1. Drought as a stress driver of ecological changes in peatland - A palaeoecological study of peatland development between 3500 BCE and 200 BCE in central Poland
- Author
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Sandra Słowińska, Mariusz Lamentowicz, Michał Słowiński, Danuta J. Michczyńska, Ryszard K. Borówka, Milena Obremska, Mateusz Płóciennik, Piotr Kittel, Dominik Pawłowski, Katarzyna Marcisz, Jacek Forysiak, and Daniel Okupny
- Subjects
010506 paleontology ,Peat ,010504 meteorology & atmospheric sciences ,Atmospheric circulation ,Water table ,Ecology ,Lake ecosystem ,Paleontology ,Climate change ,Macrofossil ,Oceanography ,01 natural sciences ,Testate amoebae ,Ecology, Evolution, Behavior and Systematics ,Geology ,0105 earth and related environmental sciences ,Earth-Surface Processes ,Teleconnection - Abstract
We reconstructed 3300 years (3500 BCE and 200 BCE) of the development history of the Rąbien peatland located in central Poland, using pollen, macrofossil, testate amoebae, Cladocera, Chironomidae and geochemistry. Central Europe, particularly Poland, is characterised by a transitional climate that is influenced by continental and Atlantic air masses, which makes this region very sensitive to climate change. Our results demonstrate the high potential of the Rąbien peat record to reconstruct palaeohydrological dynamics. The studied time interval is characterised by two pronounced dry periods: from ~ 2500 to ~ 1700 BCE and from ~ 700 to ~ 500 BCE, and two significant increases in the water table: from ~ 1000 to ~ 800 BCE and from ~ 500 to ~ 250 BCE. The timing of the wet shift at 600 BCE corresponds to wet periods at different sites in Central and Eastern Europe. Our investigation reveals a more complicated and complex than previously assumed set of climatic relationships in Europe between 3500 BCE and 200 BCE, which might be linked through complex teleconnections of atmospheric circulation patterns. Only reconstructions that are based on an understanding of current observations from peatlands and lake ecosystems may lead to a better interpretation of past climate changes.
- Published
- 2016