Abstract
AbstractThe early exhumation history of the Tauern Window in the European Eastern Alps and its surface expression is poorly dated and quantified, partly because thermochronological and provenance information are sparse from the Upper Austrian Northern Alpine Foreland Basin. For the first time, we combine a single‐grain double‐dating approach (Apatite Fission Track and U‐Pb dating) with trace‐element geochemistry analysis on the same apatites to reconstruct the provenance and exhumation history of the late Oligocene/early Miocene Eastern Alps. The results from 22 samples from the Chattian to Burdigalian sedimentary infill of the Upper Austrian Northern Alpine Foreland Basin were integrated with a 3D seismic‐reflection data set and published stratigraphic reports. Our highly discriminative data set indicates an increasing proportion of apatites (from 6% to 23%) with Sr/Y values <0.1 up‐section and an increasing amount of apatites (from 24% to 38%) containing >1,000 ppm light rare‐earth elements from Chattian to Burdigalian time. The number of U‐Pb ages with acceptable uncertainties increases from 40% to 59% up‐section, with mostly late Variscan/Permian ages, while an increasing number of grains (10%–27%) have Eocene or younger apatite fission track cooling ages. The changes in the apatite trace‐element geochemistry and U‐Pb data mirror increased sediment input from an ≥upper amphibolite‐facies metamorphic source of late Variscan/Permian age – probably the Ötztal‐Bundschuh nappe system – accompanied by increasing exhumation rates indicated by decreasing apatite fission track lag times. We attribute these changes to the surface response to upright folding and doming in the Penninic units of the future Tauern Window starting at 29–27 Ma. This early period of exhumation (0.3–0.6 mm/a) is triggered by early Adriatic indentation along the Giudicarie Fault System.
Highlights
The exhumation of the Tauern Window in the European Eastern Alps has long been interpreted to have started in late Oligocene/early Miocene times (Blanckenburg et al, 1989; Frisch et al, 1998; Ratschbacher et al, 1991)
We attribute these changes to the surface response to upright folding and doming in the Penninic units of the future Tauern Window starting at 29–27 Ma
When integrated with previously published results from single-grain and pebble analysis of paleo-Inn river deposits in the eastern Northern Alpine Foreland Basin (NAFB), we show that the majority of the apatites in the Upper Austrian NAFB were delivered from the Eastern Alps
Summary
The exhumation of the Tauern Window in the European Eastern Alps has long been interpreted to have started in late Oligocene/early Miocene times (Blanckenburg et al, 1989; Frisch et al, 1998; Ratschbacher et al, 1991). It was sourced from the Austroalpine basement (Figure 1) and its Mesozoic cover in the south (Frisch et al, 2001; Ortner & Stingl, 2001) Rivers that transported this material must have crossed the AFM from south to north, entering the Upper Austrian NAFB and depositing their material on the southern slope (Frisch et al, 1998; Sharman et al, 2018). Note that no trend towards younger AFT central ages is visible down-s ection (Figure S5) This indicates that post- depositional annealing in the basin by burial of the material does not represent a significant source of dispersion in the results. We reject the H0-hyphothesis in cases where p is
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