EGU2020-12971
https://doi.org/10.5194/egusphere-egu2020-12971
EGU General Assembly 2020
© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Study on Urban Thermal Environment based on Diurnal Temperature Range

Zheng Guo1 and Miaomiao Cheng2
Zheng Guo and Miaomiao Cheng
  • 1National Satellite Meteorological Center, Division of Remote Sensing Data Application, China (guozheng@cma.gov.cn)
  • 2Chinese Research Academy of Environmental Sciences, Institute of atmospheric environment, China(chengmm@craes.org.cn)

Diurnal temperature range (includes land surface temperature diurnal range and near surface air temperature diurnal range) is an important meteorological parameter, which is a very important factor in the field of the urban thermal environmental. Nowadays, the research of urban thermal environment mainly focused on surface heat island and canopy heat island.

Based on analysis of the current status of city thermal environment. Firstly, a method was proposed to obtain near surface air temperature diurnal range in this study, difference of land surface temperature between day and night were introduced into the improved temperature vegetation index feature space based on remote sensing data. Secondly, compared with the district administrative division, we analyzed the spatial and temporal distribution characteristics of the diurnal range of land surface temperature and near surface air temperature.

The conclusions of this study are as follows:

1 During 2003-2012s, the land surface temperature and near surface air temperature diurnal range of Beijing were fluctuating upward. The rising trend of the near surface air temperature diurnal range was more significant than land surface temperature diurnal range. In addition, the rise and decline of land surface temperature and near surface air temperature diurnal range in different districts were different. In the six city districts, the land surface temperature and near surface air temperature diurnal range in the six areas of the city were mainly downward. The decline trend of near surface air temperature diurnal range was more significant than land surface temperature diurnal range.

2 During 2003-2012s, the land surface temperature and near surface air temperature diurnal range of Beijing with similar characteristics in spatial distribution, with higher distribution land surface temperature and near surface air temperature diurnal range in urban area and with lower distribution of land surface temperature and near surface air temperature diurnal range in the Northwest Mountainous area and the area of Miyun reservoir.

How to cite: Guo, Z. and Cheng, M.: Study on Urban Thermal Environment based on Diurnal Temperature Range, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-12971, https://doi.org/10.5194/egusphere-egu2020-12971, 2020