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Fir, pine, maple and oak have a high tolerance to heat and drought. Nevertheless, there is currently an increased occurrence of a number of pests and pathogens on these "tree species of the future". In the "CLIFF" project, knowledge about these organisms is to be expanded.
The BML commissioned a consortium with the participation of the Austrian Research Center of Forests (BFW) with the project "FORSITE II - Development of the ecological basis for a dynamic forest typing in Upper Austria, Lower Austria and Burgenland".
In this policy brief we propose measures to maintain the forest carbon sink strength and provide information for the time horizons for achieving the targets
Within the REFOCuS project a holistic strategy for both managed and protected forests will be developed, comprising appropriate silvicultural methods and conservation strategies.
The website "Wald trifft Schule" will in future guarantee to offer technically correct and up to date teaching material for the theme woodlands and forestry.
How individual non-native tree species will perform in the Austrian forests in the future will be investigated using, among other things, climate envelope models and in-situ surveys on selected plots.
The use of non-native tree species polarise the opinions of experts and citizens. Adaption to climate change versus invasiveness are factors to be considered in the future management of forests and urban tree populations.
Climate change is likely to alter the future growth capacity of European forests in providing vital ecosystem services. Adaptive management aiming at reducing vulnerability and enhancing the resilience of forest ecosystems is a key to preserve the potential of forests.
The Austrian Research Centre for Forests (BFW) is therefore working together with 11 partners in the new INTERREG project TEACHER-CE to adapt water management to climate change in Central Europe.
Comprehensive information on forest ecosystems and landscape changes are collected through national forest inventories. More efforts are needed to harmonise the data to make it comparable and easy to access. The project DIABOLO tackles Europe’s social, ecological and economic challenge, by providing such a platform of exchange. The increasing competition for forest resources will necessitate […]
Research cooperation for the realization of sustainable and climate-adapted forest conversion.
In-flow data with high precision in real avalanche scenarios are the product of the cooperative project of BFW Institute for Natural Hazards Innsbruck, TU Berlin and University of Innsbruck. This approach is now being applied for the first time to snow avalanches. The destructive potential of gravitational mass flows, such as snow avalanches, has a […]
Global warming is forcing forest owners to adapt their forests to future climatic conditions. In the course of forest conversion, the future of the forest is to be secured with new tree species or combinations. But climate fitness is not the only goal: forests should be profitable, have a high level of biodiversity and also act as a greenhouse gas sink. How to reconcile all this is the focus of the two-year ACRP research project ManageBeech.
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