Growth Response Assessment of the Sycamore Maple (Acer pseudoplatanus L.) in Changed City Environment

grant project KEGA no. 003SPU-4 / 2014^th.Search in Google Scholar

BERNATZKY, A. 1978. Ecology and Tree Preservation. Amsterdam, Oxford, New York : Elsevier, 1978, p. 83–86.Search in Google Scholar

GÁPER, J. 1998. Tree fungus in Slovakia and dissemination of basidiospores ecosystems. Zvolen : TU, 1998. p. 5–75. ISBN 80-228-0750-8.Search in Google Scholar

GÁPER, J. – GÁPEROVÁ, S. 2009. The cavities as an important part of the trees vitality assessment in settlements. In BERNADOVIČOVÁ, S. – JUHÁSOVÁ, G. (eds.): Plants in public green. Nitra : Institute of Forest Ecology, 2009. p.193–198Search in Google Scholar

HRUBÍK, P. – TKÁČOVÁ, S. 2004. Inventory and classification of wood in Horticulture and Landscaping. In Collection of the International Conference: Settlement – Park – Landscape. Nitra : SUA, 2004, p. 87–89.Search in Google Scholar

INNES, J. L. 1990. Assessment of tree condition. London : HMSO, 1990, 96 pp.Search in Google Scholar

JASENKA, M. – SUPUKA, J. 2011. Evaluation of trees adaptability to the urban environment by the example of Sophora japonica L. In SALAS, P. (ed): Plants in conditions of changing climate. Fridge 20.–21. 10. 2011, Úroda, 2011, p. 150–160. ISSN 0139-6013.Search in Google Scholar

JASENKA, M. 2011. The influence of the urban environment on the biological processes of woody vegetation: Doctoral dissertation. Nitra : SUA, 2011. 137 pp.Search in Google Scholar

KMEŤ, J. – DITMAROVÁ, L. – KURJAK, D. 2009. The physiological and biochemical parameters as potential bio-indicators of drought stress. Physiological and biomechanical parameters and potential drought indicators. In Acta Facultatis Forestalis, vol. 51, 2009, no. 3, pp. 67–76.Search in Google Scholar

LAPOSI, R. et al. 2002. Photosynthetic ecophysiological properties of beech (Fagus sylvatica L.) under the exclusion of ambient UV-B radiation. In Acta Biologica Szegediensis, 2002, no. 46, pp. 243–245.Search in Google Scholar

LEUZINGER, S. – VOGT, R. – KÖRNER, C. 2010. Tree surface temperature in an urban environment. In Agricultural and Forest Meteorology, 2010, no. 150, pp. 56–62.Search in Google Scholar

QUIGLEY, M, F. 2004. Street Trees and Rural conspecifics: Will Long-lived Trees Reach Full. Size in Urban Conditions. In Urban Ecosystems, 2004, no. 7, pp. 29–39.Search in Google Scholar

PEJCHAL, M. 1995. Evaluation of trees vitality in urban streets. In Collective (eds): The trees in the streets. Olomouc – Mělník: Section Care of trees at the Society for Landscape and Garden, 1994. pp. 32–40.Search in Google Scholar

PEJCHAL, M. 1997. Evaluation of tree vitality. In City Park, Nitra : SUA, 1997, pp. p. 9–32.Search in Google Scholar

ROZOVÁ, Z. et al. 2013. Environmental aspects of the urban environment. Nitra : UKF, 2013. 390 pp. ISBN 978-80-558-0388-3. SHMU. 2015. Available at urlURL: http://www.shmu.sk/sk/?page=2049&id=595Search in Google Scholar

SLOVÁKOVÁ, L. – MISTRÍK, I. – 2007. The physiological processes of plants under stress. Bratislava : Comenius University, 2007, pp. 232. ISBN 978-80-223-2322-2.Search in Google Scholar

STŘELCOVÁ, K. – KMET, J. 2003. Physiological aspects of dry forests. In Les, vol. 59, 2003, no. 9, pp. 8–10.Search in Google Scholar

SUPUKA, J. et al. 1991. Ecological principles of creation and green protection. Bratislava : VEDA, Slovak Academy of Sciences Publishing, 1991. 308 p.Search in Google Scholar

SUPUKA, J. – KMEŤ, J. – JASENKA, J. 2010. Selected parameters of chlorophyll-α fluorescence in the plants leaves in urban conditions. In Acta Horticulturae et Regitecturae, vol. 13, 2010, special issue, pp. 1–7. ISSN 1335-2563.Search in Google Scholar