From Understanding to Sustainable Use of Peatlands: The WETSCAPES Approach

Autor: Jurasinski, G.; S. Ahmad; A. Anadon‐Rosell; J. Berendt; F. Beyer; R. Bill; G. Blume‐Werry; J. Couwenberg; A. Günther; H. Joosten; F. Koebsch; D. Köhn; N. Koldrack; J. Kreyling; P. Leinweber; B. Lennartz; H. Liu; D. Michaelis; A. Mrotzek; W. Negassa et al.
In:

Soil Systems

ISBN: 2571-8789
Seite: 1 - 27
Jahr: 2020

Einordung:
Institut: Professur Bodenkunde

Abstract:
Of all terrestrial ecosystems, peatlands store carbon most electively in long-term scales of millennia. However, many peatlands have been drained for peat extraction or agricultural use. This converts peatlands from sinks to sources of carbon, causing approx. 5% of the anthropogenic greenhouse effect and additional negative effects on other ecosystem services. Rewetting peatlands can mitigate climate change and may be combined with management in the form of paludiculture. Rewetted peatlands, however, do not equal their pristine ancestors and their ecological functioning is not understood. This holds true especially for groundwater-fed fens. Their functioning results from manifold interactions and can only be understood following an integrative approach of many relevant fields of science, which we merge in the interdisciplinary project WETSCAPES. Here, we address interactions among water transport and chemistry, primary production, peat formation, matter transformation and transport, microbial community, and greenhouse gas exchange using state of the art methods. We record data on six study sites spread across three common fen types (Alder forest, percolation fen, and coastal fen), each in drained and rewetted states. First results revealed that indicators reflecting more long-term effects like vegetation and soil chemistry showed a stronger differentiation between drained and rewetted states than variables with a more immediate reaction to environmental change, like greenhouse gas (GHG) missions. Variations in microbial community composition explained differences in soil chemical data as well as vegetation composition and GHG exchange. We show the importance of developing an integrative understanding of managed fen peatlands and their ecosystem functioning.

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