294 Kuzovkina: Living Structures Made of Willow Stems Figure 4. Weaving (left) and pruning (right) resulted in different appearances of the same module. are available as part of the online article from www.plantscience. uconn.edu/kuzovkinacv.html. Acknowledgments. I thank Timothy A. Volk (SUNY ESF) for supply- ing willow stems for this project and an anonymous reviewer for the insightful suggestions and editing of the manuscript. I am also appre- ciative for the research support from the University of Connecticut. LITERATURE CITED Christofer, T. 2006. One gardener’s almanac: Slender reeds, sturdy shoots. House and Garden Magazine March:70–72, 160. Danks, S.G. 2002. Green mansions. Landscape Architecture June: 38–43, 93. ———. 2003. Green mansions: Living willow structure enhance chil- dren’s play environments. Children, Youth and Environment 13: 37–42. Dickmann, D.I. 2006. Silviculture and biology of short-rotation woody crops in temperate regions: Then and now. Biomass and Bioenergy 30:696–705. Gro, V. 2004. Lebende Weidengeflechte im Garten [in German]. Verlag Th. Schäfer, Hannover, Germany. 95 pp. Kalberer, M., and M. Remann. 1999. Das Weidenbaubuch [in German]. AT Verlag, Bijz., Munchen, Germany. 127 pp. ———. 2003. Grune Kathedralen [in German]. AT Verlag, Bijz., Munchen, Germany. 127 pp. Keoleian, G.A., and T.A. Volk. 2005. Renewable energy from willow biomass crops: Life cycle energy, environmental and economic per- formance. Critical Reviews in Plant Sciences 24:385–406. Kuzovkina, Y.A., M. Weih, M.A. Romero, J. Charles, S. Hurst, I. McIvor, A. Karp, S. Trybush, M. Labrecque, T.I. Teodorescu, N.B. Singh, L.B. Smart, and T.A. Volk. 2008. Salix: Botany and Global Horticulture. Horticultural Reviews 34:447–489. Labrecque, M., and T.I. Teodorescu. 2005a. Research note: Preliminary evaluation of a living willow sound barrier along a highway in Que- bec, Canada. Journal of Arboriculture 31:95–98. ©2008 International Society of Arboriculture ———. 2005b. Field performance and biomass production of 12 willow and poplars in short-rotation coppice in southern Quebec, Canada. Biomass and Bioenergy 29:1–9. Mack, D., and T. Stender. 2004. Rustic Garden Furniture. Lark Books, New York, NY. 144 pp. Smart, L.B., T.A. Volk, J. Lin, R.F. Kopp, I.S. Phillips, K.D. Cameron, E.H. White, and L.P. Abrahamson. 2005. Genetic improvement of shrub willow (Salix spp.) crops for bioenergy and environmental applications in the United States. Unasylva 221:51–55. Szczukowski, S., J. Tworkowskii, and M. Wiwart. 1998. Application of bush willow (Salix sp.) in environmental shaping and protection. Postepy Nauk Volniczych 4:17–24. Tharakan, P.J., T.A. Volk, C.A. Nowak, and L.P. Abrahamson. 2005. Morphological traits of 30 willow clones and their relationship to biomass production. Canadian Journal of Forest Research 35: 421–431. Warnes, J. 2004. Living Willow Sculpture. Search Press, Kent, UK. 48 pp. Willow Biomass Producer’s Handbook. 2002. State University of New York College of Environmental Science and Forestry, Syracuse, NY. 31 pp. Yulia A. Kuzovkina University of Connecticut Department of Plant Science 1376 Storrs Road Unit 4067 Storrs, CT 06269-4067, U.S.
[email protected] Résumé. Deux jardins expérimentaux ont été aménagés à Storrs au Connecticut afin d’évaluer le potentiel et les limites des structures con- struites en végétaux faits avec des tiges de saule comme équipements de
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