A chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern Harz foreland, Germany, based on innovative modelling tools

The continuing development of analytical methods for investigating sedimentary records calls for iterative re‐examination of existing data sets obtained on loess‐palaeosol sequences (LPS) as archives of palaeoenvironmental change. Here, we re‐investigate two LPS (Hecklingen, Zilly) in the northern H...

Full description

Bibliographic Details
Main Authors: Schmidt, Christoph, Zeeden, Christian, Krauß, Lydia, Lehmkuhl, Frank, Zöller, Ludwig
Format: Text
Language:English
Published: FID GEO 2021
Subjects:
Strong Peak
Ice Sheet
Online Access:https://dx.doi.org/10.23689/fidgeo-4209
https://e-docs.geo-leo.de/handle/11858/8549
id ftdatacite:10.23689/fidgeo-4209
record_format openpolar
spelling ftdatacite:10.23689/fidgeo-4209 2023-05-15T16:41:25+02:00 A chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern Harz foreland, Germany, based on innovative modelling tools Schmidt, Christoph Zeeden, Christian Krauß, Lydia Lehmkuhl, Frank Zöller, Ludwig 2021 https://dx.doi.org/10.23689/fidgeo-4209 https://e-docs.geo-leo.de/handle/11858/8549 en eng FID GEO Text Article article-journal ScholarlyArticle 2021 ftdatacite https://doi.org/10.23689/fidgeo-4209 2021-11-05T12:55:41Z The continuing development of analytical methods for investigating sedimentary records calls for iterative re‐examination of existing data sets obtained on loess‐palaeosol sequences (LPS) as archives of palaeoenvironmental change. Here, we re‐investigate two LPS (Hecklingen, Zilly) in the northern Harz foreland, Germany, being of interest due to their proximity to the Scandinavian Ice Sheet (SIS) and the position between oceanic climatic influence further west and continental influence towards the east. First, we established new quartz OSL and polymineral IRSL chronologies. Both methods show concordant ages in the upper part of the Hecklingen profile (~20–40 ka), but in the lower part IRSL underestimates OSL ages by up to ~15 ka for the period 40–60 ka. Interpretations hence refer to the OSL data set. Second, we applied Bayesian age‐depth modelling to data sets from Hecklingen to resolve inversions in the original ages, also reducing averaged 1σ uncertainty by ~19% (OSL) and ~12% (IRSL). Modelled chronologies point out phases of increased (MIS 2, early MIS 3) and reduced (middle and late MIS 3) sedimentation, but interpretation of numerical rates is problematic because of intense erosion and slope wash particularly during MIS 3. Finally, previously obtained grain‐size data were re‐investigated by end member modelling analyses. Three fundamental grain‐size distributions (loadings) explain the measured data sets and offer information on intensity and – combined with modelled OSL ages – timing of geomorphic processes. We interpret the loadings to represent (i) primary loess accumulation, (ii) postdepositional pedogenesis and/or input of aeolian fine fractions, and (iii) input of coarse aeolian material and/or slope wash. The applied modelling tools facilitate detailed understanding of site‐formation through time, allowing us to correlate a strong peak in mean grain size at ~26–24 ka to the maximum extent of the SIS and increased influence of easterly winds. : Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659 Text Ice Sheet DataCite Metadata Store (German National Library of Science and Technology) Strong Peak ENVELOPE(-82.300,-82.300,-79.933,-79.933)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
description The continuing development of analytical methods for investigating sedimentary records calls for iterative re‐examination of existing data sets obtained on loess‐palaeosol sequences (LPS) as archives of palaeoenvironmental change. Here, we re‐investigate two LPS (Hecklingen, Zilly) in the northern Harz foreland, Germany, being of interest due to their proximity to the Scandinavian Ice Sheet (SIS) and the position between oceanic climatic influence further west and continental influence towards the east. First, we established new quartz OSL and polymineral IRSL chronologies. Both methods show concordant ages in the upper part of the Hecklingen profile (~20–40 ka), but in the lower part IRSL underestimates OSL ages by up to ~15 ka for the period 40–60 ka. Interpretations hence refer to the OSL data set. Second, we applied Bayesian age‐depth modelling to data sets from Hecklingen to resolve inversions in the original ages, also reducing averaged 1σ uncertainty by ~19% (OSL) and ~12% (IRSL). Modelled chronologies point out phases of increased (MIS 2, early MIS 3) and reduced (middle and late MIS 3) sedimentation, but interpretation of numerical rates is problematic because of intense erosion and slope wash particularly during MIS 3. Finally, previously obtained grain‐size data were re‐investigated by end member modelling analyses. Three fundamental grain‐size distributions (loadings) explain the measured data sets and offer information on intensity and – combined with modelled OSL ages – timing of geomorphic processes. We interpret the loadings to represent (i) primary loess accumulation, (ii) postdepositional pedogenesis and/or input of aeolian fine fractions, and (iii) input of coarse aeolian material and/or slope wash. The applied modelling tools facilitate detailed understanding of site‐formation through time, allowing us to correlate a strong peak in mean grain size at ~26–24 ka to the maximum extent of the SIS and increased influence of easterly winds. : Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659
format Text
author Schmidt, Christoph
Zeeden, Christian
Krauß, Lydia
Lehmkuhl, Frank
Zöller, Ludwig
spellingShingle Schmidt, Christoph
Zeeden, Christian
Krauß, Lydia
Lehmkuhl, Frank
Zöller, Ludwig
A chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern Harz foreland, Germany, based on innovative modelling tools
author_facet Schmidt, Christoph
Zeeden, Christian
Krauß, Lydia
Lehmkuhl, Frank
Zöller, Ludwig
author_sort Schmidt, Christoph
title A chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern Harz foreland, Germany, based on innovative modelling tools
title_short A chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern Harz foreland, Germany, based on innovative modelling tools
title_full A chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern Harz foreland, Germany, based on innovative modelling tools
title_fullStr A chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern Harz foreland, Germany, based on innovative modelling tools
title_full_unstemmed A chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern Harz foreland, Germany, based on innovative modelling tools
title_sort chronological and palaeoenvironmental re‐evaluation of two loess‐palaeosol records in the northern harz foreland, germany, based on innovative modelling tools
publisher FID GEO
publishDate 2021
url https://dx.doi.org/10.23689/fidgeo-4209
https://e-docs.geo-leo.de/handle/11858/8549
long_lat ENVELOPE(-82.300,-82.300,-79.933,-79.933)
geographic Strong Peak
geographic_facet Strong Peak
genre Ice Sheet
genre_facet Ice Sheet
op_doi https://doi.org/10.23689/fidgeo-4209
_version_ 1766031849261367296

Similar Items