Evaluation of Microclimatic Data on Localities with Different Ratio of Vegetation in Urban Environment

Akbari, H. & Taha H. (1992). The impact of trees and white surfaces on residential heating and cooling energy use in four Canadian cities. Energy, 17(2), 141-149. DOI: 10.1016/0360-5442(92)90063-6.10.1016/0360-5442(92)90063-6Search in Google Scholar

Akbari, H., Pomerantz, M. & Taha H. (2001). Cool surfaces and shade trees to reduce energy use and improve air quality in urban areas. Solar Energy, 70(3), 295-310. DOI: 10.1016/S0038-092X(00)00089-X.10.1016/S0038-092X(00)00089-XSearch in Google Scholar

Čaboun, V. (2008). Influence of vegetation on decreasing surface temperatures and air temperature during extreme summer heats (in Slovak). In J. Rožnovský & T. Litschmann (Eds.), Bioklimatologické aspekty hodnocení procesův krajině. Mikulov 9. - 11.9.2008.Search in Google Scholar

Delworth, TL. & Manabe S. (1988). Te influence of potential evaporation on the variability of simulated soil wetness and climate. New Jersey: Princeton University.Search in Google Scholar

Delworth, TL. & Manabe S. (1989). Te influence of soil wetness on near-surface atmospheric variability. New Jersey: Princeton University.Search in Google Scholar

Keresztesová, S., Strelková, M. & Rózová Z. (2013). Influence of vegetation on surface temperature in urban areas. Folia Oecologica, 40(1), 50-54.Search in Google Scholar

Klein, J. (2013). Evaluation of microclimatic parameters in selected vegetation growths of urban environment of Nitra city (in Slovak). Final Diploma Tesis, UKF, Nitra.Search in Google Scholar

Matejka, F. & Huzulák J. (1987). Analysis of vegetation microclimate (in Slovak). Bratislava: VEDA, vydavateL'stvo SAV.Search in Google Scholar

Matejka, F., Rožnovský, J., Hurtalová, T & JanouŠ D. (2003). Current state and perspectives of microclimate of vegetation research (in Slovak). In J. Rožnovský & T Litschmann (Eds.), SemináŘ ,,Mikroklima porostů“ (pp. 1-14). Brno.Search in Google Scholar

Petrík, M., HavlíČek, P., Uhrecký, I. (1986). Forestry bioclimatology (in Slovak). Zvolen: TU Zvolen.Search in Google Scholar

Porté, A., Huard, F. & Dreyfus P. (2004). Microclimate beneath pine plantation, semi-mature pine plantation and mixed broadleaved-pine forest. Agric. For. Meteorol., 126(1-2), 175-182. DOI: 10.1016/j.agrformet.2004.06.001.10.1016/j.agrformet.2004.06.001Search in Google Scholar

ReháČková, T, PauditŠová, E. (2006). Vegetation in the urban environment (in Slovak). Bratislava: Cicero.Search in Google Scholar

Rózová, Z. et al. (2013). Environmental aspects of urban environment (in Slovak). Nitra: FPV UKF.Search in Google Scholar

Spangenberg, J., Shinzato, P., Johansson, E. & Duarte D. (2008). Simulation of the influence of vegetation on microclimate and thermal comfort in the city of São Paulo. Rev. SBAU, 3(2), 1-19.Search in Google Scholar

StŘedová, H. et al. (2011). Microclimate and mezoclimate of towns, microclimate of vegetation (in Czech). Praha: ČHMÚ.Search in Google Scholar

Supuka, J. (1991). Ecological principles of creation and protection of greenery (in Slovak). Bratislava: VEDA, vydavateL'stvo SAV.Search in Google Scholar

Špánik, F. & ŠiŠka B. (2004). Biometeorology (in Slovak). Nitra: SPU Nitra.Search in Google Scholar

Taha, H.G., Akbari, H. & Rosenfield A.H. (1988). Vegetation canopy micro-climate: a field project in Davis, California. Laboratory Report-24593. Berkley: Lawrence Berkley in Davis.Search in Google Scholar