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  • Other Sources  (12)
  • Scherzone  (12)
  • Universitätsverlag Göttingen  (12)
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  • Universitätsverlag Göttingen  (12)
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  • German  (12)
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  • 2010-2014  (12)
  • 2005-2009
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  • 1
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    Kinematik des Deckenkontaktes zwischen der Combinzone und der Zermatt-Saas-Zone (Penninische Decken, Westalpen) und deren Bedeutung für die Exhumierung der Zermatt-Saas-Zone (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: Die Grenze zwischen zwei ophiolithischen Decken der penninischen Alpen, der Zermatt-Saas-Zone (unten) und der Combinzone (oben), markiert zugleich einen bedeutenden Sprung der bei der tertiären alpinen Metamorphose maximal erreichten Drücke. Während die Zermatt-Saas-Zone Ultrahochdruckmetamorphose (25–30 kbar/550–600°C, Bucher et al. 2005) erfuhr, erreichte die Combinzone lediglich blauschieferfazielle Bedingungen (13–18 kbar/380– 550°C, Bousquet et al. 2004). Vor allem die Polarität des Drucksprunges führte dazu, daß die Deckengrenze zumeist als gewaltige südostvergente Abschiebung interpretiert wurde (z.B. Ballèvre & Merle 1993, Reddy et al. 1999). Strukturgeologische Geländebeobachtungen ergeben jedoch sowohl für das Hangende als auch das Liegende der Combinstörung die folgende kinematische Entwicklung: i) Nordwestvergente, überschiebende Scherung (D1), ii) (Süd)westvergente Scherung (D2),iii) Südostvergente, abschiebende Scherung (D3). Alle drei Deformationsphasen fanden in beiden Einheiten unter grünschieferfaziellen Bedingungen statt... Die Rekonstruktion ergibt, daß die Combinstörung hauptsächlich als Überschiebung aktiv war. Die Exhumierung der Gesteinseinheiten im Liegenden wurde nicht durch Extension, sondern durch vertikale Ausdünnung der Kruste während horizontaler Kontraktion bewirkt.
    Description: conference
    Keywords: 551 ; VAE 811 ; VAE 400 ; VEB 168 ; VAE 140 ; Alpidische Orogene {Geologie} ; Tektogenese {Geologie} ; Schweizer Alpen {Geologie} ; Gesteinsdeformation {Strukturgeologie} ; Penninikum ; Tektonische Decke ; Scherzone ; Deformation 〈Geologie〉 ; Hebung 〈Geologie〉
    Language: German
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  • 2
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    Extensional crustal-scale shear zones in the Western Cyclades (Kea, Greece) (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: Intense seismicity and intensely developed active and ancient fault systems are common to the Aegean Region. Extending/ thinning crust involves a complex interplay of (1) Gulf of Corinth riftexpansion, (2) west- and south-ward retreat of the Hellenic Trench, (3) westward impingement of the Anatolian Platen, and/or (4) propagation of the Anatolian Fault system into the Aegean. New geological/structural investigations on Kea (also known as Tzia), in the Western Cyclades reveal a low angle crustal-scale, detachment-type ductile shear zone probably formed during Miocene extension and thinning of the continental crust...
    Description: conference
    Keywords: 551 ; VEF 300 ; VAE 130 ; VKB 270 ; VAE 400 ; Griechenland und griechische Inseln {Geologie} ; Geomechanik ; Produkte mechanischer Deformation {Petrologie} ; Tektogenese {Geologie} ; Kea ; Erdkruste ; Extension 〈Geologie〉 ; Scherzone
    Language: German
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  • 3
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    Structural investigations of the W termination of the ‘Schneeberg Zug’ — Austroalpine Unit, Southern Tyrol: Results from a crustal scale shear zone (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: The Austroalpine microplate traces the Alpine collision event between the Africa-related southern Alpine realm and the European continent. The southern margin of this microplate, the basement to the north of Meran (including Texel unit and Schneeberg Zug) is characterized by regional eo-Alpine high-pressure metamorphism (Hoinkes & Thöni, 1987). PT conditions decrease from SE (Texel unit) to the pre-alpine basement in the NW. The HP Rocks were exhumed within a ca. 15km broad SW-NE-striking, NWdipping high strain zone (Sölva et al. 2001). The high-pressure Texel crystalline is tectonically underlain by the Campo unit in the south and overlain by the Ötztal-Stubai Basement in the north(west). The Schneeberg Zug forms an up to 5km thick shear zone at its base, representing the study area. It shows normal-sense kinematics and separates pre-Alpine basement rocks in the hanging wall from high-pressure rocks in the footwall, the Texel unit. These were emplaced on top of pre-Alpine basement rocks (Campo unit) by an eo-Alpine ductile thrust. Lithologically the western termination of the Schneeberg Zug comprises characteristic garnet micaschists, marble layers, amphibolites, quartzites, hornblende-garben-schists and calcschists. These lithologies are called Bunte Serie (Mauracher, 1981) and differ from the polyphase adjacent Texel unit and the polymetamorphic basement rocks in the hanging wall due to their lithological content and their monometamorphic evolution. Petrological and geochronological investigations on the eastern continuation of these characteristic metapelitic rocks evidence the time of garnet growth during D1 close to the Cretaceous pressure peak. Sm-Nd isochron data of these continuously zoned garnets yielded crystallization ages between 90 and 95 Ma. Preliminary structural investigations yielded four major deformation events: D1 produced a compositional layering and a mylonitic foliation; generally this ductile deformation in the northwestern portion of the Schneeberg Zug is characterized by contemporaneous shearing and folding forming isoclinal folds with axes oriented parallel to the NW–SE plunging stretching lineation. Deformation stage D2 formed tight folds with steep NW to WSW plunging axes and NW to W dipping axial planes, which refold the D1 related structures. Deformation stage D3 is characterized by a crenulation with NW-plunging axes and NW-dipping axial planes. Lower greenschist-facies shear-zones dipping to the W and with shear sense top to W– WNW represent the last ductile event. They crosscut the older structural inventory. Brittle deformation evidences normal faulting reactivating the NW dipping main foliation as well as related dextral strike slip movement. Geochronological data and structural investigations indicate a continuous eo- Alpine tectono-metamorphic evolution, which started at high grade conditions homogenously distributed over the whole shear zone. With decreasing temperature conditions the deformation progressively partitioned into distinct shear zones.
    Description: conference
    Keywords: 551 ; VEB 163 ; VAE 150 ; VAE 850 ; VKB 291 ; Zentrale Ostalpen {Geologie} ; Strukturelle Erscheinungen {Strukturgeologie} ; Festländische Lineamente {Geologie} ; Metamorphe Komplexe, Alpen {Petrologie} ; Südtirol ; Campo-Kristallin ; Scherzone
    Language: German
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  • 4
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    Entwicklung einer fluidbeeinflussten Scherzone am Beispiel der Glarner Hauptüberschiebung (Schweiz) (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: Lokalisierung unter retrograden Deformationsbedingungen kann häufig in groß-maßstäblichen Scherzonen beobachtet werden. Dabei nimmt die Scherzonenbreite kontinuierlich ab. Gleichzeitig passt sich das Gefüge (Korngröße, Kornform, Kornorientierung, Zwillingsdichte, kristallographische Orientierung, usw.) den neuen Umgebungsbedingungen (Temperatur, Spannung und Verformungsrate) an. Die Glarner Hauptüberschiebung in den Ostschweizer Alpen ist ein gutes Beispiel, um das Ausmaß und die Entwicklung einer Verformungslokalisierung zu bestimmen. In der Vergangenheit wurde sie detailliert in Hinblick auf ihre Isotopenverteilung und daraus resultierenden Fluidbewegungen und Überprägungen untersucht. Dies erlaubt das Zusammenspiel der Lokalisierung und der Fluidüberprägung zur Zeit der Platznahme der Glarnerdecke zu bestimmen...
    Description: conference
    Keywords: 551 ; VAE 130 ; VAE 400 ; VAE 150 ; VJC 400 ; VEB 168 ; Geomechanik ; Tektogenese {Geologie} ; Strukturelle Erscheinungen {Strukturgeologie} ; Fluid-Gestein-Wechselwirkungen {Geochemie} ; Schweizer Alpen {Geologie} ; Glarner Alpen ; Scherzone ; Deformation 〈Geologie〉 ; Fluid-Fels-System
    Language: German
    Type: anthologyArticle , publishedVersion
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  • 5
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    Feldspar deformation in greenschist facies shear zones (Aar-Massif, Switzerland) (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: Granitic gneisses of the Central Aar Granite host a shear zone network that formed at greenschist facies conditions. The work area is located in the Bächlital (Grimsel area, Central Switzerland) and was chosen for the analysis of shear zones because of the weakly anisotropic fabric of the host gneisses. Contrary to previous publications (e.g. Choukroune & Gapais, 1983), none of these host rocks are undeformed. They contain a penetrative foliation (S1) that strikes consistently ENE-WSW with a steep dip of around 70° to the south. This foliation is overprinted by the aforementioned shear zone network, which was the main focus of this study...
    Description: conference
    Keywords: 551 ; VAE 140 ; VKA 200 ; VKB 291 ; VEB 168 ; VKB 230 ; VKB 270 ; Gesteinsdeformation {Strukturgeologie} ; Gefügekunde der Gesteine ; Metamorphe Komplexe, Alpen {Petrologie} ; Schweizer Alpen {Geologie} ; Metamorphite aus sauren bis intermediären Edukten {Petrologie} ; Produkte mechanischer Deformation {Petrologie} ; Aarmassiv ; Scherzone ; Granitgneis ; Feldspäte ; Deformation 〈Geologie〉
    Language: German
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  • 6
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    The role of the Ranotsara Zone in southern Madagascar for Gondwana correlations (2010)
    Universitätsverlag Göttingen
    Details
    Publication Date: 2021-03-29
    Description: The Precambrian basement of southern Madagascar was reworked at high-grade metamorphic conditions during the East African Orogen (EAO of Stern, 1994) that formed during assembly of Gondwana in late Neoproterozoic/early Paleozoic times. At the end of the EAO, Madagascar is generally thought to be sandwiched between southern India and eastern Africa. Constraints on its paleoposition are often inferred from similarities in structural features on now dispersed continental fragments, in particular high-strain zones. Major zones with (sub)vertical foliation planes can be traced over hundreds of kilometres in southern Madagascar and have been interpreted as major vertical ductile shear zones (e.g. Windley et al. 1994; Martelat, 1998). The NW–SE trending Ranotsara Zone (dashed rectangle in Fig. 1) is regarded as an intracrustal mega strike-slip shear zone with a sinistral sense of shear that formed at the end of the Proterozoic (e.g. Nicollet, 1990; de Wit et al., 2001). A large number of studies have used the Ranotsara Zone to propose Gondwana reconstructions. The Ranotsara Zone has been correlated with various ductile shear zones in southern India, e.g. with the Bhavani Shear Zone or the Moyar Shear Zone (Katz & Premoli, 1979), the Palghat-Cauvery Shear Zone (de Wit et al., 1995), the Karur-Kamban- Painavum-Trichur Shear Zone (de Wit et al., 2001; Ghosh et al. 2004) or with the Achankovil Shear Zone (Windley et al., 1994; Martelat, 1998). Within Madagascar, the Ranotsara Zone has been correlated along strike with the more N–S trending Bongolava Zone in central-western Madagascar (Hottin 1976), and the Bongolava- Ranotsara Zone has been further traced into the Surma Shear Zone (Windley et al. 1994) and its along-strike continuation, the Aswa Shear Zone in eastern Africa (Müller 2000). Chetty (2003) suggested that the Ranotsara Zone is not only a mega shear zone, but also a terrane boundary separating a region with Archean crust to the north from a region with Neoproterozoic crust to the south. Our remote sensing and field studies of southern Madagascar indicate that the Ranotsara Zone is neither a major terrane boundary nor an intracrustal mega strike-slip shear zone and therefore can not be used as a ‘piercing point’ in Gondwana reconstructions...
    Description: conference
    Keywords: 551 ; VAE 700 ; VAE 500 ; VAE 850 ; VEQ 300 ; VKB 294 ; Bau der Erdkruste großer Regionen der Erde {Geologie} ; Geotektonische Entwicklung der Erdkruste {Geologie} ; Festländische Lineamente {Geologie} ; Madagaskar {Geologie} ; Metamorphe Komplexe, Afrika {Petrologie} ; Madagaskar 〈Süd〉 ; Präkambrium ; Kristallin ; Scherzone ; Korrelation ; Gondwana
    Language: German
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  • 7
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    The Serifos Metamorphic Core Complex (Greece) — kinematic investigations of the southern detachment mylonites (2010)
    Universitätsverlag Göttingen
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    Publication Date: 2021-03-29
    Description: The island of Serifos is situated about 100km SSE of Athens in the Aegean Sea and belongs to the Attic-Cycladic massif. The geology of Serifos is largely characterized by a shallow hornblendebiotite granodiorite pluton that intruded in the late Miocene into a previously deformed (under blueschist conditions) sequence mainly consisting of ortho- and paragneisses, calc-silicate marbles, amphibolites and schists. The pluton has a dome-shaped body occupying the central and southern parts of the island (Salemink 1985). The Serifos MCC is the very western continuation of a zone of syn- to post tectonic intrusions younging from the East (Naxos, Paros ?12Ma) to the West (Serifos 9– 8Ma). Whereas the older intrusions in the East show a top to the North geometry, the Serifos MCC has developed a South-directed low-angle detachment fault...
    Description: conference
    Keywords: 551 ; VEF 300 ; VKB 292 ; VKB 270 ; VAE 140 ; Griechenland und griechische Inseln {Geologie} ; Metamorphe Komplexe, übriges Europa {Petrologie} ; Produkte mechanischer Deformation {Petrologie} ; Gesteinsdeformation {Strukturgeologie} ; Serifos ; Scherzone ; Mylonit ; Krustenbewegung
    Language: German
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  • 8
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    Late stage evolution of the Serifos Metamorphic Core Complex (Cyclades, Greece) (2010)
    Universitätsverlag Göttingen
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    Publication Date: 2021-03-29
    Description: The island of Serifos is located in the Western Cyclades within the Attic- Cycladic metamorphic belt. It represents the westward continuation of an arcuate belt of Metamorphic Core Complexes with intrusions of late syn-post tectonic intrusions younging from East (e.g. Naxos main activity ca. 12Ma) to West (e.g. Serifos with 9–8Ma). In scientific discussions the dominance of probably continuous extension since ca. 30Ma (e.g. Jolivet & Faccenna, 2000) and the presence of Metamorphic Core Complexes (Lister et al. 1984) is accepted. The speculated roll-back of the subducting plate possibly started due to the slowing down of absolute plate convergence rate between Africa and Eurasia. This model is attractive, because it would also explain the shift from a compressional Andean-type regime to an extensional Mariana-type regime (Jolivet & Faccenna 2000). Contrary to the kinematic directions reported from the Central and Eastern Cyclades, the movement of the hanging wall of the Serifos Metamorphic Core Complex is south directed. The island’s main part is occupied by an undeformed granodiorite. Early granitic intrusions intruded into low-grade M2-crystalline rocks that have been overprinted to as high as amphibolite facies conditions due to contact metamorphism. Parts of these rocks (gneisses and amphibolites) as well as the early intrusions are deformed to mylonites (Grasemann et al. 2004).
    Description: conference
    Keywords: 551 ; VEF 300 ; VKB 292 ; VKB 270 ; VAE 140 ; Griechenland und griechische Inseln {Geologie} ; Metamorphe Komplexe, übriges Europa {Petrologie} ; Produkte mechanischer Deformation {Petrologie} ; Gesteinsdeformation {Strukturgeologie} ; Serifos ; Scherzone ; Mylonit ; Deformation 〈Geologie〉
    Language: German
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  • 9
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    Very high anisotropies of the magnetic susceptibility in ductile shear zones: first quantitative results from a metamorphic nappe in the Central Scandinavian Caledonides, Sweden (2010)
    Universitätsverlag Göttingen
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    Publication Date: 2021-03-29
    Description: Shear zones in the Seve crystalline basement nappes of the central Scandinavian Caledonides contributed to exhumation and translation of these highgrade metamorphic rocks. The Seve unit is considered to represent the former distal passive margin of the continent Baltica, which was subducted beneath an island arc during Ordovician times and subsequently collided with the continent Laurentia during Silurian and early Devonian times. Strongly textured mylonitic garnet mica schists with well developed mica fish and S–C-fabrics from a shear zone within the Seve unit show unusual high anisotropies of the magnetic susceptibility (AMS). The corrected degrees of anisotropy of the magnetic susceptibility (P0) range from 1.78 to 4.24. Bulk susceptibilities range from 2.8 × 10−3 to 96.9 × 10−3. The shape factors range from 0.32 to 0.62, documenting an oblate shape. Magnetic foliation is subparallel with metamorphic foliation. Magnetic lineation scatters due to permutations of the maximum and intermediate principal susceptibility axes...
    Description: conference
    Keywords: 551 ; VAE 813 ; VED 200 ; TSD 000 ; TQB 000 ; TOT 310 ; Kaledonische Orogene {Geologie} ; Schweden {Geologie} ; Nordeuropa {Geophysik} ; Erdmagnetische Verfahren {Geophysik} ; Gesteinsmagnetismus {Geophysik} ; Schweden ; Kaledoniden ; Scherzone ; Anisotropie ; Magnetische Suszeptibilität
    Language: German
    Type: anthologyArticle , publishedVersion
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  • 10
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    Kinematics of the SEMPfault in the western Tauern Window (Stillupp Valley) (2010)
    Universitätsverlag Göttingen
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    Publication Date: 2021-03-29
    Description: The working area is located in the Stillupp Valley (Tirol, Austria), where the western termination of the SEMPfault (Salzach, Ennstal, Mariazell, Puchberg), overprints the northernmost margin of the Zentralgneiss. This sinistral shearzone, which has a length of about 300 km, and causes a lateral displacement of 60km (Linzer et al. 2002), marks part of the northern border of the Tauern Window...
    Description: conference
    Keywords: 551 ; VAE 850 ; VAE 400 ; VAE 140 ; VEB 161 ; Festländische Lineamente {Geologie} ; Tektogenese {Geologie} ; Gesteinsdeformation {Strukturgeologie} ; Ostalpen {Geologie} ; Tauernfenster 〈West〉 ; Scherzone ; Horizontalverschiebung ; Transpression
    Language: German
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  • 11
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    Kinematics and deformation structures in a crustal-scale shear zone on Kea (W. Cyclades, Greece) (2010)
    Universitätsverlag Göttingen
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    Publication Date: 2021-03-29
    Description: It is generally agreed upon that the exhumation of metamorphic rocks in the Aegean is caused by post orogenic extension in the late Oligocene to early Miocene. This extension is in principle largely accommodated by low-angle crustal detachment faulting possibly resulting in the formation of metamorphic core complexes (MCC). Here, we present data from recent structural investigations on the island of Kea in the W. Cyclades, Greece. Our work focussed in the north of the island. Of the ca. 270m total structural thickness that was mapped, the entire section of rocks are highly strained. Exhumation during progressive deformation is recorded by the transition from ductile to brittle/ductile to brittle conditions. The regional characteristics and types of deformation structures vary depending on the protolith and the intensity of strain...
    Description: conference
    Keywords: 551 ; VAE 860 ; VAE 400 ; VAE 140 ; VEF 300 ; VKB 292 ; VKB 270 ; Festlandkerne {Geologie} ; Tektogenese {Geologie} ; Gesteinsdeformation {Strukturgeologie} ; Griechenland und griechische Inseln {Geologie} ; Metamorphe Komplexe, übriges Europa {Petrologie} ; Produkte mechanischer Deformation {Petrologie} ; Kea ; Scherzone ; Deformation 〈Geologie〉
    Language: German
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  • 12
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    Scherzonen- und Schuppenbildung am Kontakt von im Bereich der Engelhörner, Berner Oberland (Schweiz) (2010)
    Universitätsverlag Göttingen
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    Publication Date: 2021-03-29
    Description: Das Untersuchungsgebiet umfasst den Nordrand des Aarmassivs, die autochthone und paraautochthone sedimentäre Bedeckung des Aarmassivs, den ultrahelvetischen Wildflysch und den Südrand der Wildhorndecke. Das Aarmassiv besteht aus dem Innertkirchener Granit und Granitgneis und den sogenannten Mischgneisen. Lokal sind präalpine mylonitische Scherzonen ausgebildet. Die sedimentäre Bedeckung des Aarmassivs beginnt mit einem geringmächtigen permotriassischen Aufarbeitungshorizont des kristallinen Untergrundes aus Quarz-Glimmerschiefern, Arkosen und Konglomeraten. Darüber folgt die mehrere hundert Meter mächtige mesozoische Abfolge. Im Arbeitsgebiet tritt an der Basis der massige, hell bis rötlichgelb verwitternde Rötidolomit hervor. Im Hangenden liegen die kalkigen Schichten des Doggers sowie das Argovien. Darüber folgen die mächtigen Kalkserien des Malms (Quintner Kalk) und der unteren Kreide (Oehrlikalk), welche die Steilwände der Engelhörner aufbauen. In den parautochthonen Schuppen auf der Nordseite der Engelhörner beginnt die Abfolge erst mit dem unteren Malm. Als jüngste Einheit treten dort allerdings auch Tertiäre Schichten auf, welche überwiegend aus kalkhaltigen Sandsteinen, Brekzien und Tonschiefern bestehen. Als nur wenige Meter mächtiger dunkler bis schwarzer, glimmerführender Tonschiefer ist der allochthone ultrahelvetische Wildflysch zwischen den parautochthonen Schuppen und der Wildhorndecke eingeklemmt. Die Wildhorndecke wird im Arbeitsgebiet von den Einheiten des Doggers aufgebaut. Die Zuordnung des Doggers zur Wildhorndecke ist allerdings nicht immer eindeutig. Westlich des Arbeitsgebietes in der Umgebung von Grindelwald werden Einheiten des Doggers z.T. auch dem Ultarhelvetikum zugerechnet (Günzler-Seiffert & Wyss 1938).Die lithologische Kartierung, aber auch die Zuordnung der Lithologien zu den tektonischen Einheiten basiert im Wesentlichen auf den ausgezeichneten Vorarbeiten (z.B. Arbenz & Müller 1920; Günzler-Seiffert & Wyss 1938; Müller 1938; Büchi 1980). Ziel unserer Untersuchungen ist es, die Kinematik sowie die relative zeitliche Abfolge der einzelnen Groß- und Kleinstrukturen genauer zu bestimmen und die strukturelle Gliederung des Arbeitsgebietes mit den von Burkhard (1988) definierten Deformationsphasen zu korrelieren...
    Description: conference
    Keywords: 551 ; VAE 811 ; VAE 400 ; VAE 150 ; VAE 140 ; VEB 168 ; Alpidische Orogene {Geologie} ; Tektogenese {Geologie} ; Strukturelle Erscheinungen {Strukturgeologie} ; Gesteinsdeformation {Strukturgeologie} ; Schweizer Alpen {Geologie} ; Aarmassiv ; Ultrahelvetikum ; Scherzone ; Tektogenese ; Deformation 〈Geologie〉
    Language: German
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