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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.
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.
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".
The project, funded by the Climate Energy Fund, investigates white oak species complexes as a model system and the role of hybridization in climate adaptation. A particular focus is on Austria and south-eastern Europe.
Dr. Georg Frank, head of the Natural Forest Reserves unit at the Austrian Research Centre for Forests (BFW) for many years, will retire at the end of January 2025.
The forests of Central Europe provide a diverse range of ecosystem services, including carbon sequestration, protective functions, biodiversity support, and job creation, while also serving as cost-effective measures for climate protection. However, the effects of climate change are increasingly threatening forest ecosystems and presenting them with major challenges in terms of adapting to changing climatic conditions and protecting biodiversity.
The annual meeting of the Austrian Forest Technology Platform on 19 November 2024 at the Austrian Research Centre for Forests (BFW) in Vienna initiated an intensive discussion of the future of the sector in the presence of Johan Elvnert from Brussels (Secretary General, FTP).
When pupils investigate the biodiversity of the forest not with a microscope but with a microphone and create their own sound mixes, then they are part of the innovative Sparkling Science project "Forest Groove" of the Austrian Research Centre for Forests (BFW). The project creatively combines science, environmental education and music.
The ‘City - Tree - Soil’ project is investigating how the urban environment affects the soil and tree growth.
Gene conservation forests are the instrument for in situ gene conservation of forest genetic resources in Austria.
A better monitoring of Europe’s forest will help countries mitigate and adapt to climate change.
Science and practice from across Europe are joining forces under the leadership of the European Forest Institute to ensure the long-term development of biodiversity and ecosystem services of our forests. The Austrian Research Centre for Forests (BFW) is contributing its expertise in silviculture, genetics and conservation in regeneration and afforestation measures to this effort.
In order to counteract the rapid climate change in the Austro-Hungarian border region in practice, as part of the INTERREG project REIN-Forest , regional guidelines for forest reproductive material (FRM) transfer is going to be developed. Reforestation of six demonstration sites is planned with local and with adapted to the future climate FRM of two native tree species, European beech and sessile oak.
The 5-year project aims to support the protection and sustainable use of forest genetic resources in Europe in the face of environmental and societal challenges.
In the framework of the UCPM project TRANS-ALP institutions from Italy and Austria are working together to improve the impact prediction of storm events for the area Trentino-Alto Adige/South Tyrol, Veneto as well as East Tyrol and the respective bordering regions.
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