Multi-method dating of ancient permafrost of the Batagay megaslump, East Siberia

Sebastian Wetterich; Julian B. Murton; Phillip Toms; Jamie Wood; Alexander Blinov; Thomas Opel; Margret C. Fuchs; Silke Merchel; Georg Rugel; Andreas Gärtner; Grigoriy Savvinov

doi:https://doi.org/10.5194/egusphere-egu2020-2999

[Back] [Session CR4.2]

EGU2020-2999, updated on 10 Jan 2024

https://doi.org/10.5194/egusphere-egu2020-2999

EGU General Assembly 2020

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Multi-method dating of ancient permafrost of the Batagay megaslump, East Siberia

Sebastian Wetterich¹, Julian B. Murton², Phillip Toms³, Jamie Wood³, Alexander Blinov⁴, Thomas Opel¹, Margret C. Fuchs⁵, Silke Merchel⁶, Georg Rugel⁶, Andreas Gärtner^6,7, and Grigoriy Savvinov⁸

Sebastian Wetterich et al.

¹Alfred Wegener Institute Helmholtz Center for Polar and Marine Research, Potsdam, Germany (sebastian.wetterich@awi.de)
²Permafrost Laboratory, Department of Geography, University of Sussex, Brighton, UK
³Luminescence Dating Laboratory, School of Natural and Social Sciences, University of Gloucestershire, Cheltenham, UK
⁴Department of Cosmic Research, Saint Petersburg State Polytechnic University, Saint Petersburg, Russia
⁵Helmholtz-Zentrum Dresden-Rossendorf, Helmholtz Institute Freiberg for Resource Technology, Freiberg, Germany
⁶Helmholtz-Zentrum Dresden-Rossendorf, Dresden, Germany
⁷GeoLab, Faculty of Sciences-Semlalia, Cadi Ayyad University, Marrakech, Morocco
⁸Institute of Applied Ecology of the North, North-East Federal University, Yakutsk, Russia

Dating of ancient permafrost is essential for understanding permafrost stability and interpreting past climate and environmental conditions over Pleistocene timescales but faces substantial challenges to geochronology.

Here, we date permafrost from the world’s largest retrogressive thaw slump at Batagay in the Yana Upland, East Siberia (67.58 °N, 134.77 °E). The slump headwall exposes four generations of ice and sand-ice (composite) wedges that formed synchronously with permafrost aggradation. The stratigraphy differentiates into a Lower Ice Complex (IC) overlain by a Lower Sand Unit, an Upper IC and an Upper Sand Unit. Two woody beds below and above the Lower Sand Unit represent the remains of two episodes of taiga forest development prior to the Holocene forest. Thus, the ancient permafrost at Batagay potentially provides one of the longest terrestrial records of Pleistocene environments in western Beringia.

We apply four dating methods to the permafrost deposits to disentangle the chronology of the Batagay permafrost archive – optically-stimulated luminescence (OSL) dating of quartz and post-infrared-stimulated luminescence (pIR-IRSL) dating of feldspar as well as accelerator mass spectrometry-based Cl-36/Cl dating of wedge ice and radiocarbon dating of organic material.

The age information obtained so far indicates that the Batagay permafrost sequence is discontinuous and that the Lower IC developed well before MIS 7, the overlying Lower Sand Unit formed during MIS 6, and the Upper IC and the Upper Sand Unit formed both during MIS 3-2.

Additional sampling for all dating approaches presented here took place in spring 2019, and is part of ongoing research to enhance the geochronology of the exceptional palaeoenvironmental archive of the Batagay megaslump.

How to cite: Wetterich, S., Murton, J. B., Toms, P., Wood, J., Blinov, A., Opel, T., Fuchs, M. C., Merchel, S., Rugel, G., Gärtner, A., and Savvinov, G.: Multi-method dating of ancient permafrost of the Batagay megaslump, East Siberia, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-2999, https://doi.org/10.5194/egusphere-egu2020-2999, 2020.

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