Jens C. Grimmer scite author profile

We present evidence for an extrusion wedge in the Scandian fold-thrust belt of the central Scandinavian Caledonides (Seve nappe complex). Rb-Sr multimineral geochronology in synkinematic assemblages indicates simultaneous movements at the normal-sense roof shear zone and at the reverse-sense floor shear zone between 434 Ma and 429 Ma. A Sm-Nd age of 462 Ma from a mylonitic garnet mica schist documents prograde garnet growth and possible incipient subduction. Pressure-temperature pseudosection calculations provide evidence for eclogite facies metamorphic conditions and nearly isothermal decompression at ~670 ± 50 °C from 17.5 to 14.5 kbar in garnet-kyanite mica schists during reverse-sense shearing, and from 15 to 11 kbar in garnet mica schists during normal-sense shearing. These data and the presence of decompression-related pegmatites dated at 434 Ma and 429 Ma indicate that the Seve nappes form a large-scale extrusion wedge. This wedge extends along strike for at least 150 km and marks an early stage of ultrahigh-pressure metamorphism, exhumation, and orogenic wedge formation in this part of the Scandinavian Caledonides predating the major, post-415 Ma ultrahigh-pressure exhumation processes in southwestern Norway. INTRODUCTIONExtrusion wedges are increasingly recognized as major, lithosphericscale structural features in collisional orogens that exhumed ultrahigh-pressure (UHP) metamorphic rocks during plate convergence, as for example in the Himalayas, Alps, and Hellenides (see Ring and Glodny, 2010, and references therein). They are characterized by simultaneous movements along their normal-sense roof and reverse-sense floor shear zones. We focus on HP metamorphic rocks of the Seve nappes in the Jämtland-Västerbotten segment of the central Scandinavian Caledonides (Fig. 1A). They are bounded by a normal-sense, hinterland-directed shear zone at the roof and a foreland-directed shear zone at the floor (Greiling et al., 1998). This set of opposed-sense shear zones is a structural feature crucial for understanding Scandian orogenic wedge evolution. Based on this geometry, a Himalayantype extrusion of the Seve nappes was hypothesized (Gee et al., 2010). We studied both shear zones to test for simultaneous ductile shear and for their timing within Scandian orogenic wedge evolution.

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Tracing the Transhimalayan magmatic belt and the Lhasa block southward using zircon U–Pb, Lu–Hf isotopic and geochemical data: Cretaceous – Cenozoic granitoids in the Tengchong block, Yunnan, China

Zhu

Grimmer

et al. 2015

Journal of Asian Earth Sciences

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Jens C. Grimmer

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Early- to mid-Silurian extrusion wedge tectonics in the central Scandinavian Caledonides

Tracing the Transhimalayan magmatic belt and the Lhasa block southward using zircon U–Pb, Lu–Hf isotopic and geochemical data: Cretaceous – Cenozoic granitoids in the Tengchong block, Yunnan, China

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