Quaternary landscape evolution and tectonics in Central Germany – A case study of the Harz

The Harz is one of the highest mountain ranges in Central Germany, featuring a flat, plateau-like morphology that is elevated above the surrounding regions. Although its morphology has been subject to multiple studies since the early 20th century, knowledge about its development since the late Creta...

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Published inGeomorphology (Amsterdam, Netherlands) Vol. 388; p. 107794
Main Authors Diercks, Manuel-L., Stanek, Klaus, Domínguez-Gonzalez, Leomaris, Ehling, Bodo
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2021
Subjects
basins
case studies
drainage
Geomorphological analysis
Germany
Glacial isostatic adjustment
Harz
ice
landscapes
Late Cretaceous epoch
Morphometric indices
morphometry
Neotectonics
Pleistocene epoch
radioactive waste
sediments
tectonics
topography
Germany
Geomorphological analysis
Glacial isostatic adjustment
Harz
Morphometric indices
Neotectonics
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Summary:The Harz is one of the highest mountain ranges in Central Germany, featuring a flat, plateau-like morphology that is elevated above the surrounding regions. Although its morphology has been subject to multiple studies since the early 20th century, knowledge about its development since the late Cretaceous is still incomplete. We present a comprehensive geomorphological study of the Harz Mountains, benefitting from the availability of digital elevation data and modern computer-based geomorphological analyses. We use morphometric indices, drainage network analyses, topographic swath profiles, geological properties and field investigations to decipher the role of neotectonic and climatic forces in its evolution. The results indicate that glacial isostatic adjustments forced the uplift of the Harz due to inland ice masses covering the Subhercynian basin in Pleistocene. This process reactivated inherited tectonic structures along the Harz boundaries. The major uplift took place along the southern Harz boundary, tilting the entire Harz surface towards north and forcing a disequilibrium of the drainage network. A combination of tectonic uplift and post-glacial erosion of the Subhercynian basin sediment cover shaped the steep scarp at the Northern Harz boundary. The location of uplifted paleo-surfaces and their morphologic properties indicate that the Harz block is internally divided into two tectonically decoupled blocks along a NNW-SSE-striking lineament. Our results help to understand the landscape evolution of the Harz block and provide additional information about neotectonically active structures. The latter is of interest for the ongoing search for nuclear waste deposit sites in Germany. •Neotectonic uplift of the Harz caused by glacial isostatic adjustments•Uplift focused on the southern Harz boundary and the Western Harz•Tectonic decoupling of the western and eastern Harz indicated by geomorphological analyses•Landscape formation and river incision is driven by tectonic movement and glacially induced erosion of the Subhercynian basin
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ISSN:0169-555X
1872-695X
DOI:10.1016/j.geomorph.2021.107794