Accumulation of Solar Radiation Depending on Type of Surface in the Urban Environment of the City Nitra

Katarína Bahnová; Zdenka Rózová

doi:10.1515/eko-2015-0035

References

Čaboun, V. (2008). Vegetation impact on decreasing of surface temperature and air temperature during the extreme heat (in Slovak). In J. Rožnovsky & T. Litschmann (Eds.), Bioklimatologické aspekty hodnocení procesů v krajině. Mikulov, 9.- 11.9.2008.
Search in Google Scholar
Chmelik, M. & Pribulova A. (2005). Solar UV radiation significantly influences theenvironment (in Slovak). Enviromagazín, 3, 28−29.
Search in Google Scholar
Godefroid, S. & Koedam N. (2004). Interspecific variation in soil compactionsensitivity among forest floor species. Biol. Conserv., 119, 207-217. doi : 10.1016/j.biocon.2003.11.009.10.1016/j.biocon.2003.11.009
Search in Google Scholar
Hudekova, Z. (2012). After-effects of climate changes in urban environment and the urban planning (in Slovak). Online. http://www.urbion.sk/dosledky-zmien-klimy-v-urbanizovanomprostredi-a-uzemne-planovani/
Search in Google Scholar
Keresztesova, S., Strelkova, M. & Rozova Z. (2013). Impact of vegetation on surfacetemperature in the city Nitra (in Slovak). In M. Heinrichova & T. Rehačkova (Eds.), Aktuálne problémy krajinnej architektúry a krajinného plánovania (pp. 94−99). Bratislava: Veda, vydavateľstvo SAV.
Search in Google Scholar
Miller, J.R. & Hobbs R.J. (2002). Conservation where people liveand work. Conserv. Biol., 16, 330-337. DOI: 10.1046/j.1523-1739.2002.00420.x.10.1046/j.1523-1739.2002.00420.x
Search in Google Scholar
Oke, T.R. (1997). Urban climates and global environmental change. In R.D. Thompson & A.H. Perry (Eds.), Applied climatology: Principles and practice (pp. 273−287). London: Routledge.
Search in Google Scholar
Pauditšova, E. & Rehačkova T. (2006). Practical experiences with the evaluation of microclimatic function of vegatation in urban environment (in Slovak). In Sídlo - Park - Krajina IV. Kultúrna vegetácia v sídlach a v krajine (pp. 227−235). Zbornik vedeckych prac a referatov. Nitra: SPU.
Search in Google Scholar
Scudo, G., Dessi, V. & Rogora A. (2002). Evaluation of radiant conditions in urban spaces. In M. Nikolopoulou (Ed.), Designing open spaces in the urban environment: a bioclimatic approach (pp. 12−17). Greece: CRES.
Search in Google Scholar
Slovakova, Ľ. & Mistrik I. (2007). Physiological processes of plants in stress conditions (in Slovak). Bratislava: Univerzita Komenskeho.
Search in Google Scholar
Small, C.H. & Miller R.B. (2010). Monitoring the urban environment from space. Digital Cities II.
Search in Google Scholar
Středova, H., Bokwa, A, Dobrovolny, P. et al. (2011). Urban microclimate and mesoclimate, stand microclimate (in Czech). Praha: Česky hydrometeorologicky ustav.
Search in Google Scholar
Tužinsky, L. (2002). Bioclimatology (in Slovak). Zvolen: Technicka univerzita.
Search in Google Scholar
Voogt, J.A. & Oke T.R. (2003). Thermal remote sensing of urban climates. Remote Sens. Environ., 86, 370-384. doi : 10.1016/S0034-4257(03)00079-8.10.1016/S0034-4257(03)00079-8
Search in Google Scholar
Wardoyo, J., Suprapti, A. & Wediningsih H. (2011). Vegetation configuration as microclimate control strategy in hot humid tropic urban open space. SENVAR + ISESEE1-3 December 2008, International seminar in sustainable environment & architecture.
Search in Google Scholar

Accumulation of Solar Radiation Depending on Type of Surface in the Urban Environment of the City Nitra

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