Provenance of Cretaceous clastics in the Subhercynian Basin: constraints to exhumation of the Harz Mountains and timing of inversion tectonics in Central Europe

Eynatten, Hilmar von; Voigt, Thomas; Meier, Angela; Franzke, Hans-Joachim; Gaupp, Reinhard

doi:10.1007/s00531-007-0212-0

Cited by 61 publications

(32 citation statements)

References 25 publications

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“…(AFT ages: 73-83 Ma with generally long mean track lengths; Thomson et al, 1997), Ruhla Crystalline Complex (AFT ages: 69-81 Ma with generally long mean track lengths; Thomson and Zeh, 2000), Lower Saxony Basin (AFT ages: 89-72 Ma; Senglaub et al, 2005), Fichtelgebirge in the western border of the Bohemian Massif Hejl et al, 1997), and along the Franconian Line (Bischoff, 1993;Wagner et al, 1989). Petrographic and geochemical data from stratigraphically wellcalibrated sediments of 82-86 Ma age (von Eynatten et al, 2008) precisely constrain the erosion record in the Harz Mts. Collectively, they suggest that the Late Cretaceous was a period of major environmental change, with topographic relief forming and decaying fairly rapidly.…”

Section: Wider Regional Contextmentioning

confidence: 97%

Thermochronological constraints on the long-term erosional history of the Karkonosze Mts., Central Europe

et al. 2010

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Section: Wider Regional Contextmentioning

confidence: 97%

Thermochronological constraints on the long-term erosional history of the Karkonosze Mts., Central Europe

et al. 2010

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“…The Trogtal ferroselite, predominantly of Co/Ni > 1, could thus be interpreted to have formed from oxidizing, Kupferschiefer-like brines. It is important to note here that the selenide vein-hosting Carboniferous greywacke was primarily overlain by the Zechstein evaporitic sequences (i.e., Late Permian; e.g., Ziegler 1978), which were eroded during rapid uplift of the Harz in Late Cretaceous times (e.g., von Eynatten et al 2008). The Zechstein could explain the existence of such highly saline fluids.…”

Section: Discussionmentioning

confidence: 92%

Gold-bearing ferroselite (FeSe2) from Trogtal, Harz, Germany, and significance of its Co/Ni ratio

Cabral¹,

Koglin²,

Brätz³

2013

J. Geosci.

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Ferroselite from Trogtal, the type locality of the cobalt selenide trogtalite, in the Harz Mountains, Germany, forms a trogtalite-ferroselite assemblage in pockets of massive clausthalite in which specular hematite is dispersed. The pockets occur in hematite-impregnated carbonate veins, emplaced in a reddened greywacke of Lower Carboniferous age. Ferroselite contains ~0.2-5.0 ppm Au; trogtalite has even higher Au contents. Ferroselite has Co/Ni ratios mostly above unity. These characteristics likely reflect oxidizing brines with Co/Ni > 1, such as those involved in the formation of sediment-hosted copper deposits.

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“…Most of the samples are fine-to medium-grained friable and porous sandstones that contain nearly pure quartz grains (ca. 99.9% quartz), typical for the Lower Cretaceous quartz-arenites (Tröger 1955;von Eynatten et al 2008). The grains are sub-angular to sub-rounded and consist mostly of clear monocrystalline quartz (Fig.…”

Section: Geological Frameworkmentioning

confidence: 96%

“…2). In the Quedlinburg anticline, the Lower Cretaceous Hauterivian to Barremian sediments are mainly quartz arenites that reach a thickness of up to 400 m. In contrast, Upper Cretaceous sediments are widely distributed and attain a thickness of more than 2,000 m mainly as the result of a tectonically induced subsidence, which is controlled by the uplift of the Variscan basement unit of the Harz block (Voigt et al 2004(Voigt et al , 2006von Eynatten et al 2008).…”

Section: Geological Frameworkmentioning

confidence: 99%

“…125 Ma old (Barremian) sediments cropping out on the castle hill consist mainly of monotonous, well sorted, fine-to medium-grained shallow marine quartz arenitic sandstones (Neokom-Sandstones) intercalated with some claystone layers and conglomerate beds (Voigt and von Eynatten 2008). The conglomerate beds and parts of the sandstones were more or less infiltrated by iron ore-bearing fluids (limonite), yielding a yellow to red colour of the originally light to greyish coloured rocks.…”

Section: Geological Frameworkmentioning

confidence: 99%

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Stability assessment of sandstones from the St. Servatius Church in Quedlinburg (UNESCO’s World Heritage Site, Germany)

Siegesmund¹,

Friedel

Vogel

et al. 2010

Environ Earth Sci

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The St. Servatius Church in Quedlinburg (UNESCO's World Heritage Site, Germany) is characterised by long-standing stability problems and structural damages, which have been known over the last several centuries. The monotonous Cretaceous sandstone with its poor lithification is considered to be the main factor. The sandstone is characterised by a high porosity of around 30 Vol.% (max. ca. 35 Vol.%) and a corresponding high wvalue. The porosity and the degree of cementation are responsible for the very low compressive strength of around 8 MPa at maximum, whereas under moisture these values are significantly reduced up to 40%. The freezethaw tests indicate a very poor resistance to frost weathering, which may explain the near-surface softening of the sandstone. Direct shear experiments with an approximate 60°angle of friction on the sandstone clearly demonstrate the safety margins. Initial geotechnical modelling does not favour the hypothesis that a landslide of the hill parallel to the southward dipping bedding planes (i.e. shear failure along weak zones) can occur. A prominent clay layer (also with a southward dip) below the entire castle hill is monitored to determine the possible amount of movement with respect to the geological discontinuities (e.g. joints, fractures). At present, a combination of foundation problems are being considered for the stability situation at the church. These include construction deficiencies due to deformation or softening of the foundation of the forerunner churches and missing or faulty connections from building additions. Geological factors responsible for the stability problems include the softening of the sandstone by the influence of weathering and penetrating water as well as the presence of possible shear planes and joints.

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Provenance of Cretaceous clastics in the Subhercynian Basin: constraints to exhumation of the Harz Mountains and timing of inversion tectonics in Central Europe

Cited by 61 publications

References 25 publications

Thermochronological constraints on the long-term erosional history of the Karkonosze Mts., Central Europe

Thermochronological constraints on the long-term erosional history of the Karkonosze Mts., Central Europe

Gold-bearing ferroselite (FeSe2) from Trogtal, Harz, Germany, and significance of its Co/Ni ratio

Stability assessment of sandstones from the St. Servatius Church in Quedlinburg (UNESCO’s World Heritage Site, Germany)

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