Spatiotemporal Evolution Characteristics of Urban Land Surface Temperature Based on Local Climate Zones in Xi'an Metropolitan, China

Local climate zones (LCZs) are an effective nexus linking internal urban structures to the local climate and have been widely used to study urban thermal environment. However, few studies considered how much the temperature changed due to LCZs transformation and their synergy. This paper quantified the change of urban land surface temperature (LST) in LCZs transformation process by combining the land use transfer matrix with zonal statistics method during 2000-2019 in the Xi'an metropolitan. The results show that, firstly, both LCZs and LST had significant spatiotemporal variations and synchrony. The period when the most LCZs were converted was also the LST rose the fastest, and the spatial growth of the LST coincided with the spatial expansion of the built type LCZs. Secondly, the LST difference between land cover type LCZs and built type LCZs gradually widened. And LST rose more in both built type LCZs transferred in and out. Finally, the Xi'an-Xianyang profile showed that the maximum temperature difference between the peaks and valleys of the LST increased by 4.39 degrees C, indicating that localized high temperature phenomena and fluctuations in the urban thermal environment became more pronounced from 2000 to 2019.