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O. Gailing and G. Von Wuehlisch

References COULIBALY, S., PASQUET, R. S., PAPA, R. and GEPTS P. (2002): AFLP analysis of the phenetic organization and genetic diversity of Vigna unguiculata L. Walp. reveals extensive gene flow between wild and domesticated types. Theoretical and Applied Genetics 104: 358-366. DEMESURE, B., COMPS, B. and PETIT, R. J. (1996): Chloroplast DNA phylogeography of the common beech (Fagus sylvatica L.) in Europe. Evolution 50: 2515-2520. DENK, T., GRIMM, G., STÖGERER, K., LANGER, M. and HEMLEBEN, V. (2002): The

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Miłosz Tkaczyk, Katarzyna Sikora, Justyna A. Nowakowska, Katarzyna Kubiak and Tomasz Oszako

References Ammer Ch., Albrecht L., Borchert H., Brosinger F., Dittmar Ch., Elling W., Ewald J., Felbermeier B., von Gilsa H., Huss J., Kenk G., Kölling Ch., Kohnle U., Meyer P., Mosandl R., Moosmayer H.U., Palmer S., Reif A., Rehfuess K.E., Stimm B. 2005. Zur Zukunft der Buche (Fagus sylvatica L.) in Mitteleuropa [Future suitability of beech (Fagus sylvatica L.) in Central Europe]. Allgemeine Forst- und Jagdzeitung, 176, 60-67. Balci Y., Halmschlager E. 2003. Phytophthora species in oak ecosystems in Turkey and their

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Dorota Grygoruk

References Bakker M.R., Turpault M.P., Huet S., Nys C. 2008. Root distribution of Fagus sylvatica in a chronosequence in western France. Journal of Forest Research, 13 (3), 176-184. Böhm W. 1985. Metody badań systemów korzeniowych. PWRiL, Warszawa. Bolte A., Villanueva I. 2006. Interspecific competition impacts on the morphology and distribution of fine roots in European beech (Fagus sylvatica L.) and Norway spruce (Picea abies (L.) Karst.). European Journal of Forest Research, 125, 15

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Elzbieta Sandurska, Bartosz Ulaszewski and Jaroslaw Burczyk

height-related competitiveness of tree species following recent climate warming and implications for tree community composition: the case of common beech and sessile oak as predominant broadleaved species in Europe. Oikos 121: 1287–299. B uiteveld J, V endramin GG, L eonardi S, K amer K, and G eburek T. 2007. Genetic diversity and differentiation in European beech ( Fagus sylvatica L.) stands varying in management history. Forest Ecology and Management 247: 98–06. B ussotti F, P ollastrini M, H olland V, and B ruggemann W. 2015. Functional

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Wojciech Kowalkowski

References Barzdajn W. 2002. Proweniencyjna zmienność buka zwyczajnego ( Fagus sylvatica L.) w Polsce w świetle wyników doświadczenia proweniencyjnego 1992/1995 [Provenance variability of common beech ( Fagus sylvatica L.) related to the results of the provenance trial of 1992/1995 series]. Sylwan, 146 (2): 5-34. Barzdajn W., Rzeźnik Z., Kowalkowski W. 2002. Doświadczenie proweniencyjne nad zmiennością buka zwyczajnego ( Fagus sylvatica L.) serii 1993/1995 w Polsce [Provenance trials on the variability of European

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Wojciech Kraj

, Leaf morphology and the dynamics of frost-hardiness of shoots in two phenological forms of European beech ( Fagus sylvatica L.) from Southern Poland. Electronic Journal of Polish Agricultural Universities 4. G omez L, B ancel D, R ubio E, and V ercambre G. 2007. The microplate reader: an efficient tool for the separate enzymatic analysis of sugars in plant tissues—validation of a micro-method. Journal of the Science of Food and Agriculture 87: 1893–1905. H ejtmánek J. 1956. Early and late frushing forms of beech. Lesne Prace 35: 167

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Igor Štefančík

., Robic, D., 2007: Effects of selective thinning on growth and development of beech (Fagus sylvatica L.) forest stands in southeastern Slovenia. Annals of Forest Science, 64:47-57. Bouchon, J., Dhôte. J. F., Lanier, L., 1989: Réaction individuelle de hêtres (Fagus syslvatica L.) d´âges divers à diverses intensités d´éclaircie. Annals Science Forestry, 46:251-259. Cameron, A. D., 2002: Importance of early selective thinning in the development of long-term stand stability and improved log quality: a review. Forestry, 75

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Aneta B. Lyubenova, Justyna A. Nowakowska, Katarzyna Sikora, Kaloyan Kostov, Małgorzata Borys, Slavtcho B. Slavov and Tomasz Oszako

pathogen Phytophthora quercina . Forest Pathology , 35 (1), 57–70. Fleischmann F., Koehl J., Portz R., Beltrame A.B., Osswald W. 2005. Physiological change of Fagus sylvatica seedlings infected with Phytophthora citricola and the contribution of its elicitin ‘‘Citricolin’’ to pathogenesis. Plant Biology , 7 (6), 650–658. Garbelotto M., Pautasso M. 2012. Impacts of exotic forest pathogens on Mediterranean ecosystems: four case studies. European Journal of Plant Pathology , 133 (1), 101–116. Hansen E.M., Reeser P.W., Sutton W. 2012. Phytophthora

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Zuzana Sitková, Paulína Nalevanková, Katarína Střelcová, Peter Fleischer Jr., Marek Ježík, Roman Sitko, Pavel Pavlenda and Tomáš Hlásny

flow for beech (Fagus sylvatica L.) in a natural and a managed foresteffect of spatial heterogeneity. Journal of Plant Ecology 4:23-35. Dedrick, S., Spiecker, H., Orazio, C., Tomé, M., Martinez, I. (eds.), 2007: Plantation or Conversion - The Debate! Ideas presented and discussed at a joint EFI Project-Centre conference held 21-23 May 2006 in Freiburg, Germany. Discussion Paper, 13: 98 p. Dittmar, C., Elling, W., 2007: Dendroecological investigation of the vitality of Common Beech (Fagus sylvatica L.) in mixed mountain forests of the

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Norbert Horvath and Csilla Csiha

laminated timber and glued solid timber. Requirements OHNESORGE, D. (2009): Verklebungseigenschaften von Brettschichtholz aus Buchenholz (Fagus sylvatica L.), Fakultat fur Forst- und Umweltwissenschaften der Universitat Freiburg, und Forstliche Versuchs- und Forschungsanstalt Baden-Wurttemberg, ISBN 978-3-933548-44-3 PEREZ A.G. - SALCĂ, E.A. - MALDONADO, I.B. - HIZIROGLU, S. (2012): Evaluation of surface quality of medium density fiberboards (MDF) and particleboards as function of weathering. Pro Ligno Journal 8: 10-17. VICK