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  • 1
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    Microstructures of melt inclusions in anatectic metasedimentary (2012)
    Wiley-Blackwell
    Details
    Publication Date: 2017-04-04
    Description: The occurrence of crystallized and glassy melt inclusions (MI) in high-grade, partially melted metapelites and metagraywackes has opened up new possibilities to investigate anatectic processes. The present study focuses on three case studies: khondalites from the Kerala Khondalite Belt (India), the Ronda migmatites (Spain), and the Barun Gneiss (Nepal Himalaya). The results of a detailed microstructural investigation are reported, along with some new microchemical data on the bulk composition of MI. These inclusions were trapped within peritectic garnet and ilmenite during crystal growth and are therefore primary inclusions. They are generally isometric and very small in size, mostly £15 lm, and only rarely reaching 30 lm; they occur in clusters. In most cases inclusions are crystallized ( nanogranites ) and contain a granitic phase assemblage with quartz, feldspar and one or two mica depending on the particular case study, commonly with accessory phases (mainly zircon, apatite, rutile). In many cases the polycrystalline aggregates that make up the nanogranites show igneous microstructures, e.g. granophyric intergrowths, micrographic quartz in K-feldspar and cuneiform rods of quartz in plagioclase. Further evidence for the former presence of melt within the investigated inclusions consists of melt pseudomorphs, similar to those recognized at larger scale in the host migmatites. Moreover, partially crystallized inclusions are locally abundant and together with very small (£8 lm) glassy inclusions may occur in the same clusters. Both crystallized and partially crystallized inclusions often display a diffuse nanoporosity, which may contain fluids, depending on the case study. After entrapment, inclusions underwent limited microstructural modifications, such as shape maturation, local necking down processes, and decrepitation (mainly in the Barun Gneiss), which did not influence their bulk composition. Re-homogenized nanogranites and glassy inclusions show a leucogranitic and peraluminous composition, consistent with the results of partial melting experiments on metapelites and metagraywackes. Anatectic MI should therefore be considered as a new and important opportunity to understand the partial melting processes.
    Description: Published
    Description: 303-322
    Description: 3.5. Geologia e storia dei vulcani ed evoluzione dei magmi
    Description: JCR Journal
    Description: restricted
    Keywords: garnet ; melt inclusions ; melt microstructures ; migmatites ; nanogranite ; 04. Solid Earth::04.04. Geology::04.04.05. Mineralogy and petrology
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: article
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  • 2
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    Mapping of Alpine rocks characterized by "HP" to "UHP" metamorphic overprint in the Southern Dora-Maira Massif. Mapping Geology in Italy, APAT- Dipartimento Difesa del Suolo Servizio Geologico d′Italia. Mapping Geology in Italy, APAT- Dipartimento Difesa del Suolo Servizio Geologico d′Italia (2004)
    In:  S.EL.CA.Firenze, Map 34, 287-294
    Details
    Publication Date: 2004
    Keywords: TF IV ; Task Force IV ; Ultra-Deep Continental Crust Subduction (UDCCS)
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    BIBLIOGRAPHY ILP
  • 3
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    Exhumation history of the UHPM Brossasco-Isasca Unit, Dora-Maira Massif, as inferred from a phengite-amphibole eclogite (2006)
    In:  International Geology Review, vol. 48
    Details
    Publication Date: 2006
    Keywords: TF IV ; Task Force IV ; Ultra-Deep Continental Crust Subduction (UDCCS)
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    BIBLIOGRAPHY ILP
  • 4
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    Late chloritoid-staurolite assemblage in a garnet-kyanitebearing metapelite from the ultrahigh-pressure Brossasco-Isasca unit (Dora-Maira Massif, Western Alps): New petrological constraints for a portion of the decompressional path. Ultrahigh-pressure metamorphism: Deep continental subduction. Ultrahigh-pressure metamorphism: Deep continental subduction (2006)
    In:  Geological Society of America, Special Paper, vol. 403, pp. 127-138
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    Publication Date: 2006
    Keywords: TF IV ; Task Force IV ; Ultra-Deep Continental Crust Subduction (UDCCS)
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  • 5
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    Stone materials used for monumental buildings in the historical centre of Turin (NW Italy): architectonical survey and petrographic characterization of Via Roma (2014)
    Geological Society (of London)
    Details
    Publication Date: 2014-11-29
    Description: One of the peculiarities of Turin (NW Italy) lies on the presence of monumental arcades which mainly consist of stone material. These arcades, characterized by more than 12 km of interconnected paths, represent one of the widest city promenades of Europe and are an architectural, aesthetic and socio-economic example unique in the world. This paper, analysing the urban axis of Via Roma (Rome Street), aims to study the material used in arcade construction. The main stones occurring in Via Roma have been identified and described from a petrographic and mineralogical point of view in order to find out the corresponding geological units and original quarry sites. The minero-petrographic study is accompanied by an architectural survey that was performed applying different methods, as well as the geometric mapping and the perspective rectification of span-types, of block terminations and of other architectonical elements, in plan and in elevation, of the arcades. This allows us to emphasize the merging of cultural and scientific interest for the stone materials used in the historical architecture of a town closely interconnected to the surrounding Western Alps orogenic chain.
    Print ISSN: 0305-8719
    Electronic ISSN: 2041-4927
    Topics: Geosciences
    Published by Geological Society (of London)
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  • 6
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    Partial Melting in the Higher Himalayan Crystallines of Eastern Nepal: the Effect of Decompression and Implications for the 'Channel Flow' Model (2012)
    Oxford University Press
    Details
    Publication Date: 2012-04-25
    Description: Partial melting of deep continental crust may occur during either prograde heating or decompression. Although the effect of temperature on crustal melting has been widely investigated, few experimental studies have addressed the question of the influence of pressure on crustal anatexis. To understand the influence of decreasing pressure on partial melting processes, the thermodynamic approach of isochemical phase diagrams has been applied to garnet–K-feldspar–kyanite–sillimanite anatectic gneisses (Barun Gneiss) from the Higher Himalayan Crystallines (HHC) of eastern Nepal. The main melt-producing reactions, the amount of melt produced during heating vs decompression, and the effects of melt loss on the mineral assemblages and compositions have been investigated along four ideal P–T trajectories, dominated by either heating or decompression. Based on these results, the observed microstructures and mineral compositions of the Barun Gneiss have been interpreted in terms of melt-producing vs melt-consuming reactions (e.g. growth of peritectic garnet with preserved ‘nanogranite’ inclusions vs microstructures related to back-reactions between solids and melt), and used to derive the metamorphic evolution of the studied samples. The P–T pseudosection modelling predicts that at least 15–20 vol. % of melt was produced at peak P–T conditions through dehydration melting of both muscovite and biotite, and that melt production was mainly triggered by heating, with or without the combined effect of decompression. The preserved granulitic peak metamorphic assemblage, however, is consistent with a significant loss of most of this melt. The P–T evolution inferred for samples from different, strategically located, structural levels of the Barun Gneiss is consistent with the expectations of a ‘channel flow’ model, including: (1) the clockwise shape of the P–T paths; (2) the estimated P at peak T (new data: 10–8 kbar at 800°C; model: 13–7 kbar at 800°C); (3) the decreasing P structurally upward, which defines a ‘normal’ metamorphic sequence, in contrast to the inverted metamorphic sequence occurring in the lowermost Main Central Thrust Zone; (4) the nearly isothermal exhumation of the structurally lowest sample, reflecting the progressive exhumation of rocks that have been entrained in the deep, high-T region of the channel, versus the nearly isobaric heating of the structurally uppermost sample, reflecting the evolution of those rocks that flowed outwards with the underlying channel.
    Print ISSN: 0022-3530
    Electronic ISSN: 1460-2415
    Topics: Geosciences
    Published by Oxford University Press
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  • 7
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    Petrological constraints of the 'Channel Flow' model in eastern Nepal (2014)
    Geological Society (of London)
    Details
    Publication Date: 2014-09-11
    Description: The metamorphic architecture of eastern Nepalese Himalaya is characterized by a well-documented inverted metamorphic field gradient, with metamorphic grade increasing northward from lower (LHS) to higher (HHC) structural levels across the north-dipping Main Central Thrust Zone (MCTZ). Peak metamorphic conditions experienced by units at different structural levels have been investigated extensively, but their P – T –( t ) evolution could be constrained better. A synthesis of our recent petrological studies in eastern Nepal is based on selected geotraverses across the Dudh–Kosi, Arun, and Tamur tectonic windows, where the LHS is exposed beneath MCTZ and HHC. To define the entire P – T evolution experienced by lithotectonic units, detailed petrological investigations were focused on metapelites. P – T trajectories were constrained combining microstructural observations and isochemical phase diagrams modelling. The uniformity of the approach applied is a robust method to quantitatively compare the resulting P – T paths. These P – T paths are compared with the petrological constraints inferred from the ‘Channel Flow’ model, one of the most popular paradigms to explain the tectonometamorphic evolution and the first-order geological features of the Himalaya. The overall geometries of our P – T paths match the results of the numerical model, suggesting that ‘Channel Flow’ is compatible, from a petrological viewpoint, as the main process operating during the exhumation of eastern Himalaya.
    Print ISSN: 0305-8719
    Electronic ISSN: 2041-4927
    Topics: Geosciences
    Published by Geological Society (of London)
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  • 8
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    Fe-rich antigorite: a rock-forming mineral from low-temperature/high-pressure meta-ophicarbonates (2019)
    Schweizerbart
    Details
    Publication Date: 2019
    Description: 〈span〉This study provides the first characterization of Fe-rich antigorite (FeO〈sub〉tot〈/sub〉 up to 12 wt%), a rock-forming mineral occurring in ophicarbonate rocks from different low-temperature/high-pressure meta-ophiolitic suites: 〈span〉Acceglio〈/span〉 (Traversiera Valley, external Piemonte Zone, NW Italy), 〈span〉Macedonia〈/span〉 and 〈span〉Verias〈/span〉 (Thessaloniki and Vurinos-Kozani ophiolitic complexes, NE Greece), 〈span〉Tinos〈/span〉 (Tinos Island, Cyclades Archipelago, Greece). Fe-rich antigorite has been characterized through optical and transmission electron microscopy (TEM), and its mineral chemistry has been investigated by means of wavelength-dispersive and TEM-based energy-dispersive spectrometry.In thin section, Fe-rich antigorite is characterized by a strong, peculiar pleochroism (α = green–dark green; γ = bright-yellow–orange). It occurs in both mesh and bastite microstructures, and it is locally associated with relics of lizardite and/or chrysotile. The modulated lattice parameters of disordered Fe-rich antigorites have been determined by electron diffraction in the transmission electron microscope. The values are highly variable, even within each ophicarbonate sample. 〈span〉Verias〈/span〉 dominantly has a superlattice parameter 〈span〉a〈/span〉 clustering around 43.5 Å (corresponding to the 〈span〉m〈/span〉 = 17 polysome); 〈span〉Tinos〈/span〉 and 〈span〉Macedonia〈/span〉 have around 35.4 Å (〈span〉m〈/span〉 = 14); 〈span〉Acceglio〈/span〉 may even go down to 29 Å (〈span〉m〈/span〉 = 12). Globally, the disorder features (〈span〉i.e.〈/span〉, reduced size of crystals, polysomatic faults, wobbling, misalignment among sublattice and superlattice reflections, 〈span〉etc.〈/span〉) increase from 〈span〉Macedonia〈/span〉 to 〈span〉Verias〈/span〉, 〈span〉Tinos〈/span〉 and 〈span〉Acceglio〈/span〉, respectively. The analyzed Fe-rich antigorites accommodate up to 12 wt% FeO〈sub〉tot〈/sub〉, with 〈span〉X〈/span〉〈sub〉Fe〈/sub〉 values (〈span〉X〈/span〉〈sub〉Fe〈/sub〉 = Fe〈sub〉tot〈/sub〉/[Mg + Fe〈sub〉tot〈/sub〉]) in the range 0.10–0.16 for 〈span〉Macedonia〈/span〉, 0.05–0.17 for 〈span〉Acceglio〈/span〉, 0.10–0.12 for 〈span〉Tinos〈/span〉 and 0.05–0.10 for 〈span〉Verias〈/span〉. The intensity of the pleochroism seems to be directly correlated with the Fe content, with the Fe-richer samples showing the deeper absorption colours. Mineral relationships and TEM observations suggest that Fe-rich antigorite replaces former mesh and bastite microstructures consisting of lizardite ± chrysotile, only locally preserved as relict phases. The thermodynamic modelling approach (〈span〉i.e.〈/span〉, 〈span〉P〈/span〉/〈span〉T–X〈/span〉(CO〈sub〉2〈/sub〉) pseudosection) qualitatively shows that the stability of Fe-rich antigorite is compatible with low-temperature, high-pressure conditions (〈span〉i.e.〈/span〉, blueschist-facies metamorphic conditions), and is enhanced by the occurrence of CO〈sub〉2〈/sub〉 in the fluid, consistent with the systematic occurrence of this mineral in meta-ophicarbonate rocks.〈/span〉
    Print ISSN: 0935-1221
    Electronic ISSN: 1617-4011
    Topics: Geosciences
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  • 9
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    What’s in the sandwich? New P – T constraints for the (U)HP nappe stack of southern Dora-Maira Massif (Western Alps) (2019)
    Schweizerbart
    Details
    Publication Date: 2019
    Description: 〈span〉The Brossasco-Isasca Unit (BIU) of the southern Dora-Maira Massif (DMM), Western Alps, is one of the most studied ultra-high pressure (UHP) units in the world. However, the interpretation of UHP metamorphism in the BIU is still a highly debated and challenging issue. The structural and tectonometamorphic setting of the southern DMM is described in the literature as a tectonic “sandwich”, with the UHP unit in the middle, bounded by two high-pressure (HP) eclogitic units in the footwall (the San Chiaffredo Unit, SCU) and hanging wall (the Rocca Solei Unit, RSU), respectively. These three units are in turn sandwiched between two blueschist-facies units (the Pinerolo Unit, PU, at the bottom, and the Dronero-Sampeyre Unit, DSU, at the top). In contrast to the well-constrained 〈span〉P〈/span〉–〈span〉T〈/span〉 evolution of the BIU, peak 〈span〉P〈/span〉–〈span〉T〈/span〉 conditions for its bounding HP units are poorly constrained, most studies dating back to over 20 years ago and mostly relying on conventional thermobarometric methods. This study aims to update our knowledge about the 〈span〉P〈/span〉–〈span〉T〈/span〉 evolution experienced by the whole tectonometamorphic package of the southern DMM. For the first time, peak 〈span〉P〈/span〉–〈span〉T〈/span〉 conditions and prograde evolution for the five units (PU, SCU, BIU, RSU, DSU) forming the southern DMM tectonic “sandwich” are estimated using the same, internally consistent and therefore comparable, modern thermobarometric approaches. The study focuses on metapelites (〈span〉i.e.〈/span〉, garnet-bearing phengitic micaschists) and combines multi-equilibrium thermobarometry (Average 〈span〉PT〈/span〉) with the 〈span〉P〈/span〉–〈span〉T〈/span〉 pseudosection approach. Our results demonstrate that most of the southern DMM nappe stack (〈span〉i.e.〈/span〉, SCU, RSU and also the PU, that was originally considered as a blueschist-facies unit) experienced eclogite-facies metamorphism under similar peak 〈span〉P〈/span〉–〈span〉T〈/span〉 conditions (500–520 °C, 20–24 kbar), and followed the same prograde path, suggesting similar burial mechanisms. The UHP BIU followed an early prograde evolution similar to that of the other eclogitic units of the southern DMM tectonic “sandwich”. The attainment of UHP peak conditions occurred through an earlier steep, almost isothermal increase in pressure and a later increase in temperature. The DSU is the only unit of the southern DMM nappe stack that did not experience eclogite-facies metamorphism (peak metamorphism at blueschist-facies conditions: 450–470 °C, 17–18 kbar) and it is separated from the eclogitic units by a shear zone (the Valmala Shear Zone), whose interpretation requires further studies. These new data represent the inescapable starting point for any conceptual model aiming for a deeper understanding of the subduction/exhumation processes of UHP continental units.〈/span〉
    Print ISSN: 0935-1221
    Electronic ISSN: 1617-4011
    Topics: Geosciences
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  • 10
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    What’s in the sandwich? New P – T constraints for the (U)HP nappe stack of southern Dora-Maira Massif (Western Alps) (2019)
    Schweizerbart
    Details
    Publication Date: 2019
    Description: 〈span〉The Brossasco-Isasca Unit (BIU) of the southern Dora-Maira Massif (DMM), Western Alps, is one of the most studied ultra-high pressure (UHP) units in the world. However, the interpretation of UHP metamorphism in the BIU is still a highly debated and challenging issue. The structural and tectonometamorphic setting of the southern DMM is described in the literature as a tectonic “sandwich”, with the UHP unit in the middle, bounded by two high-pressure (HP) eclogitic units in the footwall (the San Chiaffredo Unit, SCU) and hanging wall (the Rocca Solei Unit, RSU), respectively. These three units are in turn sandwiched between two blueschist-facies units (the Pinerolo Unit, PU, at the bottom, and the Dronero-Sampeyre Unit, DSU, at the top). In contrast to the well-constrained 〈span〉P〈/span〉–〈span〉T〈/span〉 evolution of the BIU, peak 〈span〉P〈/span〉–〈span〉T〈/span〉 conditions for its bounding HP units are poorly constrained, most studies dating back to over 20 years ago and mostly relying on conventional thermobarometric methods. This study aims to update our knowledge about the 〈span〉P〈/span〉–〈span〉T〈/span〉 evolution experienced by the whole tectonometamorphic package of the southern DMM. For the first time, peak 〈span〉P〈/span〉–〈span〉T〈/span〉 conditions and prograde evolution for the five units (PU, SCU, BIU, RSU, DSU) forming the southern DMM tectonic “sandwich” are estimated using the same, internally consistent and therefore comparable, modern thermobarometric approaches. The study focuses on metapelites (〈span〉i.e.〈/span〉, garnet-bearing phengitic micaschists) and combines multi-equilibrium thermobarometry (Average 〈span〉PT〈/span〉) with the 〈span〉P〈/span〉–〈span〉T〈/span〉 pseudosection approach. Our results demonstrate that most of the southern DMM nappe stack (〈span〉i.e.〈/span〉, SCU, RSU and also the PU, that was originally considered as a blueschist-facies unit) experienced eclogite-facies metamorphism under similar peak 〈span〉P〈/span〉–〈span〉T〈/span〉 conditions (500–520 °C, 20–24 kbar), and followed the same prograde path, suggesting similar burial mechanisms. The UHP BIU followed an early prograde evolution similar to that of the other eclogitic units of the southern DMM tectonic “sandwich”. The attainment of UHP peak conditions occurred through an earlier steep, almost isothermal increase in pressure and a later increase in temperature. The DSU is the only unit of the southern DMM nappe stack that did not experience eclogite-facies metamorphism (peak metamorphism at blueschist-facies conditions: 450–470 °C, 17–18 kbar) and it is separated from the eclogitic units by a shear zone (the Valmala Shear Zone), whose interpretation requires further studies. These new data represent the inescapable starting point for any conceptual model aiming for a deeper understanding of the subduction/exhumation processes of UHP continental units.〈/span〉
    Print ISSN: 0935-1221
    Electronic ISSN: 1617-4011
    Topics: Geosciences
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