14 coniferous trees planted on wet mineral soils. pp. 204–219. In: M.P. Coutts and J. Grace (Eds.). Wind and Trees. Cambridge University Press, Cambridge, UK. Rodriguez, M., E. de Langre, and B. Moulia. 2008. A scaling law for the effects of architecture and allometry on tree vibration modes suggests a biological tuning to modal compartmentaliza- tion. American Journal of Botany 95:1523–37. Rodriguez, M., S. Ploquin, B. Moulia, and E. de Langre. 2012. The multimodal dynamics of a walnut tree: experiments and models. Journal of Applied Mechanics 79(4):1–5. Roodbaraky, H.J., C.J. Baker, A.R. Dawson, and C.J. Wright. 1994. Experimental observations of the aerodynamic characteristics of urban trees. Journal of Wind Engineering and Industrial Aerodynamics 52:171–184. Ruck B., C. Kottmeier, C. Matteck, C. Quine, and G. Wilhelm (Eds.). 2003. Proc. Int. Conf. Wind Trees. University of Karlsruhe, Germany. Rudnicki, M., S.J. Mitchell, and M.D. Novak. 2004. Wind tunnel measurements of crown streamlining and drag relationships for three conifer species. Canadian Journal of Forestry Research 34:666–676. Rudnicki, M.R., T.H. Meyer, V.J. Lieffers, U. Silins, and V.A. Webb. 2008. The periodic motion of lodgepole pine tree as affected by collisions with neighbors. Trees 22:475–482. Salmen, L. (Ed). 2006. Proc. 5th Plant Biomech. Conf. Stockholm: STFI Saunderson, S.E.T., A.H. England, and C.J. Baker. 1999. A dynamic model of the behavior of sitka spruce in high winds. Journal of Theoretical Biology 200:249–259. Schelhaas, M.J. 2008. The wind stability of different silvicultural systems for Douglas-fir in the Netherlands: A model-based approach. Forestry 81(3):399–414. Schindler, D. 2008. Responses of Scots pine trees to dynamic wind loading. Agricultural and Forest Meteorology 148:1733–1742. Schindler, D., J. Bauhus, and H. Mayer. 2012. Wind effects on trees. European Journal of Forest Research 131:159–163. Schindler, D., R. Vogt, H. Fugmann, M. Rodriguez, J. Schonborn, and H. Mayer. 2010. Vibration behavior of plantation-grown Scots pine trees in response to wind excitation. Journal of Agri- cultural and Forest Meteorology 150:984–993. Sellier, D., and T. Fourcaud. 2009. Crown structure and wood properties: Influence on tree sway and response to high winds. American Journal of Botany 96:885–896. Sellier, D., T. Fourcaud, and P. Lac. 2006. A finite element model to investigate the effects of aerial architecture on tree oscillations. Tree Physiology 26:799–806. Sellier, D., Y. Brunet, and T. Fourcaud. 2008. A numerical model of tree aerodynamic response to a turbulent airflow. Forestry 81:279–97. Smiley, E.T., and B. Kane. 2006. The effects of pruning type on wind loading of Acer rubrum. Arboriculture & Urban Forestry 32:33–40. Smiley, E.T., and K. Coder. 2002. How Trees Stand up and Fall Down. Tree Structure & Mechanics Conference Proceedings. ISA pub. Urban tree biomechanics conference proceedings from Savannah, Georgia. Smiley, E.T., N. Matheny, and S. Lilly. 2011. Best Management Prac- tices Tree Risk Assessment. ISA, Champaign, Illinois, U.S. James et al.: Tree Biomechanics Literature Review: Dynamics Spatz H.-C, F. Bruchert, and J. Pfisterer. 2007. Multiple resonance damping or how do trees escape dangerously large oscillations? American Journal of Botany 94:1603–11. Spatz, H.C., and B. Theckes. 2013. Oscillation damping in trees. Plant Science 207:66–71. Spatz, H.C., and F. Brüchert. 2000. Basic biomechanics of self- supporting plants: wind and gravitational loads on a Norway spruce tree. Forest Ecology Management 135:33–44. Spatz, H.-C.H. 2000. Greenhill’s Formula for the Critical Euler Buckling Length revisited. (Eds.). 3rd Plant Biomechanics. In: H.-C.H. Spatz and T. Speck Spatz, H.-C.H., and O. Speck. 2002. Oscillation frequencies of tapered plant stems. American Journal of Botany 89:1–11. Speck, O., and H-C. Spatz. 2004. Damped oscillations of the giant reed Arundo donax (Poaceae). American Journal of Botany 91(6):789–796. Speck, T, and I. Burgert. 2011. Plant Stems: Functional Design and Mechanics. Annual Review of Material Research 41:169–193. Stacey, G. R., R.E. Belcher, C.J. Wood, and B.A. Gardiner. 1994. Wind and wind forces in a model spruce forest. Boundary-Layer Meteorology 69:311–334. Sugden, M.J. 1962. Tree sway period: A possible new parameter for crown classification and stand competition. Forestry Chronicle 38:336–344. Telewski, F.W., L. Kohler, and F. Ewers (Eds.). 2003. Proc. 4th Int. Plant Biomech. Conf. East Lansing: Michigan State Univ. Tevar Sanz, G., A. Sanz-Andres, M. Fernandez Canadas, and M.A. Grande Ortiz. 2003. Wind effects on Populus sp. In: Wind Effects on Trees. University of Karlsruhe, Germany. Theckes, B., E. de Langre, and X. Boutillon. 2011. Damping by branching: A bioinspiration from trees. Bioinspiration and Bio- mimetics 6:1–11. Thibaut, B. (Ed.). 2012. Proceedings of the 6th Plant Biomechanics Conference, Cayenne, French Guyana. Vogel, S. 1989. Drag and Reconfiguration of Broad Leaves in High Winds. Journal of Experimental Biology 40(217):941–948. Vogel, S. 1996. Blowing in the Wind: Storm-resisting features of the design of trees. Journal of Arboriculture 22(2):92–98. Vollsinger, S., S.J. Mitchell, K.E. Byrne, M.D. Novak, and M. Rud- nicki. 2005. Wind tunnel measurements of crown streamlining and drag relationships for several hardwood species. Canadian Journal of Forestry Research 35:1238–1249. Wessolly, L. 1991. Verfahren zur Bestimmung der Stand- und Bruchsicherheit von Bäumen [Methods for determining the safety against uprooting and stem fracture]. Holz als Roh- und Werkstoff 49:99–104. Wood, C.J. 1995. Understanding wind forces on trees. In: M.P. Coutts and J. Grace (Eds.). pp. 133–164. Wind and Trees. Cam- bridge University Press, Cambridge, UK. Wood, M.J., R. Scott, P.W. Volker, and D.J. Mannes. 2008. Windthrow in Tasmania, Australia: Monitoring, prediction, and management. Forestry 81(3):415–427. Zeng, H., T. Pukkala, and H. Peltola. 2007. The use of heuristic optimization in risk management of wind damage in forest planning. Forest Ecology and Management 241:189–199. Zhu, J., T. Matsuzaki, and K. Sakioka. 2000. Wind speed within a single crown of Japanese black pine (Pinus thunbergii Parl.). Forest Ecology and Management 135:19–31. ©2014 International Society of Arboriculture
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