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000059069 084__ $$2WoS$$aForestry
000059069 1001_ $$0P:(DE-Juel1)VDB66288$$aHeinrich, I.$$b0$$uFZJ
000059069 245__ $$aTension wood formed in Fagus sylvatica and Alnus glutinosa after simulated mass movement events
000059069 260__ $$aUtrecht$$bInternational Association of Wood Anatomists$$c2007
000059069 300__ $$a39 - 48
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000059069 440_0 $$014661$$aIAEA Journal$$v28$$x0928-1541$$y1
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000059069 520__ $$aDue to the likelihood of global climate change, the frequency and magnitude of natural hazards such as mass movements may likewise change, thus favouring the refinement of methods to detect and quantify geomorphic events when precise records are not available. Geomorphic events typically have a significant effect on tree growth, e.g., reaction wood marked by changes in ring widths and wood density. To date, several dendroecological techniques have been developed to document the occurrence of these events but it rarely has been possible to retrieve additional information from reaction wood concerning the precise kind and intensity of geomorphic events. Additional qualitative information inferred from reaction wood of trees holds the potential to not only document but also estimate important characteristics of natural hazard events. To refine the methods already used in dendrogeornorpology, experiments simulating various geomorphic events were used to monitor subsequent wood anatomical responses of Fagus sylvatica and Alnus glutinosa. The preliminary results indicate that these two common broadleaf tree species show variations in their reactions to different experimental treatments.
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000059069 65320 $$2Author$$awood anatomy
000059069 65320 $$2Author$$areaction wood
000059069 65320 $$2Author$$apuncher samples
000059069 65320 $$2Author$$ageomorphic process
000059069 7001_ $$0P:(DE-HGF)0$$aGärtner, H.$$b1
000059069 7001_ $$0P:(DE-HGF)0$$aMonbaron, M.$$b2
000059069 773__ $$0PERI:(DE-600)2251408-9$$gVol. 28, p. 39 - 48$$p39 - 48$$q28<39 - 48$$tIAWA journal$$v28$$x0928-1541$$y2007
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000059069 9141_ $$y2007
000059069 915__ $$0StatID:(DE-HGF)0020$$aNo peer review
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