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Abstract

The water cycle is of paramount importance to human society: shortage of water and intensive droughts have been linked to the downfall of ancient civilizations. At the same time water is an important agent of change on the Earth’s surface, removing and transporting vast amounts of sediments from their source to marine sinks. As such, water is the basis of life as well as a pacemaker of the biogeochemical cycles, such as the carbon cycle. Short-term, abrupt changes (101 to 103 years) in the water cycle have the potential to threaten human societies directly, while long-term changes can affect the global biogeochemical cycles, in particular the carbon cycle. In the Organic Surface Geochemistry Lab (Section Geomorphology) of GFZ we are using biomarker based molecular methods a) to understand the drivers of change in the short-term water cycle during past, abrupt climatic changes; and b) to investigate processes that determine the erosion, transport and burial of organic carbon into long-term geological sinks – processes which are responsible for the relatively stable climatic conditions which have allowed the sustainment of life on Earth. By combining paleoclimatic, geomorphological and organic-geochemical approaches we gain new insights into the stabilizing and destabilizing factors, that control the water and the carbon cycles over various geological timescales.