Research

smallFOREST

In many parts of Europe, the original forest cover has strongly reduced and forests presently occur as small fragments, often embedded in an intensively used agricultural matrix. Despite their small size, these forest patches often act as refugia for biodiversity…

These small fragments  may provide a wide range of ecosystem services (ES) to human society. Biodiversity and ES of small forest fragments are mutually dependent as they are determined by a similar set of drivers.  However, the nature and strength of the relationships between biodiversity and ES will vary, depending on the taxonomic group and ES under consideration, and on the landscape context including the type and intensity of the surrounding land-use and the land-use history. Moreover, the value attributed to an ES will differ between different regions. All these sources of variation remain largely unknown and their effects on human perception, hence on decisions about management, planning and policy, is poorly understood. 

Therefore, the main objective of smallFOREST is to quantify ES and biodiversity in small forest fragments among agricultural landscapes and across different regions in Europe, to analyse how their mutual relationships vary between landscapes and regions and to assess the extent to which ES are valued differently. smallFOREST is built on a unique database covering ~650 forest patches in sixteen 5 km x 5 km landscape sampling windows in southern France, northern France, Belgium, northwestern Germany, northeastern Germany, southern Sweden, central Sweden and Estonia  smallFOREST

Reintroduction of Plants

• Diekmann, M., Müller, J., Heinken, T. & Dupré, C. 2015. Wiederansiedlungen von Gefäßpflanzenarten in Deutschland – eine Übersicht und statistische Auswertung. Tuexenia 35: 249-265. 
   
• Bibliografie zur Wiedereinbürgerung der Pflanzen [PDF] (430 KB)

 (Gefördert durch die Deutsche Bundesstiftung Umwelt und die Manfred-Hermsen-Stiftung)

FLEUR network

FLEUR is a European network of researchers interested in the dynamics of forest plant species in a changing environment.

Climate change is a hot topic nowadays. According to the Intergovernmental Panel on Climatic Change (IPCC 2013), the rise in annual mean temperature in the northern temperate zones will reach 2 to 5°C by 2080-2100. This change in temperature will have a significant impact on both animal and plant species. To avoid extinction, these organisms will either have to adapt the new environment or migrate to new, suitable habitats.

The distribution of forest plants in Europe can change due to these processes. Especially, ancient forest plant species colonize new forests very slowly due to their low colonization rates. Because of the predicted temperature rise in the temperate zones, however, the actual observed colonizing capacity of these species can alter.

One of the goals of the FLEUR research is to quantify plant and population traits along a 2000 km NW-European (Sweden-Germany-Belgium-France) latitudinal gradient (see map) and try to predict forest species' response to future climate change. FLEUR

Completed Projects

• Evolutionary consequences of habitat fragmentation: pollinator-mediated selection on plant phenotypic traits
• Ecological and evolutionary consequences of plant-animal interactions
• A holistic approach to habitat fragmentation and plant-animal interactions
• Selection on plant phenotypic traits through male and female function
• Schwarze Listen invasiver Gefäßpflanzen, Säugetiere und Vögel in Deutschland
• Warnliste in Deutschland noch nicht vorkommender invasiver Tiere und Pflanzen
• BEN: Biologische Invasionen - Rosa rugosa
• Neophyten in Bremen: Erfassung, Bewertung, Risikoabschätzung
• Management von Offenland im Wald
• Landwirte machen Naturschutz II
• Landwirte machen Naturschutz
• Ergebnisorientierte Honorierung ökologischer Leistungen im Grünland Nordwestdeutschlands