Articles | Volume 3, issue 3
Clim. Past, 3, 411–422, 2007
https://doi.org/10.5194/cp-3-411-2007
Clim. Past, 3, 411–422, 2007
https://doi.org/10.5194/cp-3-411-2007

  13 Jul 2007

13 Jul 2007

Increased aeolian activity during humidity shifts as recorded in a raised bog in south-west Sweden during the past 1700 years

R. de Jong1, K. Schoning2, and S. Björck1 R. de Jong et al.
  • 1Geobiosphere Science Centre, Quaternary Sciences, Lund University, Sweden
  • 2Department of Physical Geography and Quaternary Geology, Stockholm University, Sweden

Abstract. Analyses of testate amoebae and aeolian sediment influx (ASI) were used to reconstruct effective humidity changes and aeolian activity in the coastal zone of south-west Sweden. Cores were taken from an ombrotrophic peat sequence from the Undarsmosse bog. Since both types of analysis were carried out on the same core, a direct comparison between humidity fluctuations in the bog and aeolian activity was possible, potentially providing detailed information on atmospheric circulation changes in this region. Relatively wet bog surface conditions occurred from around 1500 to 1230 and 770 to 380 cal. yrs BP, whereas dry conditions dominated from ca. 1630 to 1530, 1160 to 830 and 300 to 50 cal. yrs BP. The transitions between these phases occurred within 60–100 years and are characterised by a major change in the testate amoebae assemblages. A watertable reconstruction was used to study the hydrological changes at the bog surface in more detail. ASI peak events were reconstructed around 1450, 1150, 850 and after 370 cal. yrs BP. Most interestingly, these aeolian activity peaks started during the recorded hydrological transitions, regardless of the direction of these shifts. Our results therefore suggest that humidity shifts in this region were associated with temporary intensifications of atmospheric circulation during the past 1700 years. Several ASI peaks apparently coincide with reduced solar activity, possibly suggesting a solar related cause for some of the observed events.