Počet záznamů: 1  

Statistical analyses of Land Surface Temperature in Local Climate Zones: Case study of Brno and Prague (Czech Republic)

  1. 1.
    0485079 - ÚVGZ 2019 RIV US eng C - Konferenční příspěvek (zahraniční konf.)
    Geletič, Jan - Dobrovolný, Petr - Lehnert, M.
    Statistical analyses of Land Surface Temperature in Local Climate Zones: Case study of Brno and Prague (Czech Republic).
    Joint Urban Remote Sensing Event. In: JOINT URBAN REMOTE SENSING EVENT (JURSE). New York: IEEE, 2017. ISBN 978-1-5090-5808-2. ISSN 2334-0932.
    [Joint Urban Remote Sensing Event (JURSE). Dubai (AE), 06.03.2017-08.03.2017]
    Grant CEP: GA MŠMT(CZ) LO1415
    Grant ostatní: EHP,MF ČR(CZ) EHP-CZ02-OV-1-036-2015
    Program: CZ02 Biodiverzita a ekosystémové služby / Monitorování a integrované plánování a kontrola v životním prostředí/ Adaptace na změnu klimatu
    Institucionální podpora: RVO:86652079
    Klíčová slova: Land Surface Temperature * Local Climate Zones * aster * landsat * Analysis of variance
    Obor OECD: Meteorology and atmospheric sciences

    The classification of local climate zones (LCZs) emerged in urban climatology to standardize description of urban climate research sites. One of the goals of classification was to get beyond urban-rural dichotomy which enabled to study urban air temperature field in more detail. Based on empirical and modelling work LCZ have proven effective in examining intra-urban air temperature differences, however a robust examination of intra-urban land surface temperatures using the LCZ framework remains elusive. In this study a GIS-based method is used for LCZ delimitation in Prague and Brno (Czech Republic), while land surface temperatures (LSTs) derived from LANDSAT and ASTER satellite data are employed for exploring the extent to which LCZ classes discriminate with respect to LSTs. Results indicate that LCZs demonstrate the features typical of LST variability, and thus typical surface temperatures differ significantly among most LCZs. ANOVA and subsequent multiple comparison tests demonstrated that significant temperature differences between the various LCZs prevail in both cities (89.3% and 91.6% significant LST differences for Brno and Prague respectively). In general, LCZ 8 (large low-rise buildings), LCZ 10 (heavy industry) and LCZ D (low plants) are well-distinguishable, while LCZ 2 (compact midrise), LCZ 4 (open high-rise), and LCZ 9 (sparsely built-up) are less distinguishable in terms of their LST. In most of the scenes LCZ 10 (heavy industry), LCZ 2 (mid-rise buildings) and LCZ 3 (low-rise building) are the warmest and LCZ G (water bodies) and LCZ A (dense forest) are the coolest zones in term of their LST. Further studies are needed to account for observational errors (such as seasons differences or thermal anisotropy) on LCZ LST patterns.
    Trvalý link: http://hdl.handle.net/11104/0280180

     
     
Počet záznamů: 1  

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