Abstract
Abstract The Younger Dryas cold period caused major changes in vegetation and depositional environments. This study focuses on the aeolian river-connected dunes along the former, Weichselian Late Glacial, course of the Scheldt River in the southern Netherlands. Aeolian dunes along the Scheldt have received little attention, as they are partly covered by Holocene peat and marine deposits. The spatial distribution of the dunes is reconstructed by digital elevation model analysis and coring transects. Dunes are present on the high eastern bank of the Scheldt and in the subsurface of the polder area west of the Brabantse Wal escarpment. A reach-specific higher channel gradient probably caused a channel pattern change from meandering to braiding during the Younger Dryas. This enabled deflation from the braid plain and accumulation in source-bordering river dunes east of the incised and terraced, subsurface Late Pleistocene Scheldt valley. The age of the dune formation is established by pollen analysis and radiocarbon dating of underlying and overlying peat beds. The peat layer below the dune at Zomerbaan is attributed to the Allerød and early Younger Dryas periods. Dune formation occurred predominantly during the second part of the Younger Dryas stadial, both on and in front (west) of the Brabantse Wal escarpment. Wind direction was reconstructed by geomorphic analysis and sedimentary structures on lacquer peels. A southwesterly wind direction is demonstrated by the parabolic dune morphology. For the first time, Younger Dryas wind direction is reconstructed based on adhesion ripple cross-laminated sets on lacquer peels. Sand-transporting south-southwesterly winds were dominant during the Younger Dryas, most likely during summer.
Highlights
The Younger Dryas cold period (c.12.9–11.7 ka cal BP) at the end of the Weichselian was caused by abrupt changes in the thermohaline ocean circulation (Bakke et al, 2009) in combination with moderate negative radiative forcing and an altered atmospheric circulation (Renssen et al, 2015)
The digital elevation model (DEM) shows a higher elevation of the dune field in the south compared to the north
The spatial distribution of the Younger Dryas dune field on the Brabantse Wal has been derived from the DEM analysis (Figs 1 and 3A)
Summary
The Younger Dryas cold period (c.12.9–11.7 ka cal BP) at the end of the Weichselian was caused by abrupt changes in the thermohaline ocean circulation (Bakke et al, 2009) in combination with moderate negative radiative forcing and an altered atmospheric circulation (Renssen et al, 2015). The Younger Dryas cooling caused a reduction of the vegetation cover (Van Geel et al, 1989; Hoek, 1997a, 2000; Bos et al, 2013) that resulted in local deflation and deposition of aeolian sand (Younger Coversand II, cf Van der Hammen & Wijmstra, 1971). The cooling caused a fluvial system change from meandering to a braided river style in several European lowland river systems, because of a more nival discharge regime and increased stream power, due to lower temperatures, lower evapotranspiration and deeper seasonal frost (Vandenberghe et al, 1994; Kasse, 1995a; Kasse et al, 1995, 2005, 2017; Litt et al, 2003; Woolderink et al, 2018). The development of wide braid plains enabled deflation from the floodplain during low discharge and led to the formation of aeolian source-bordering river dunes (Vandenberghe, 1991; Kasse, 1995b, 2002)
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