Stratigraphy and distribution of Late Quaternary sediments in the Aragon- and Gallego Valley (Aragonese Pyrenees, Spain)

  • Within the scope of the research project post-LGM pedogenesis and geomorphodynamics in the Aragonese Pyrenees (Spain), funded by the DFG (Az RA 931/3-1), soils and sediments are used to reconstruct the Late Quaternary landscape formation. By employing multiple field and laboratory methods, several sediment facies (glacial, periglacial, fluvial and anthropogenic induced colluvial displacement) can be distinguished. Due to small scale horizontal and vertical distribution of the Quaternary sediments, the genetic differentiation is crucial for the dating of periglacial and glacial phases. The polygenetic sediment sequences indicate periods of post-glacial geomorphodynamic, probably induced by changing climatic or anthropogenic influences. The glacial sediments are preserved as lateral and terminal moraines. Due to the arrangement of the moraines, several Pleistocene glacial advances can be recognized. Cold climate conditions led to the formation of periglacial slope deposits which are classified as lower and upper heads in accordance toWithin the scope of the research project post-LGM pedogenesis and geomorphodynamics in the Aragonese Pyrenees (Spain), funded by the DFG (Az RA 931/3-1), soils and sediments are used to reconstruct the Late Quaternary landscape formation. By employing multiple field and laboratory methods, several sediment facies (glacial, periglacial, fluvial and anthropogenic induced colluvial displacement) can be distinguished. Due to small scale horizontal and vertical distribution of the Quaternary sediments, the genetic differentiation is crucial for the dating of periglacial and glacial phases. The polygenetic sediment sequences indicate periods of post-glacial geomorphodynamic, probably induced by changing climatic or anthropogenic influences. The glacial sediments are preserved as lateral and terminal moraines. Due to the arrangement of the moraines, several Pleistocene glacial advances can be recognized. Cold climate conditions led to the formation of periglacial slope deposits which are classified as lower and upper heads in accordance to findings from Central Europe (Raab & Völkel 2003, Raab et al. 2010). Although lower heads are restricted to the Pleistocene extraglacial landscape, upper heads can be located in the Pleistocene extraglacial and glacial landscape. Upper heads are characterized by a high amount of silt, which is interpreted as the result of an aeolian admixture. The aeolian component is not limited to the upper head but can also be found as loess deposit on glaciofluvial and fluvial terraces. Due to the characteristically low inclination of the terraces the aeolian cover was only sparsely affected by erosion. On the other hand, on steeper slopes, intensive land use results in residual shallow sediment cover above the bedrock in the upper slopes and deep colluvial layers on the foot slopes and valley bottoms.show moreshow less

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Metadaten
Author: Florian HirschORCiD, Thomas RaabORCiDGND
DOI:https://doi.org/10.1016/j.quaint.2012.08.370
Title of the source (English):Quaternary International
Document Type:Scientific journal article not peer-reviewed
Language:English
Year of publication:2012
Volume/Year:279-280
First Page:S. 202
Comment:
XVIII INQUA Congress, 21st–27th July, 2011, Bern, Switzerland
Faculty/Chair:Fakultät 2 Umwelt und Naturwissenschaften / FG Geopedologie und Landschaftsentwicklung
Institution name at the time of publication:Fakultät für Umweltwissenschaften und Verfahrenstechnik (eBTU) / LS Geopedologie und Landschaftsentwicklung
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