The Alpine region and its foreland

The Alpine region and its foreland played a major role in the investigation of Quaternary glacial and paleo-climatic processes since the beginning of the 19th century (Agassiz, 1841). At the beginning of the 20th century, Penck and Brückner (1909) developed the model of the “glacial series” in the German part of the northern Alpine Foreland (NAF), a concept that describes the genetic connection of basal till, terminal moraines and adjoining outwash gravels. From the vertical succession of four gravel terrace levels, they developed a morphostratigraphic model which attributes a glacial period to each of these geological units (old to young: Günz, Mindel, Riss, Würm). Based on three elevated, morphologically distinguishable gravel levels in the German NAF, the quadriglacial system was amended by three additional glacials (Biber, Donau, Haslach) by Eberl (1930), Schaefer (1953), and Schreiner and Haag (1982). This morphostratigraphic model is still used in some alpine areas, but has been fine-tuned and amended since then, especially in terms of the chronostratigraphic position of the deposits. However, clear genetic relations in terms of the glacial series often can be ambiguous due to the complete lack of sedimentary remains and the often only poor preservation, especially those of the oldest glacials which underwent several cycles of severe geomorphological changes during subsequent glaciations and interglacials.

In this study we investigated the optically stimulated luminescence (OSL) and infrared stimulated luminescence (IRSL) properties of glaciofluvial quartz (Q) and potassium rich feldspar (KFs) deposited during the penultimate alpine glaciation along the eastern alpine Ybbs River (Fig. 1C). For the first time luminescence ages from glaciofluvial sediments attributed to the penultimate glaciation from the eastern part of the alpine realm are presented.