Geochemical composition of sapropel in lakes: reflections of paleoenvironmental conditions and anthropogenic influence
Abstract Geochemical and lithological parameters of sapropel in lakes, combined with pollen data and radiocarbon 14C datings, contain a wide spectrum of environmental information. This includes records of fluctuations of water level and changes of conditions of sedimentation, accumulation of organic matter and chemical elements due to climate change, human impacts and other environmental changes. Four lakes with different trophic states and anthropogenic pressures were chosen for this study in Lithuania. Lake Balsys has a mesotrophic state while Lakes Didžiulis, Salotė and Gineitiškės have eutrophic states. X-ray fluorescence spectrometry was used to analyse concentrations of chemical elements, loss-on-ignition to determine organic, mineral and carbonate matter, pollen analysis and radiocarbon dating were applied for determination of paleoenvironmental conditions and age of sediments. Results of this study demonstrated rather different chemical compositions of sapropels in these lakes. Human impacts are evident in the upper layers of sapropel in all lakes, however very specific and complex geochemical composition was determined in deeper layers of sapropel in the different lakes. Higher concentrations of elements like Cr and Zn are expected in deeper layers of sapropel and are attributed to lithogenic association of trace elements. Pb and Cu were detected in upper layers of sapropel which indicates the impact of anthropogenic activity. Sapropel of eutrophic lakes (Salotė and Gineitiškės) is enriched by high concentrations of heavy metals (galbūt naudoti tiesiog chemical elements?) (Pb, Cr, Cu, Zn). Their main source was multidimensional anthropogenic pollution leading to a biogenic-anthropogenic association of elements. Sapropel with low concentrations of heavy metals exhibits a different inter-association matrix because most of the elements tend to form lithogenic-clastogenic associations.