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Figure: The photo shows green grain ears backlit against the background of a dark deciduous forest.

The aim of this project is to test the hypothesis that the combination of ecosystem type (grassland vs forest) and land-use intensity (i.e. inputs and exports of S) is coupled with distinct patterns of S recycling in soils, which will ultimately interact with species richness and community composition at the respective sites of the Biodiversity Exploratories.


  1. S stocks and S availability for each type of ecosystem are determined by land-use intensity and S storage capacity within the soil profile.
  2. Ecosystems with low levels of land-use intensity are characterized by more intensive S recycling and thus also greater S use efficiency as compared to sites with intensive management.
  3. A reduction of land-use intensity in grassland soils will induce a shift towards more efficient S recycling.

To date, there are only limited data on sulfur for the sites of the Biodiversity Exploratories. This project will focus first on assessing the current status of S stocks and S availability in top- and subsoil along the land-use gradients in forest and grassland We will then determine microbial S recycling and enzyme activity along with isotope values (δ34S and δ18OSO4) to identify site-specific differences in S use efficiency and S recycling. Over the course of the project, we will further monitor how these indicators of S availability and S recycling change after land-use change in grasslands.


Doc
Einfluss des Waldmanagements auf die Verteilung der Schwefelfraktionen in Bodenprofilen der Biodiversitäts-Exploratorien
Pordzik F. (2023): Einfluss des Waldmanagements auf die Verteilung der Schwefelfraktionen in Bodenprofilen der Biodiversitäts-Exploratorien. Master thesis, University of Bonn

Scientific assistants

Dr. Sara Louise Bauke
Project manager
Dr. Sara Louise Bauke
Rheinische Friedrich-Wilhelms-Universität Bonn
Jannek Coppers
Alumni
Jannek Coppers
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