(Table 1) Sedimentation rate and mean accumulation rate of sediment and dust at Nussloch, Germany

Our study focuses on European loess sequences, particularly the eolian intervals in between the observed pedogenic units. The classical concept of soil formation from parent material is reformulated to estimate of the duration and the associated sedimentation rate (SR) and mass accumulation rate (MA...

Full description

Bibliographic Details
Main Authors: Rousseau, Denis-Didier, Antoine, Pierre, Sun, Youbin
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2021
Subjects:
Eurasia
Last Glacial Maximum
Loess
Mass accumulation rates
Millennial scale variability
sedimentation rate
Layer description
Layer thickness
Age, minimum/young
Age, maximum/old
Duration
Sedimentation rate per year
Accumulation rate, sediment, mean per year
Accumulation rate, dust, mean per year
Sedimentation rate
Sedimentation rate, dust
Comment
Core
Tipping Points in the Earth System TiPES
Greenland
ice core
Online Access:https://dx.doi.org/10.1594/pangaea.931638
https://doi.pangaea.de/10.1594/PANGAEA.931638
Description
Summary:Our study focuses on European loess sequences, particularly the eolian intervals in between the observed pedogenic units. The classical concept of soil formation from parent material is reformulated to estimate of the duration and the associated sedimentation rate (SR) and mass accumulation rate (MAR) of these paleodust intervals. We show that the Greenland Stadial (GS) duration in European loess deposits includes the thickness of the overlying pedogenic unit, which in fact developed downward into the upper part of the eolian unit. The lower stratigraphical limit of the eolian unit overlying the pedogenic unit corresponds to the restart of the dust sedimentation of the younger GS. We illustrate this interpretation first by computing both SRs and MARs first for the Nussloch key sequence, the most complete European series. The correlation between Nussloch and other European loess sequences, located along a 1,800 km longitudinal transect, allows computation of SR and MAR for several identified GS events. Comparing GS from marine and ice core records, our study shows that the two last Bond cycles are preserved in every European eolian record. Bulk SR and MAR are estimated and compared for these two Bond cycles, showing the highest SRs and MARs in western Europe. These indices also indicate that the last stadials, embedding an Henrich event, were not the dustiest in every Bond cycle. Our estimated MAR also differ from previously published computations, which did not take into account the various pedogenic units present in the studied loess sequences. The bulk SR and MAR estimates computed for the two last Bond Cycles from Chinese sequences from the Loess Plateau indicate lower atmospheric dust than in Europe during the Last Glacial Maximum. SR and MAR estimates computed from the fine-grained material for European records fit with Earth System model reconstructions.

Similar Items