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Accretion and exhumation at a Variscan active margin, recorded in the Saxothuringian flysch (1997)

Schäfer, J. ; Neuroth, H. ; Ahrendt, H. ; [et al.]

Springer

Geologische Rundschau 86 (1997), S. 599-611

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ISSN: 0016-7835

Keywords: Key words Variscan belt ; Geodynamic evolution ; Exhumation history ; Saxothuringian ; Flysch ; U/Pb- and K/Ar age determinations ; Detrital minerals

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract The Saxothuringian flysch basin, on the north flank of the Central European Variscides, was fed and eventually overthrust by the northwestern, active margin of the Tepla-Barrandian terrane. Clast spectra, mineral composition and isotopic ages of detrital mica and zircon have been analyzed in order to constrain accretion and exhumation of rocks in the orogenic wedge. The earliest clastic sediments preserved are of early Famennian age (ca. 370 Ma). They are exposed immediately to the NW of the suture, and belong to the par-autochthon of the foreland. Besides ultramafic (?ophiolite) material, these rocks contain clasts derived from Early Paleozoic continental slope sediments, originally deposited at the NW margin of the Saxothuringian basin. These findings, together with the paleogeographic position of the Famennian clastics debris on the northwestern passive margin, indicate that the Saxothuringian narrow ocean had been closed by that time. Microprobe analyses of detrital hornblendes suggest derivation from the “Randamphibolit” unit, now present in the middle part of the Saxothuringian allochthon (Münchberg nappes). Detrital zircons of metamorphic rocks formed a little earlier (ca. 380 Ma) indicate rapid recycling at the tectonic front. The middle part of the flysch sequence (ca. early to middle Viséan), both in the par-autochthon and in the allochthon, contains abundant clasts of Paleozoic rocks derived from the northwestern slope and rise, together with debris of Cadomian basement, 500-Ma granitoids and 380 Ma (early Variscan) crystalline rocks. All of these source rocks were still available in the youngest part of the flysch (c. middle to late Viséan), but some clasts record, in addition, accretion of the northwestern shelf. Our findings permit deduction of minimum rates of tectonic shortening well in excess of 10–30 mm per year, and rates of exhumation of ca. 3 mm/a, and possibly more.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s005310050166

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Comparative K–Ar and Rb–Sr age determinations of retrograde processes on rocks from the KTB deep drilling project (1997)

Wemmer, K. ; Ahrendt, H.

Springer

Geologische Rundschau 86 (1997), S. S272

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ISSN: 0016-7835

Keywords: Key words KTB Bohemian massif ; Retrograde processes ; Fine mineral fractions ; K ; Ar ; Rb ; Sr

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Conventional K–Ar and Rb–Sr age determinations were carried out on fine mineral fractions of the KTB rocks and of rocks from the surrounding area in order to get an idea of the timing of retrograde processes which the rocks had suffered in the Late Variscan and afterwards. Coarse-grained mica minerals were used as reference minerals. It can be demonstrated that conventional K–Ar dating on fine mineral fractions is a useful tool to date retrograde processes in crystalline rocks. For methodical reasons the Rb–Sr method is less suitable. A complex age pattern was found which could be divided into different age groups representing different periods of either penetrative retrograde overprint or formation and reactivation of distinct cataclastic fault zones. Whereas the rocks of the KTB have undergone a penetrative retrograde overprint during the Permo-Triassic without any visible deformation, the Jurassic brought a first reactivation of cataclastic fault zones. In Cretaceous time an overprint led to a pronounced second reactivation of cataclastic fault zones. This latter process turned out to be the important one for the stacking and a repetition of the drilled profile in the KTB. The data and interpretations obtained on the fine mineral fractions coincide excellently with fission track data on sphene from the drill site, with sedimentological records concerning a larger regional scale and with hydrothermal alterations and ore-forming events in mid-Europe.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00014660

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