Generating the 30-m land surface temperature product over continental China and USA from landsat 5/7/8 data

Generating a long-time-series, high-spatial-resolution land surface temperature (LST) product has considerable applications in monitoring water stress, surface energy and water balance at the field scale. This paper proposes an operational method to generate 30-m LSTs from thermal infrared (TIR) obs...

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Bibliographic Details
Published in:Science of Remote Sensing 2021-12, Vol.4, p.100032, Article 100032
Main Authors: Cheng, Jie, Meng, Xiangchen, Dong, Shengyue, Liang, Shunlin
Format: Article
Language:English
Subjects:
Land surface emissivity
Land surface temperature
Landsat
NDVI
Radiative transfer equation
SURFRAD
Thermal-infrared
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Summary:Generating a long-time-series, high-spatial-resolution land surface temperature (LST) product has considerable applications in monitoring water stress, surface energy and water balance at the field scale. This paper proposes an operational method to generate 30-m LSTs from thermal infrared (TIR) observations of Landsat series. Two key issues were addressed in the proposed method: one involved determining the land surface emissivity (LSE) by developing different LSE retrieval methods for specific land cover types; the other involved choosing an optimal reanalysis atmospheric profile for implementing the atmospheric correction of TIR data. After LSE determination and atmospheric correction, LST was resolved by inverting the radiative transfer equation. In situ measured LST and LSE data were used to validate the proposed method. The validation results based on the measurements from 24 sites showed that the absolute average bias of the LSE data estimated from Landsat 5/7/8 was generally within 0.01, and the standard deviations were all less than 0.002. The average biases of the retrieved LST at SURFRAD sites were 1.11/1.54/1.63 K, whereas the RMSEs were 2.72/3.21/3.02 K for Landsat 5/7/8, respectively. The average biases (RMSEs) of the retrieved LST at the BSRN and Huailai sites were 0.08 K (3.69 K) and 0.90 K (3.42 K) for Landsat 7 and Landsat 8, respectively. Furthermore, the validation results at the SURFRAD sites show that the precision and uncertainty of the retrieved Landsat 5/7/8 LSTs were all better than those of the USGS LSTs. Finally, we produced monthly composited LST maps for the Chinese landmass and continental United States using the retrieved Landsat 5/7/8 LSTs. This study provides guidance on how to estimate large-scale LSTs from satellite sensors with only one TIR channel. We will massively produce global LSTs from Landsat series TIR data and release them to the public in the next stage. •We proposed a new method to generate 30-m LSTs from the thermal-infrared observation of Landsat 5/7/8.•A new scheme was proposed for estimating the land surface emissivity.•The proposed method achieved a better accuracy of LST and LSE estimate according to in-situ validation.•The proposed method was employed to produce continental China and USA LST from Landsat 5/7/8 data.
ISSN:2666-0172
2666-0172
DOI:10.1016/j.srs.2021.100032