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Metamorphic conditions within the Eclogite Zone, Tauern Window, AustriaEremin, Katherine January 1994 (has links)
No description available.
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Structural and metamorphic studies on the ophiolitic envelope of the Monte Rosa Nappe, Pennine AlpMartin, Brian A. January 1982 (has links)
No description available.
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The origin and kinematics of the Alpine arcWeston, Peter John January 1989 (has links)
No description available.
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Structural evolution of the Vanoise Massif (French Alps)Peel, F. J. January 1985 (has links)
No description available.
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Geologie und petrographie der Flüelagruppe (Graubünden) ...Streckeisen, Albert, January 1928 (has links)
Inaug.-diss. (PII. D.)--Universität Basel. / "Curriculum vitae" at end. "Separatbdruck aus 'Schweizerische mineralogische und petrographische mitteilungen' band VIII, heft 1, 1928."
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Résumé des opérations exécutées jusqu'à la fin de 1911 pour la Description géométrique détaillée des Alpes françaises ...Helbronner, Paul, January 1912 (has links)
Thèse--Faculté des sciences de Paris. / Vol. I of the author's Description géométrique détaillée des Alpes françaises was published in 1910.
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Geologie und petrographie der Flüelagruppe (Graubünden) ...Streckeisen, Albert, January 1928 (has links)
Inaug.-diss. (PII. D.)--Universität Basel. / "Curriculum vitae" at end. "Separatbdruck aus 'Schweizerische mineralogische und petrographische mitteilungen' band VIII, heft 1, 1928."
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The structural, metamorphic and thermal history of the Sonnblick Dome, southeast Tauern Window, AustriaReddy, Steven Michael January 1990 (has links)
Within the southeastern Tauern Window, the Sonnblick Dome is a large, NE-verging, antiformal structure composed of orthogneisses of the Zentralgneis Complex. This unit represents part of the European crystalline basement, or Penninic domain, over which the Adriatic microplate was thrust during Alpine continental collision. The igneous precursors to the gneisses formed as granitoids above a subduction zone during the Hercynian. During Alpine continental collision, overthrusting of the African-derived Austroalpine units toward the northwest produced a foliation that becomes more intense towards the tectonic contact of the gneiss and the overlying Peripheral Schieferhülle. This foliation was folded during the formation of the Sonnblick Dome, which is interpreted to have developed during progressive top-to-NW shearing in the hangingwall of an oblique ramp. Shear zones also developed oblique to the northwest transport direction and led to imbrication in the basement. These shear zones are commonly marked by retrogression of the primary mineralogy and the development of mica-schists. Although this alteration is associated with syn-deformational fluid infiltration, a spatial relationship between reaction site and deformation suggests that the energy associated with deformation contributed to reactions during shear zone formation. As a response to tectonic thickening, pressures and temperatures in the Pennine basement increased. Peak Alpine metamorphic conditions are estimated to be 540±50°C and 8±lkbar and probably represent conditions developed during uplift from initially greater depths. White mica isotopic ages suggest that the peak of metamorphism took place at 25-28Ma, with older ages being observed towards the southeastern end of the Dome. Post-metamorphic cooling rates appear to be variable throughout the Dome, with faster rates being found for the southeastern end of the Dome. After 20Ma ago, cooling rates around the Dome became more uniform (17-27°C/Ma). Rapid cooling rates in the area are associated with rapid, post-metamorphic uplift rates. These were probably accomodated by gravity-driven extension of the tectonically thickened crust. Evidence for post-metamorphic extension is represented by ductile shear bands, which are associated with thinning of the more micaceous units found at higher levels in the Dome.
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Physical barriers, cultural connections : a reconsideration of the metal flow at the beginning of the metal age in the AlpsPerucchetti, Laura January 2015 (has links)
This thesis considers the early copper and copper-alloy metallurgy of the entire Circum-Alpine region. It introduces a new approach to the interpretation of chemical composition data sets, which has been applied to a comprehensive regional database for the first time. An extensive use of GIS has been applied to investigate the role of topography in the distribution of metal and to undertake spatial and geostastical analysis that may highlight patterns of distribution of some specific key compositional element. The Circum-Alpine Chalcolithic and Early Bronze Age show some distinctively different patterns of metal use, which can be interpreted through changes in mining and social choices. But there are also some signs of continuity, in particular those which respect the use of major landscape features such as watersheds and river systems. Interestingly, the Alpine range does not act as a north-south barrier, as major differences in composition tend to appear on an east-west axis. Conversely, the river system seems to have a key role in the movement of metal. Geostastical analyses demonstrate the presence of a remelting process, applicable also in the case of ingots; evidence that opens new and interesting questions about the role of ingots and hoards in the distribution of metal at the beginning of the Metal Age. New tools and new analysis may also be useful to identify zones where there was a primary metal production and zones where metal was mostly received and heavily manipulated.
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Sedimentological and structural evolution of tertiary basins of Alpes-de-Haute-Provence, S.W. AlpsDavies, Alun Huw January 1988 (has links)
No description available.
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