Publication Details

Category Text Publication
Reference Category Journals
DOI 10.3390/rs11243021
Licence creative commons licence
Title (Primary) Multi-scale relationship between land surface temperature and landscape pattern based on wavelet coherence: The case of metropolitan Beijing, China
Author Wu, Q.; Tan, J.; Guo, F. ORCID logo ; Li, H.; Chen, S.
Source Titel Remote Sensing
Year 2019
Department SUSOZ
Volume 11
Issue 24
Page From art. 3021
Language englisch
Keywords land surface temperature; landscape pattern; multi-scale analysis; wavelet coherence; Pearson correlation coefficient; distribution index
Abstract The relationship between urban landscape pattern and land surface temperature (LST) is one of the core issues in urban thermal environment research. Although previous studies have shown a significant correlation between LST and landscape pattern, most were conducted at a single scale and rarely involve multi-scale effects of the landscape pattern. Wavelet coherence can relate the correlation between LST and landscape pattern to spatial scale and location, which is an effective multi-scale correlation method. In this paper, we applied wavelet coherence and Pearson correlation coefficient to analyze the multi-scale correlations between landscape pattern and LST, and analyzed the spatial pattern of the urban thermal environment during the urbanization of Beijing from 2004 to 2017 by distribution index of high-temperature center (HTC). The results indicated that the HTC of Beijing gradually expands from the main urban zone and urban function extended zone to the new urban development zone and far suburb zone, and develops from monocentric to polycentric spatial pattern. Land cover types, such as impervious surfaces and bare land, have a positive contribution to LST, while water and vegetation play a role in mitigating LST. The wavelet coherence and Pearson correlation coefficients showed that landscape composition and spatial configuration have significant effects on LST, but landscape composition has a greater effect on LST in Beijing metropolitan area. Landscape composition indexes (NDBI and NDVI) showed significant multi-scale characteristics with LST, especially at larger scales, which has a strong correlation on the whole transect. There was no significant correlation between the spatial configuration indexes (CONTAG, DIVISION, and LSI) and LST at smaller scales, only at larger scales near the urban area has a significant correlation. With the increase of the scale, Pearson correlation coefficient calculated by spatial rectangle sampling and wavelet coherence coefficient have the same trend, although it had some fluctuations in several locations. However, the wavelet coherence coefficient diagram was smoother and less affected by position and rectangle size, which more conducive to describe the correlation between landscape pattern index and LST at different scales and locations. In general, wavelet coherence provides a multi-scale method to analyze the relationship between landscape pattern and LST, helping to understand urban planning and land management to mitigate the factors affecting urban thermal environment.
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=22612
Wu, Q., Tan, J., Guo, F., Li, H., Chen, S. (2019):
Multi-scale relationship between land surface temperature and landscape pattern based on wavelet coherence: The case of metropolitan Beijing, China
Remote Sens. 11 (24), art. 3021 10.3390/rs11243021