Beech is the most important deciduous tree species in Bavaria and the key species of a variety of beech forest ecosystems. It offers a diversity of ecological and economical advantages, and is widely accepted as a robust and sustainable component of resilient mixed forests in Bavaria. However, an increase in frequency (and magnitude) of droughts and late frosts is very likely to be observed under climate change conditions in Bavaria - climatic extremes to which beech trees respond highly sensitive.

In the course of climate change, European beech – Bavaria's most important deciduous tree species and key species of the diverse beech forest ecosystems – will increasingly have to contend with drought and late frost. The growth information stored in tree rings is an important data source for HyBBEx to learn more about beech recovery after such climate extremes. (Image source: C. Zang)

HyBBEx investigates temporal legacies of these climate extremes, so-called hysteresis effects, which may range from dedicated recovery periods to mortality. Additional to important and directly practically relevant questions about the site-specific implications for growing beech, HyBBEx is especially concerned with the ecological perspective, with a focus on the carbon balance of beech forests — because hysteresis effects may turn forest ecosystems from carbon sinks to carbon sources, and can therefore directly impact important ecosystem services.

Currently, we know only little about these hysteresis effects, and consequently even the most up-to-date ecosystem models cannot fully capture the recovery of ecosystem productivity after climatic extremes. Therefore, a realistic process-based projection of the ecosystem functioning of forests (and more specifically beech forests) is currently not possible. HyBBEx uses an innovative approach comprising data integration, and statistical and dynamical modelling, and model-data-fusion to achieve projections of ecosystem dynamics of Bavarian forest ecosystems through a better understanding of hysteresis effects. This enables HyBBEx to deliver both basic science contributions and insights in tree species suitability and ecosystem management that can directly be fed back into forestry practice. All in all, the project wants to contribute considerably to the improved understanding of climate change impacts on Bavaria, with a direct benefit for the development of regional adaptation strategies.

Response of beech trees in the Bavarian Forest to a late frost event. The upper panel shows the canopy state at May 3rd 2011, just before the late frost event, and the lower panel shows the canopy state at May 4th 2011, just after the late frost event. The white areas signify regions of interests for image analysis to compute the duration of canopy recovery.

Image source: Menzel A., Helm R. & Zang C. (2015). Functional Plant Ecology, 6, 110.

In the bayklif network

• Blick in die Zukunft (BLIZ) Coordination Prof. Dr. Anja Rammig
• Anpassungsstrategien an den Klimawandel für bayerische Wälder basierend auf der Simulation demographischer Prozesse (BayForDemo) Group leader Dr. Lisa Hülsmann
• Schnittstelle von Klimadynamik, Dendroökologie und Bildung für nachhaltige Entwicklung (Talking Trees) Coordination Prof. Dr. Achim Bräuning
• Bayerisches Synthese-Informations-Citizen Science Portal für Klimaforschung und Wissenschaftskommunikation (BAYSICS) Coordination Prof. Dr. Annette Menzel

Outside of the bayklif network

• Leibniz-Rechenzentrum der Bayerischen Akademie der Wissenschaften
• UNESCO-Biosphärenreservat Rhön, Bayerische Verwaltungsstelle
• Bayerische Landesanstalt für Wald und Forstwirtschaft

Person in charge: C. Zang, A. Buras, C. Zang, B. Meyer

Financing: bayklif

Homepage: http://hybbex.org/index.html