Abstract
To assess the rates of compaction in recent, varved (annually laminated) lake sediments, we used a collection of 13 freeze cores sampled from 1979 to 2012 in Nylandssjön (northern Sweden). This unique series of stored freeze cores allowed us to measure how the thickness of individual varves changed when they were overlain by new varves. The compaction rate was greatest during the first few years after deposition; varve thickness decreased by 60% after 5 years (sediment depth 5 cm). Thereafter, the compaction rate declined, but after 33 years (the study period) there was still a weak trend of continued compaction (sediment depth 12 cm). The rate of compaction is clearly linked to loss of water along with an increase in dry-bulk density of the sediment. Despite compaction causing considerable varve thickness changes over time, the year-to-year variation in varve thickness is preserved while sediment ages. Understanding compaction processes is of fundamental importance to paleolimnology, for example in studies involving calibration of varve thicknesses of recent varves against environmental parameters.
Acknowledgements
This study was initiated during the 3rd PAGES (Past Global Changes) Varve working group workshop, held in March 2012 in Manderscheid, Germany. We thank Veronika Gälman, Jan-Erik Wallin and all other members of the paleolimnology research group for field-work support, and we are grateful to Rich Bindler for language help. Two anonymous reviewers provided valuable comments on the first version of this paper.