Hydrological and ecological changes in Western Europe between 3200and 2000 years BP derived from lipid biomarker δD values in LakeMeerfelder Maar sediments. / Rach, Oliver; Engels, Stefan; A, Kahmen,; Brauer, Achim; Martin Puertas, Celia; van Geel, Bas; Sachse, Dirk.

In: Quaternary Science Reviews, Vol. 172, 15.09.2017, p. 44-54.

Research output: Contribution to journalArticle

Published

Documents

Abstract

One of the most significant Late Holocene climate shifts occurred around 2800 years ago, when cooler and wetter climate conditions established in western Europe. This shift coincided with an abrupt change in regional atmospheric circulation between 2760 and 2560 cal years BP, which has been linked to a grand solar minimum with the same duration (the Homeric Minimum). We investigated the temporal sequence of hydroclimatic and vegetation changes across this interval of climatic change (Homeric climate oscillation) by using lipid biomarker stable hydrogen isotope ratios (δD values) and pollen assemblages from the annually-laminated sediment record from lake Meerfelder Maar (Germany).

Over the investigated interval (3200–2000 varve years BP), terrestrial lipid biomarker δD showed a gradual trend to more negative values, consistent with the western Europe long-term climate trend of the Late Holocene. At ca. 2640 varve years BP we identified a strong increase in aquatic plants and algal remains, indicating a rapid change in the aquatic ecosystem superimposed on this long-term trend. Interestingly, this aquatic ecosystem change was accompanied by large changes in δD values of aquatic lipid biomarkers, such as nC21 and nC23 (by between 22 and 30‰). As these variations cannot solely be explained by hydroclimate changes, we suggest that these changes in the δDaq value were influenced by changes in n-alkane source organisms. Our results illustrate that if ubiquitous aquatic lipid biomarkers are derived from a limited pool of organisms, changes in lake ecology can be a driving factor for variations on sedimentary lipid δDaq values, which then could be easily misinterpreted in terms of hydroclimatic changes.
Original languageEnglish
Pages (from-to)44-54
Number of pages11
JournalQuaternary Science Reviews
Volume172
Early online date1 Aug 2017
DOIs
Publication statusPublished - 15 Sep 2017
This open access research output is licenced under a Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported License.

ID: 28666813