The relationships between urban-rural temperature difference and vegetation in eight cities of the Great Plains
作者:Yaoping CUI,Xiangming XIAO,Russell B DOUGHTY,Yaochen QIN,Sujie LIU,Nan LI,Guosong ZHAO,Jinwei DONG
摘要:Interpreting the relationship between urban heat island (UHI) and urban vegetation is a basis for understanding the impacts of underlying surfaces on UHL The calculation of UHI intensity (UHII) requires observations from paired stations in both urban and rural areas.Due to the limited number of paired meteorological stations,many studies have used remotely sensed land surface temperature,but these time-series land surface temperature data are often heavily affected by cloud cover and other factors.These factors,together with the algorithm for inversion of land surface temperature,lead to accuracy problems in detecting the UHII,especially in cities with weak UHII.Based on meteorological observations from the Oklahoma Mesonet,a world-class network,we quantified the UHII and trends in eight cities of the Great Plains,USA,where data from at least one pair of urban and rural meteorological stations were available.We examined the changes and variability in urban temperature,UHII,vegetation condition (as measured by enhanced vegetation index,EVI),and evapotranspiration (ET).We found that both UHI and urban cold islands (UCI) occurred among the eight cities during 2000-2014 (as measured by impervious surface area).Unlike what is generally considered,UHII in only three cities significantly decreased as EVI and ET increased (p < 0.1),indicating that the UHI or UCI cannot be completely explained simply from the perspective of the underlying surface.Increased vegetative cover (signaled by EVI) can increase ET,and thereby effectively mitigate the UHI.Each study station clearly showed that the underlying surface or vegetation affects urban-rural temperature,and that these factors should be considered during analysis of the UHI effect over time.
發文機構:Laboratory of Geospatial Technology for the Middle and Lower Yellow River Regions Department of Microbiology and Plant Biology Ministry of Education Key Laboratory of Biodiversity Science and Ecological Engineering Institute of Geographic Sciences and Natural Resources Research
關鍵詞:URBANIZATIONEVAPOTRANSPIRATIONurbancoldISLANDbackgroundclimateairtemperature
分類號: P[天文地球]
CSCD- Spatiotemporal influences of land use/cover changes on the heat island effect in rapid urbanization area
- A simplified index to assess the combined impact of tropical cyclone precipitation and wind on China
- Land use and land cover classification using Chinese GF-2 multispectral data in a region of the North China Plain
- Erosion-deposition patterns and depo-center movements in branching channels at the near-estuary reach of the Yangtze River
- Metal accumulation in Asiatic clam from the Lower Min River (China) and implications for human health
- Estimation of copper concentration of rocks using hyperspectral technology
- Chemical and minero-petrographical changes on granulite rocks affected by weathering processes
- BMA probability quantitative precipitation forecasting of land-falling typhoons in south-east China
- Accumulation of unconventional petroleum resources and their coexistence characteristics in Chang7 shale formations of Ordos Basin in central China
- Improvement of typhoon rainfall prediction based on optimization of the Kain-Fritsch convection parameterization scheme using a micro-genetic algorithm