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Warianty tytułu
Języki publikacji
Abstrakty
The aim of the study was to investigate the formation intensity of the urban heat island (UHI) in Białystok, a relatively small city in north-eastern Poland. The UHI development was determined on the basis of meteorological data obtained from two weather stations of the Regional Inspectorate for Environmental Protection in Białystok, one located in the city center, and the other on its outskirts. The measurements of temperature gathered by automobile traverses along streets running from the city limits through the center were carried out in order to provide spatial diversity of the studied phenomenon. The results indicated that UHI in Bialystok is very clear. The intensity of this phenomenon changes in the daily cycle, with the peak in the evening. During the year the heat island is the most pronounced in the spring.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
60--65
Opis fizyczny
Bibliogr. 26 poz., rys.
Twórcy
autor
- Bialystok University of Technology, Department of Environmental Protection and Management, Wiejska 45A, 15-351 Białystok, Poland
autor
- Bialystok University of Technology, Department of Environmental Protection and Management, Wiejska 45A, 15-351 Białystok, Poland
Bibliografia
- 1. Asimakopoulos D.N. et al., 2001. Energy and climate in the urban built environment. James & James, London, UK.
- 2. Błażejczyk K., Bakowska M., Więcław M., 2006. Urban heat Island in large and small cities. 6th International Conference on Urban Climate, June 12- 16, Göteborg, Sweden.
- 3. Brazel, A., Selover, N., Vose, R., Heisler, G., 2000. The tale of two climates–Baltimore and Phoenix urban LTER sites. Climate Research 15, 123–135.
- 4. Chandler TJ. 1965. The Climate of London. Hutchinson: London.
- 5. Douglas, I., 1983. The urban environment. Edward Arnold, London.
- 6. Draxler R.R., 1986. Simulated and observed influence of the nocturnal urban heat island on the local wind field. J Climate Appl Meteor 25, 1125–1133
- 7. Emmanuel M.R., 2005. An urban approach to climate-sensitive design; Strategies for the tropics. Spon Press, London, UK.
- 8. Fan, H., Sailor, D.J., 2005. Modeling the impacts of anthropogenic heating on the urban climate of Philadelphia: a comparison of implementations in the two PBL schemes. Atmospheric Environment 39, 73–84.
- 9. Fortuniak K., Kłysik K., Wibig J., 2006. Urban–rural contrasts of meteorological parameters in Łódź. Theor. Appl. Climatol. 84, 91–101.
- 10. Gołaszewski D., Majewski G., Przewoźniczuk W., 2007. Oddziaływanie budownictwa kubaturowego i sztucznych źródeł ciepła na intensywność miejskiej wyspy ciepła w Warszawie. Architectura 6 (1).
- 11. Hawkins TW, Brazel AJ, Stefanov WL, Bigler W, Saffell EM. 2004. The role of rural variability in urban heat island determination for Phoenix, Arizona. Journal of Applied Meteorology 43, 476–486.
- 12. Hedquist BC, Brazel AJ. 2006. Urban, residential, and rural climate comparisons from mobile transects and fixed stations: Phoenix, Arizona. Journal of the Arizona-Nevada Academy of Science 38, 77–87.
- 13. Lakshmi, V., D. Zehrfuhs and T. Jackson, 2000. Observations of land surface temperature and its relationship to soil moisture during SGP99. In: Proc. IGARSS, 3, 1256–1258.
- 14. Landsberg H.E. 1981. The Urban Climate, vol. 28, InternationalGeophysics Series, Academic Press: New York.
- 15. Murphy D.J., Hall M.H., Hall C.A., Heisler G.M., Stehmana S.V. and Anselmi-Molinac C., 2011. The relationship between land cover and the urban heat island in northeastern Puerto Rico, Int. J. Climatol. 31, 1222–1239.
- 16. Nakamura Y, Oke TR. 1988. Wind, temperature and stability conditions in east–west oriented urban canyon. Atmos Environ 22, 2691–2700.
- 17. Oke T.R, East C. 1971. The urban boundary layer in Montreal. Boundary Layer Meteorology 1: 411–437.
- 18. Oke T.R. 1976. The distinction between canopy and boundary layer urban heat islands. Atmosphere 14, 268–277.
- 19. Oke, T.R. 1973. City size and the urban heat island. Atmospheric Environment 7, 769-779.
- 20. Oke, T.R., 1982. The energetic basis of the urban heat island. Quarterly Journal of the Royal Meteorological Society 108, 1–24.
- 21. Roth M. 2007. Review of urban climate research in (sub)tropical regions. International Journal of Climatology 27, 1859–1873.
- 22. Shaharuddin A., Noorazuan Md H., 2007. Effects of Soil Moisture on Urban Heat Island Occurrences: Case of Selangor, Malaysia, Humanity & Social Sciences Journal 2 (2), 132–138.
- 23. Statistical Office in Białystok 2015. Social and Economic situation of Białystok in 2014, Białystok.
- 24. Strecker E., Liptan T., 2003. Ecoroofs (greenroof). A More sustainable infrastructure: Paper presented at the National Conference on Urban Stormwater: Enhancing Programs at the Local Level. February, Oregon.
- 25. Taha, H., Akbari, H., Rosenfeld, A., 1991. Heat Island and Oasis effects of vegetative canopies: micro-meteorological field measurements 44, 123–138.
- 26. Torok S, Morris C, Skinner C, Plummer N,. 2001, Urban heat island features of southeast Australian towns. Australian Meteorological Magazine 50 (1), 1–13.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-40e5aa9c-2023-430a-92ef-411422e87cec