map of the Aspromonte Massif (after P ezzino et alii, 1990 , 2008 ; O rtolano et alii, 2005 ; F azio et alii, 2008 ); (d) schematic tectono
Journal Article

Indagine geologico-petrografica sul cristallino dell'Aspromonte centro-settentrionale (Calabria) Free

A. Pezzino, G. Puglisi
Published: 01 January 1980
Italian Journal of Geosciences (1980) 99 (3): 255–268.
...A. Pezzino; G. Puglisi GeoRef, Copyright 2012, American Geosciences Institute. 1980 amphibolite facies Aspromonte Massif Calabria Italy crystalline rocks Delianuova Italy diorites Europe facies gneisses granites granodiorites igneous rocks Italy lineaments lithofacies...
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Journal Article

I graniti peraluminosi di Delianuova (Aspromonte, Calabria meridionale) Free

S. Ioppolo, G. Puglisi
Published: 01 January 1980
Italian Journal of Geosciences (1980) 99 (3): 269–280.
...S. Ioppolo; G. Puglisi GeoRef, Copyright 2012, American Geosciences Institute. 1980 anatexis Aspromonte Massif Calabria Italy chemical composition Europe fractional crystallization geochemistry granites granodiorites igneous rocks intrusions Italy lithogeochemistry magmas...
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Journal Article

Le mineralizzazioni nel basamento cristallino dell'Aspromonte (Calabria) Free

B. De Vivo, S. Lorenzoni, E. Zanettin Lorenzoni, G. Orsi
Published: 01 January 1980
Italian Journal of Geosciences (1980) 99 (3): 289–302.
...B. De Vivo; S. Lorenzoni; E. Zanettin Lorenzoni; G. Orsi GeoRef, Copyright 2012, American Geosciences Institute. 1980 Altarupe Italy Aspromonte Massif barite deposits basement Calabria Italy Capo San Giovanni Unit dikes Europe faults fluorspar deposits granites granulites...
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Image
Examples of stream-channel longitudinal profiles (left and bottom axes) and slope-area data (top and right axes) from the Romagna Apennines (A) and Aspromonte Massif (B) used to determine ksn values. Channel longitudinal profiles: black solid line—smoothed channel profile; gray dashed line—best-fit channel profile calculated from ksn and best-fit θ, white circles—limits of channel data used in the regression. Slope/area data: gray crosses—log-binned slope-area data; dashed black line—best-fit slope-area regression; solid black line—slope-area regression using θref. The black arrow denotes the mapped transition from detachment-limited to transport-limited channels. The gray arrows show the transition from channels dominated by unchannelized hillslope and/or debris-flow processes to those characterized by fluvial processes inferred from the slope-area relationships. Numbers before stream name and sample location correspond to those in Figure 3 and Tables 1 and 2.

Examples of stream-channel longitudinal profiles (left and bottom axes) and... Open Access

Published: 01 June 2010
Figure 2. Examples of stream-channel longitudinal profiles (left and bottom axes) and slope-area data (top and right axes) from the Romagna Apennines (A) and Aspromonte Massif (B) used to determine k sn values. Channel longitudinal profiles: black solid line—smoothed channel profile; gray
Journal Article

Quantifying rock uplift rates using channel steepness and cosmogenic nuclide–determined erosion rates: Examples from northern and southern Italy Open Access

Andrew J. Cyr, Darryl E. Granger, Valerio Olivetti, Paola Molin
Journal: Lithosphere
Publisher: GSW
Published: 01 June 2010
Lithosphere (2010) 2 (3): 188–198.
DOI: https://doi.org/10.1130/L96.1
...TABLE 2. COSMOGENIC NUCLIDE DATA, MILLENNIAL-SCALE EROSION RATES, AND ROCK UPLIFT RATES IN THE ROMAGNA APENNINES, PELORITANI MOUNTAINS, AND ASPROMONTE MASSIF ...
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View PDF for article title, Quantifying rock uplift rates using channel steepness and cosmogenic nuclide–determined erosion rates: Examples from northern and southern Italy
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Journal Article

The effects of a Meso-Alpine collision event on the tectono-metamorphic evolution of the Peloritani mountain belt (eastern Sicily, southern Italy) Available to Purchase

STEFANO CATALANO, ROSOLINO CIRRINCIONE, PAOLO MAZZOLENI, FRANCESCO PAVANO, ANTONIO PEZZINO, GINO ROMAGNOLI, GIUSEPPE TORTORICI
Published: 15 June 2017
Geological Magazine (2018) 155 (2): 422–437.
DOI: https://doi.org/10.1017/S0016756817000413
.... , Cirrincione , R. & Pezzino , A. 2008 . Estimating P-T conditions of alpine-type metamorphism using multistage garnet in the tectonic windows of the Cardeto area (southern Aspromonte Massif, Calabria) . Mineralogy and Petrology 93 (1–2) , 111 – 142 . Fazio , E. , Punturo , R...
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View PDF for article title, The effects of a Meso-Alpine collision event on the tectono-metamorphic evolution of the Peloritani mountain belt (eastern Sicily, southern Italy)
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Paleogeographic reconstruction of the Central Mediterranean during the Oligocene, by Alvarez et al. [1974]. The hypothesized migration of microplates, which originated from the western prolongation of the Alpine chain, is indicated by empty arrows. The Calabria ‘massif’ is broken in three parts by the Catanzaro (Cz) and the Messina (Me) sphenochasms. CR, Coastal range; S, Sila; A, Aspromonte; P, Peloritani mountains.

Paleogeographic reconstruction of the Central Mediterranean during the Olig... Available to Purchase

Published: 01 July 2015
Fig. 4 Paleogeographic reconstruction of the Central Mediterranean during the Oligocene, by Alvarez et al. [1974] . The hypothesized migration of microplates, which originated from the western prolongation of the Alpine chain, is indicated by empty arrows. The Calabria ‘massif’ is broken
Journal Article

Water-mortar Interaction in a Tunnel Located in Southern Calabria (southern Italy) Available to Purchase

Giovanni Vespasiano, Pasqualino Notaro, Giuseppe Cianflone
Published: 24 August 2018
Environmental & Engineering Geoscience (2018) 24 (3): 305–315.
DOI: https://doi.org/10.2113/EEG-1978
... observed ( Cianflone et al., 2015a , 2015 b). The Aspromonte Massif is considered a southeast-verging nappe edifice, bounded to the north by a strike-slip fault system (Palmi Line) consisting of three stacked crystalline basement units ( Ortolano et al., 2015 ). Extensional tectonics and normal fault...
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View PDF for article title, Water-mortar Interaction in a Tunnel Located in Southern Calabria (southern Italy)
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Journal Article

Styles and regimes of orogenic thickening in the Peloritani Mountains (Sicily, Italy): new constraints on the tectono-metamorphic evolution of the Apennine belt Available to Purchase

GIANLUCA VIGNAROLI, FEDERICO ROSSETTI, THOMAS THEYE, CLAUDIO FACCENNA
Published: 06 February 2008
Geological Magazine (2008) 145 (4): 552–569.
DOI: https://doi.org/10.1017/S0016756807004293
... with the tectonic evolution of the Calabria–Peloritani Arc and the Apennine belt as a whole. In the eastern portions of the Sila Massif (Fig. 1b ), Hercynian granitoid rocks of the Aspromonte unit are involved in a top-to-the-NE thrusting onto the Mesozoic sequences of the Longobucco Group with deformation...
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View PDF for article title, Styles and regimes of orogenic thickening in the Peloritani Mountains (Sicily, Italy): new constraints on the tectono-metamorphic evolution of the Apennine belt
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Journal Article

Evidence of active tectonics in southern Calabria (Italy) by geomorphic analysis: the examples of the Catona and Petrace rivers Available to Purchase

Claudia Pirrotta, Maria Serafina Barbano, Carmelo Monaco
Published: 01 February 2016
Italian Journal of Geosciences (2016) 135 (1): 142–156.
DOI: https://doi.org/10.3301/IJG.2015.20
..., was performed ( fig. 2 ). The A class includes the crystalline terrains of the metamorphic massif, namely the most resistant lithology. The B class comprises the Tortonian, Pliocene and Early Pleistocene age terrains, made up of conglomerates, sandstones, sands and clays with mid/low resistance...
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View PDF for article title, Evidence of active tectonics in southern Calabria (Italy) by geomorphic analysis: the examples of the Catona and Petrace rivers
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Journal Article

Understanding seismogenic processes in the Southern Calabrian Arc: a geodynamic perspective Available to Purchase

Tiberti Mara Monica, Vannoli Paola, Fracassi Umberto, Burrato Pierfrancesco, Kastelic Vanja, Valensise Gianluca
Published: 10 October 2016
Italian Journal of Geosciences (2017) 136 (3): 365–388.
DOI: https://doi.org/10.3301/IJG.2016.12
...-Quaternary sediments abut the crystalline rocks forming the backbone of the Aspromonte Massif. This high-angle, W-dipping, westward-concave fault is considered active based on morphotectonic and structural analyses ( T ortorici et alii , 1995 ; M onaco et alii , 1996 ), and on contemporary historical...
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View PDF for article title, Understanding seismogenic processes in the Southern Calabrian Arc: a geodynamic perspective
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Modelling the thermal perturbation of the continental crust after intraplating of thick granitoid sheets: a comparison with the crustal sections in Calabria (Italy) Available to Purchase

A. CAGGIANELLI, G. PROSSER
Published: 01 November 2002
Geological Magazine (2002) 139 (6): 699–706.
DOI: https://doi.org/10.1017/S0016756802006817
...Figure 1. Schematic cross-sections of the Sila and Serre-Aspromonte massifs in Calabria. ...
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View PDF for article title, Modelling the thermal perturbation of the continental crust after intraplating of thick granitoid sheets: a comparison with the crustal sections in Calabria (Italy)
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Journal Article

The geological relationships between Sardinia and Calabria during Alpine and Hercynian times Available to Purchase

Walter Alvarez, David H. Shimabukuro
Published: 01 June 2009
Italian Journal of Geosciences (2009) 128 (2): 257–268.
DOI: https://doi.org/10.3301/IJG.2009.128.2.257
... estphal , 1968 ; D e J ong et alii , 1969 ; Z ijderveld et alii , 1970 ), the entire Corsica-Sardinia-Calabria continental massif would have been part of Europe until the Oligocene ( A lvarez et alii , 1974 ). Despite this fairly unambiguous history of microcontinent motions since the Miocene...
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View PDF for article title, The geological relationships between Sardinia and Calabria during Alpine and Hercynian times
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