Urban space and climate: Introduction to the Special Issue

ADAMS, J. B., GILLESPIE, A. R. (2006): Remote Sensing of Landscapes with Spectral Images: A Physical Modelling Approach. Cambridge University Press.10.1017/CBO9780511617195Search in Google Scholar

BAKLANOV, A. A., NUTERMAN, R. B. (2009): Multi-scale atmospheric environment modelling for urban areas. Adv. Sci. Res., 3: 53–57.Search in Google Scholar

BERANOVÁ, R., HUTH, R. (2005): Long term changes of the heat island of Prague under different synoptic conditions. Theoretical and Applied Climatology, 82: 113–118.10.1007/s00704-004-0115-ySearch in Google Scholar

BOKWA, A. (2011): The Urban Heat Island in Krakow, Poland: Interaction Between Land Use and Relief. Moravian Geographical Report, 19(3): 2–7.Search in Google Scholar

BORNSTEIN, R., THUNIS, P., SCHAYES, G. (1993): Invited Paper Simulation of urban barrier effects on polluted urban boundary layers using the three-dimensional URBMET/TVM model with urban topography – new results from New York City. Computational Mechanics Publications, Ashurst Lodge, Ashurst, Southampton, 15–34.Search in Google Scholar

BOTTYÁN, Z., KIRCSI, A., SZEGEDI, S., UNGER, J. (2005): The relationship between built-up areas and the spatial development of the mean maximum urban heat island in Debrecen, Hungary. International Journal of Climatology 25: 405–418.10.1002/joc.1138Search in Google Scholar

BOUFIDOU, E., COMMANDEUR, T. J. F., NEDKOV, S. B., ZLATANOVA, S. (2011): Measure the Climate, model the City. In: Fendel, Ledoux, Rumor&Zlatanova [eds.]: Proceedings of the 28^th UDMS, International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXVIII-4/C21: 59–66.10.5194/isprsarchives-XXXVIII-4-C21-59-2011Search in Google Scholar

CONLON, K. C., RAJCHOVICH, N. B., WHITE-NEWSOME, J. L., LARSEN, L., O’NEILL M. S. (2011): Preventing cold-related morbidity and mortality in a changing climate. Maturitas, 69: 197–202.10.1016/j.maturitas.2011.04.004Search in Google Scholar

DESSAI, S. (2002): Heat stress and mortality in Lisabon. Part I. Model construction and validation. International Journal of Biometeorology, 48(1): 37–44.Search in Google Scholar

DOBROVOLNÝ, P. (2013): The surface heat island in the city of Brno (Czech Republic) derived from land surface temperatures and selected reasons for its spatial variability. Theoretical and Applied Climatology. 112 (1–2): 89–98.10.1007/s00704-012-0717-8Search in Google Scholar

DOBROVOLNÝ, P. et al. (2012): Klima Brna. Víceúrovňová analýza městského klimatu. Masarykova Univerzita, Brno.Search in Google Scholar

GABRIEL, K. M., ENDLICHER, W. R. (2011): Urban and rural mortality rates during heat waves in Berlin and Brandenburg, Germany. Environmental Pollution, 159: 2044–2050.10.1016/j.envpol.2011.01.016Search in Google Scholar

GELETIČ, J., VYSOUDIL, M. (2012): Analysis of surface temperatures in urban and suburban landscapes from satellite thermal images: a case study of Olomouc and its environs, Czech Republic. Moravian Geographical Reports, 20(1): 55–69.Search in Google Scholar

GLEUGH, H. A.; OKE, T. K. (1986):Suburban-rural balance comparisons in summer for Vancouver, B.C. Boundary Layer Meteorology, 36(4): 351–370.Search in Google Scholar

GÓMEZ-ACEBO, I., DIERSSEN-SOTOS, T., LLORCA, J. (2010): Effect of cold temperatures on mortality in Cantabria (Northern Spain): a case-crossover study. Public Health, 124(7): 398–403.10.1016/j.puhe.2010.03.025Search in Google Scholar

GRIMMOND, C. S. B. (1992): The suburban energy balance: methodological considerations and results for a mid-latitude west coast city under winter and spring conditions. International Journal of Climatology, 12: 481–497.10.1002/joc.3370120506Search in Google Scholar

HAFFNER, J., KIDDER, S. Q. (1999): Urban Heat Island Modelling in Conjunction with Satellite-Derived Surface/Soil Parameters. Journal of Applied Meteorology and Climatology, 38(4): 448–465.10.1175/1520-0450(1999)038<0448:UHIMIC>2.0.CO;2Search in Google Scholar

HART, M. A., SAILOR, D. J. (2009): Quantifying the influence of land-use and surface characteristics on spatial variability in the urban heat island. Theoretical and Applied Climatology, 95(3–4): 397–406.10.1007/s00704-008-0017-5Search in Google Scholar

HATTIS, D., OGNEVA-HIMMELBERGER, Y., RATICK, S. (2012): The spatial variability of heat-related mortality in Massachusetts. Applied Geography, 33: 45–52.10.1016/j.apgeog.2011.07.008Search in Google Scholar

HUTH, R., KYSELÝ, J., POKORNÁ, L. (2000): A GCM simulation of heat waves, dry spells, and their relationship to circulation. Climatic Change, 46 (1–2): 29–60.10.1023/A:1005633925903Search in Google Scholar

HOUET T., PIGEON G. (2011): Mapping urban climate zones and quantifying climate behaviours – An application on Toulouse urban area (France). Environ. Pollut., 159(8–9): 2180–2192.10.1016/j.envpol.2010.12.027Search in Google Scholar

HOWARD, L. (2007): The Climate of London. IAUC edition available at www.lulu.com in two volumes.Search in Google Scholar

HOWARD, L. (1883): The Climate of London, Deduced from Meteorological Observations, Made at Different Places in the Neighbourhood of the Metropolis. 2 vols. London: W. Philips 1818–1820. Rev. Ed.Search in Google Scholar

JERNEJ, S. (2000): Planungsrelevante Stadtklimaanalyze Laibach / Ljubljana. Graz, Ph.D. Thesis. Karl-Franzens Universität, Graz.Search in Google Scholar

KARL, T., KNIGHT, R. (1997): The 1995 Chicago Heat wave: How likely is a recurrence? Bulletin of American Meteorological Society, 78(6): 11007–1119.10.1175/1520-0477(1997)078<1107:TCHWHL>2.0.CO;2Search in Google Scholar

KOPEC, R. J. (1970): Further Observations of the Urban Heat Island in a Small City. Bulletin of the American Meteorological Society, 51(7): 602–606.10.1175/1520-0477(1970)051<0602:FOOTUH>2.0.CO;2Search in Google Scholar

KUSAKA, H., KONDO, H., KIKEGAWA, Y., KIMURA, F. (2001): A simple single-layer urban canopy model for atmospheric models: Comparison with multilayer and slab models. Boundary-Layer Meteorology, 101(3): 329–358.10.1023/A:1019207923078Search in Google Scholar

KYSELÝ, J., DUBROVSKÝ, M. (2005): Simulation of extreme temperature events by a stochastic weather generator: effects if interdiurnal and interannual variability reproduction. International Journal of Climatology, 25(2): 251–269.10.1002/joc.1120Search in Google Scholar

KYSELÝ, J., KŘÍŽ, B. (2008): Decreased impacts of the 2003 heat waves on mortality in the Czech Republic: an improved response? International journal of biometeorology 52(8): 733–745.10.1007/s00484-008-0166-3Search in Google Scholar

LANDSBERG, H. E. (1981): The Urban Climate. New York, Academic Press.Search in Google Scholar

LEHNERT, M., GELETIČ, J., HUSÁK, J., VYSOUDIL, M. (2014): Urban field classification by “local climate zones” in a medium-sized Central European city: the case of Olomouc (Czech Republic). Theoretical and Applied Climatology (pp. 1–11). Wien, Springer-Verlag. DOI: 10.1007/s00704-014-1309-6.10.1007/s00704-014-1309-6Search in Google Scholar

LEMONSU, A., GRIMMOND, C. S. B., MASSON, V. (2004): Modelling the surface energy balance of an old mediterranean city: Marseille. Journal of Applied Meteorology, 43(2): 312–327.10.1175/1520-0450(2004)043<0312:MTSEBO>2.0.CO;2Search in Google Scholar

MASSON, V., GRIMMOND, C. S. B., OKE, T. R. (2002): Evaluation of the Town Energy Balance (TEB) scheme with direct measurements from dry districts in two cities. Journal of Applied Meteorology, 41: 1011–1026.10.1175/1520-0450(2002)041<1011:EOTTEB>2.0.CO;2Search in Google Scholar

MASSON, V., (2006): Urban surface modelling and the meso-scale impact of cities. Theoretical and Applied Climatology, 84: 35–45.10.1007/s00704-005-0142-3Search in Google Scholar

MESEV, V. [ed.]. (2003): Remotely sensed cities. Taylor and Francis, London and New York.10.1201/9781482264678Search in Google Scholar

MILLS, G. (1997): An urban canopy-layer climate model. Theoretical and Applied Climatology, 57(3–4): 229–244.10.1007/BF00863615Search in Google Scholar

NICHOL, J. E. (1998): Visualisation of urban surface temperatures derived from satellite images. International Journal of Remote Sensing, 19(5): 1639–1649.10.1080/014311698215153Search in Google Scholar

OKE, T. R. (1987): Boundary Layer Climates. Methuen, London.Search in Google Scholar

OKE, T. R. (1981): Canyon geometry and the nocturnal heat island: comparison of scale model and field observations. Journal of Climatology, 1(3): 237–254.10.1002/joc.3370010304Search in Google Scholar

OKE, T. R. (2006a): Initial guidance to obtain representative meteorological observations at urban sites. IOM Report No. 81, WMO/TD No. 1250. Geneva, World Meteorological Organization.Search in Google Scholar

OKE, T. R. (2006b): Towards better scientific communication in urban climate. Theoretical and Applied Climatology, 84: 179–190.10.1007/s00704-005-0153-0Search in Google Scholar

OZAWA, A. et al. (2004): Airborne hyperspectral and thermal information for assessing the heat island in urban areas of Japan [online]. [cit. 10.09.2007]. Available at: http://www.isprs.org/istanbul2004/comm7/papers/9.pdfSearch in Google Scholar

PÁLDY, A., BOBVOS, J., VÁMOS, A., KOVATS, R. S., HAJAT, S. (2005): The effect of temperature and heat waves on daily mortality in Budapest, Hungary, 1970–2000. In: Kirch, W., Menne, B., Bertollini, R. [eds.)] Extreme Weather Events and Public Health Responses (pp. 99–107). World Health Organization. Berlin, Springer.10.1007/3-540-28862-7_10Search in Google Scholar

PIELKE Sr., R. A. (2013): Meteorological Modelling. 3rd Edition. Academic Press, Elsevier Inc.Search in Google Scholar

POLČÁK, N., SOTÁK, Š. (2002): Analýza terénnych meraní teploty vzduchu v Banskej Bystrici. In. Baran, V.: Banská Bystrica v geografickej realite času a priestoru: 152–159.Search in Google Scholar

QUITT, E. (1956): Příspěvek k metodice výzkumů teplotních poměrů měst. Meteorologické zprávy, 1: 69–74.Search in Google Scholar

QUITT, E: (1972): Měřící jízdy jako jedna z cest k racionalizaci mezoklimatického výzkumu. Meteorologické zprávy, 26(6): 172–176.Search in Google Scholar

SEDLÁK, P., PRISLINGER, J., VYSOUDIL, M. (2010): Využití dat z družice LANDSAT pro detekci tepelného znečištění v městské a příměstské krajině. In: Scientific Papers of the University of Pardubice – Series D 16. (1/2010) (pp. 264–278). Pardubice, Univerzita Pardubice, Faculty of Economics and Administration.Search in Google Scholar

SAVIĆ, S., MILOŠEVIĆ D., LAZIĆ L., MARKOVIĆ V., ARSENOVIĆ D. P. (2013): Classifying Urban Meteorological Stations Sites by “Local Climate Zones”: Preliminary Results for the City of Novi Sad (Serbia). Geographica Pannonica, 17(3): 60–68.10.5937/GeoPan1303060SSearch in Google Scholar

SHERIDAN, S. C., DOLNEY, T. J. (2003): Heat, mortality, and level of urbanization: measuring vulnerability across Ohio, USA. Climate Research, 24: 255–265.10.3354/cr024255Search in Google Scholar

SCHÄR, C., VIDALE, P. L., LÜTHI, D., FREI, C., HÄBERLI, C., LINIGER, M. A., APPENZELLER, C. (2004): The role of increasing temperature variability in European summer heatwaves. Nature, 427(6972): 332–336.10.1038/nature02300Search in Google Scholar

SIEVERS, U., ZDUNKOWSKI, W. (1986): A microscale urban climate model. Beitr. Phys. Atmosph. 59: 13–40.Search in Google Scholar

SIEVERS, U. (1990): Dreidimensionale Simulationen in Stadtgebieten. Umweltmeteorologie: Sitzung des Hauptausschusses II am 7. und 8. Juni 1990 in Lahnstein. Schriftenreihe Band 15: 36–43. Düsseldorf, Kommission Reinhaltung der Luft im VDI und DIN.Search in Google Scholar

SIEVERS, U. (2014): Das kleinskalige Strömungsmodell MUKLIMO_3 Teil 2: Thermodynamische Erweiterungen. Berichte des Deutschen Wetterdienstes Entwurf, Offenbach am Main, Germany.Search in Google Scholar

SMOYER, K. E., KALKSTEIN, L. S., GREENE, J. S., YE, H. (2000): The impacts of weather and pollution on human mortality in Birmingham, Alabama and Philadelphia, Pennsylvania. International Journal of Climatology, 20(8): 881–897.10.1002/1097-0088(20000630)20:8<881::AID-JOC507>3.0.CO;2-VSearch in Google Scholar

SOLOMON, S., QIN, D., MANNING, M., MARQUIS M., AVERYT, K., TIGNOR, M. M. B., LeROY MILLER, H., Jr. (2007): Climate Change 2007: The Physical Science Basis, Cambridge University Press, Cambridge, New York, Melbourne, Madrid, Cape Town, Singapore, São Paulo, Delhi.Search in Google Scholar

SOUCH, K., GRIMMOND, S. (2006): Applied climatology: urban climate. Progress in Physical Geography, 30(2): 270–279.10.1191/0309133306pp484prSearch in Google Scholar

STEWART, I. D., OKE T. R. (2009): Conference notebook – A new classification system for urban climate sites. Bulletin of the American Meteorological Society 90: 922–923.Search in Google Scholar

STEWART, I. D., OKE T. R. (2012): Local Climate Zones for Urban Temperature Studies Bull. Amer. Meteor. Soc., 93: 1879–1900.Search in Google Scholar

SUNDBORG, A. (1950): Local Climatological Studies of the Temperature Conditions in an Urban Area. Tellus, 2: 222–232.10.3402/tellusa.v2i3.8544Search in Google Scholar

SWAID, H. (1993): Urban climate effects of artificial heat sources and ground shadowing by buildings. International Journal of Climatology, 13(7): 797–812.10.1002/joc.3370130707Search in Google Scholar

ŠŤASTNÝ, P. (1996): Výsledky mobilných meraní teploty a vlhkosti vzduchu v Košiciach. Zborník prác SHMÚ 39: 79–111. Bratislava, Slovenský hydrometeorologický ústav.Search in Google Scholar

TERJUNG, W. H. (1970): The Energy Balance Climatology of a City-Man System. Annals of the Association of American Geographers, 60(3): 466–492.10.1111/j.1467-8306.1970.tb00736.xSearch in Google Scholar

UNGER, J., SÜMEGHY, Z., ZOBOKI, J. (2001): Temperature cross-section features in an urban area. Atmospheric Research 58: 117–127.10.1016/S0169-8095(01)00087-4Search in Google Scholar

UNGER, J., LELOVICS, E., GÁL, T. (2014): Local Climate Zone mapping using GIS methods in Szeged. Hungarian Geographical Buletin, 63(1): 29–41.10.15201/hungeobull.63.1.3Search in Google Scholar

VYSOUDIL, M. (2010): Místní klimatické efekty: Výskyt a projevy v městské a krajině. Geographia Cassoviensis. 4(1): 176–179.Search in Google Scholar

VYSOUDIL, M. et al. (2012): Podnebí Olomouce. Climate of Olomouc. Vydavatelství Univerzity Palackého, Olomouc.Search in Google Scholar

WENG, Q., LU, D., SCHUBRING, J. (2004): Estimation of land surface temperature–vegetation abundance relationship for urban heat island studies. Remote Sensing of Environment, 89: 467–483.10.1016/j.rse.2003.11.005Search in Google Scholar

WENG, Q., QUATTROCHI, D. A. (2007): Urban Remote Sensing. CRC Press, Taylor & Francis Group, LLC.10.1201/b15917Search in Google Scholar

WENG, Q. (2009): Thermal infrared remote sensing for urban climate and environmental studies: Methods, applications, and trends. ISPRS Journal of Photogrammetry and Remote Sensing, 64(4): 335–344.10.1016/j.isprsjprs.2009.03.007Search in Google Scholar

WU, P. C., LIN, C. Y., LUNG, S. C., GUO, H. R., CHOU, C. H., SU, H. J. (2010): Cardiovascular mortality during heat and cold events: determinants of regional vulnerability in Taiwan. Occup Environ Med., 68: 525–530.Search in Google Scholar

YAMAGUCHI, Y., KATO, S. (2007): Using ASTER Data to Study the Urban Heat-Island Effect. The Earth Observer, 19(4): 4–7.Search in Google Scholar

YOSHIKADO, H. (1992): Numerical Study of the Daytime Urban Effect and Its Interaction with the Sea Breeze. Journal of Applied Meteorology, 31(10): 1146–1164.Search in Google Scholar

YOSHINO, M. M. (1975): Climate in a small area. An introduction to Local Meteorology. Tokyo, University Tokyo Press.Search in Google Scholar