[BOWLER, D. E. – BUYUNG-ALI, L. – KNIGHT, T. M. – PULLIN, A. S. 2010. Urban Greening to Cool Towns and Cities: A Systematic Review of the Empirical Evidence. In Landscape and Urban Planning, vol. 97, 2010, no. 3, pp. 147–155.10.1016/j.landurbplan.2010.05.006]Search in Google Scholar
[BRIAN, J. – BERRY, L. – MARZLUFF, J. M. – SCHULENBERGER, E. – ENDLICHER, W. – ALBERTI, M. – BRADLEY, G. – RYAN, C. – ZUM BRUNNEN, C. – SIMON, U. (Eds.). 2008. Urban ecology. New York : Springer, 2008, 807 p. ISBN 978-0-387-73411-8.]Search in Google Scholar
[DOBROVOLNÝ, P. – ŘEZNÍČKOVÁ, L. – BRÁZDIL, R. – KRAHULA, L. – ZAHRADNÍČEK, P. – HRADIL, M. – DOLEŽELOVÁ, M. – ŠÁLEK, M. – ŠTEPÁNEK, P. – ROŽNOVSKÝ, J. – VALÁŠEK, H. – KIRCHNER, K. – KOLEJKA, J. 2012. Klima Brna. Víceúrovňová analýza městského klimatu. Brno : Masarykova univerzita, 2012, 200 p.]Search in Google Scholar
[FORNAL-PIENIAK, B. – OLLIK, M. – SCHWERK, A. 2019. Impact of different levels of anthropogenic pressure on the plant species composition in woodland sites. In Urban Forestry & Urban Greening, 2019, 38, pp. 295–304.10.1016/j.ufug.2019.01.013]Search in Google Scholar
[GÓMEZ, F. – GIL, L. – JABALOYES, J. 2004. Experimental investigation on the thermal comfort in the city: Relationship with the green areas, interaction with the urban microclimate. In Building and Environment, vol. 39, 2004, no. 9, pp.1077–1086.10.1016/j.buildenv.2004.02.001]Search in Google Scholar
[HARBICH, L. V. – DeABREU, L. – LABAKI, C. – MATZARAKIS, A. 2012. Different Trees and configuration as microclimate control strategy in Tropics. In ICUC8 – 8th International Conference on Urban Climates, Dublin: UCD, 2012.]Search in Google Scholar
[JASENKA, M. 2011. Vplyv mestského prostredia na biologické procesy drevinovej vegetácie. Doktorandská dizertačná práca. Nitra : SPU, 2011, 137 p.]Search in Google Scholar
[KATZIOURA, A. – KOSMOPOULOS, P. – ZORAS, S. 2012. Urban surface temperature and microclimate measurements in Thessaloniki. In Energy and Buildings, vol. 44, 2012, pp. 63–72.10.1016/j.enbuild.2011.10.019]Search in Google Scholar
[KERESZTESOVÁ, S. – RÓZOVÁ, Z. 2013. Influence of vegetation on surface temperature in urban areas. In Folia oecologica, vol. 40, 2013, no. 1, pp. 55–64.]Search in Google Scholar
[KLEIN, J. – RÓZOVÁ Z. 2017. Methods of trees evaluation with the site-specific for microclimate in urban environment: the case of study Nitra (Slovakia). In Ekológia, vol. 36, 2017, no. 1, pp. 40–51.10.1515/eko-2017-0004]Search in Google Scholar
[KLEIN, J. 2017. Vzťahy medzi vegetáciou a mikroklímou urbanizovaného prostredia mesta Nitra. Doktorandská dizertačná práca. Nitra : UKF, 2017, 91 p.]Search in Google Scholar
[KUTTLER, W. 2008. The urban climate – Basic and applied aspects, In MARZLUFF, J. M. – SCHULENBERGER, E. – ENDLICHER, W. – ALBERTI, M. – BRADLEY, G. – RYAN, C. – Zum BRUNNEN, C. – SIMON, U. (Eds.) 2008. Urban ecology. New York : Springer, 2008, 807 p. ISBN 978-0-387-73411-8.]Search in Google Scholar
[LAPIN, M. 2007. Klimatické zmeny a ich možné dôsledky v mestách. In Životné prostredie, vol. 41, 2007, no. 5, pp. 240–244.]Search in Google Scholar
[NORTON, B. A. – COUTTS, A. M. – LIVESLY, S. J. – HARRIS, R. J. – HUNTER, A. M. – WILLIAMS, N. S. G. 2015. Planning for Cooler Cities: A Framework to Prioritise Green Infrastructure to Mitigate High Temperatures in Urban Landscape. In Landscape and Urban Planning, vol. 134, 2015, pp. 127–138.10.1016/j.landurbplan.2014.10.018]Search in Google Scholar
[NOWAK, D. J. – GRANE, D. E. 2006. Air Pollution Removal by Urban Trees and Shrubs in the United States. In Urban Forestry and Urban Greening, vol. 4, 2006, no. 3–4, pp. 115–123.10.1016/j.ufug.2006.01.007]Search in Google Scholar
[POPEK R. – ŁUKOWSKI, A. – OLEKSYN, J. 2017. Accumulation of particulate matter, heavy metals, and polycyclic aromatic hydrocarbons on the leaves of Tilia cordata Mill. in five Polish cities with different levels of air pollution. In International Journal of Phytoremediation, 2017, 12, pp.1134–1141.10.1080/15226514.2017.1328394]Search in Google Scholar
[REHÁČKOVÁ, T. – PAUDITSOVÁ, E. 2006. Vegetácia v urbánnom prostredí. Bratislava : Cicero, 2006. ISBN 80-969614-1-1.]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. In Rev. SBAU, vol. 3, 2008, no. 2, pp. 1–19.10.5380/revsbau.v3i2.66265]Search in Google Scholar
[SUPUKA, J. 2002. Štruktúra zelene mesta vo vzťahu k jeho urbanistickej štruktúre. In SUPUKA, J. (ed.): Sídlo, park, krajina I. Nitra : OPTIMA, s. r. o., 2002, pp. 72–76.]Search in Google Scholar
[SUPUKA, J. – FERIANCOVÁ, Ľ. a i. 2008. Vegetačné štruktúry v sídlach. Parky a záhrady. Nitra : SPU, 2008, 504 p.]Search in Google Scholar
[SUPUKA, J. – HALAJOVÁ, D. 2015. Sídliská a priestory zelene. In Žívotné prostredie, vol. 42, 2015, no. 2, pp. 94–99.]Search in Google Scholar
[TÓTH, A. – HALAJOVÁ, D. – HALAJ, P. 2015. Green Infrastructure: A Strategic Tool for Climate Change Mitigation in Urban Environments. In Ecology and Safety, vol. 9, 2015, pp. 132–138.]Search in Google Scholar
[TSUTSUMI, J. G. – ISHII, A. – KATAYAMA, T. 2003. Quantity of plants and its effect on local air temperature in an urban area. In ICUC – 5th International Conference on Urban Climate, 1–5 September 2003, Lodz : ICUC, 2003.]Search in Google Scholar
[VITKOVÁ, Ľ. 2008. Hustota urbánnych štruktúr. In Životné prostredie, vol. 42, 2008, no. 5, pp. 235–239.]Search in Google Scholar
[ZHU, Z. – LANG, W. – TAO, X. – KAILIU, J. F. 2019. Exploring the Quality of Urban Green Spaces Based on Urban Neighborhood Green Index – A Case Study of Guangzhou City. In Sustainability, 11, 2019, 5507 p.10.3390/su11195507]Search in Google Scholar
[YANG, L. – QUIAN, F. – SONG, D. X. – ZHENG K. J. 2016. Research on urban heat island effect. In Science Direct, Procedia Engineering, vol. 16, 2016, no. 9, pp. 11–18.10.1016/j.proeng.2016.10.002]Search in Google Scholar
[YU, Z.L. – GUO, X. – ZENG, Y. – KOGA, M. – VEJRE H. 2018. Variations in land surface temperature and cooling efficiency of green space in rapid urbanization: The case of Fuzhon city, China. In Urban Forestry and Urban Greening, vol. 29, 2018, pp.113–121.10.1016/j.ufug.2017.11.008]Search in Google Scholar