Improvements in land surface temperature and emissivity retrieval from Landsat-9 thermal infrared data

IF 11.1 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Xiaopo Zheng, Youying Guo, Zhongliang Zhou, Tianxing Wang
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Abstract

Land surface temperature (LST) is the key parameter for characterizing the water and energy balance of the Earth’ surface. At present, thermal infrared (TIR) remote sensing provides the most efficient way to obtain accurate LST regionally and globally. Among existing satellites, the Landsat-9 could observe the Earth's surface via two TIR channels, making it possible to generate the global LST product with a remarkable spatial resolution of 100 m. Currently, the single channel method and split window method generally were used to recover LST from the Landsat-9 TIR measurements. However, accurate land surface emissivity (LSE) is needed in both algorithms, which is very difficult to obtain at the pixel scale. To overcome this issue, an improved LST and LSE separation method was proposed in this study. Firstly, the traditional water vapor scaling (WVS) method was refined to address the atmospheric effects in the satellite measurements. Then, the traditional temperature and emissivity separation method (TES) was adapted to the Landsat-9 observations with only two TIR channels. Finally, an iterative process was designed to retrieve the LST and LSE simultaneously. Validations using in-situ measured LST indicated that the root mean square error (RMSE) of the retrieved LST was around 2.92 K, outperforming the official Landsat-9 LST product with an RMSE of about 4.20 K. Taking ECOsystem Spaceborne Thermal Radiometer Experiment on Space Station (ECOSTRESS) products as the references, the RMSE of our retrieved LST and LSE was found to be < 1.55 K and < 0.015, respectively. Overall, conclusions can be made that the proposed method was able to retrieve accurate LST and LSE simultaneously from the Landsat-9 TIR measurements with high spatial resolution, which may greatly facilitate the relevant applications.
改进 Landsat-9 热红外数据的地表温度和发射率检索
陆地表面温度(LST)是表征地球表面水和能量平衡的关键参数。目前,热红外(TIR)遥感是获取区域和全球精确地表温度的最有效方法。在现有的卫星中,Landsat-9 可以通过两个热红外通道观测地球表面,因此可以生成空间分辨率高达 100 米的全球 LST 产品。然而,这两种算法都需要精确的地表发射率(LSE),而这在像素尺度上很难获得。为了克服这一问题,本研究提出了一种改进的 LST 和 LSE 分离方法。首先,针对卫星测量中的大气效应,对传统的水汽比例(WVS)方法进行了改进。然后,对传统的温度和发射率分离方法(TES)进行了调整,使其适用于只有两个红外通道的 Landsat-9 观测数据。最后,设计了一个迭代过程来同时检索 LST 和 LSE。使用原地测量的 LST 进行的验证表明,检索到的 LST 均方根误差(RMSE)约为 2.92 K,优于官方 Landsat-9 LST 产品约 4.20 K 的均方根误差;以空间站上的 ECOSTRESS 空间热辐射计实验(ECOSTRESS)产品为参考,我们检索到的 LST 和 LSE 均方根误差分别为 1.55 K 和 0.015。总之,可以得出结论,所提出的方法能够同时从 Landsat-9 TIR 高空间分辨率测量中获取精确的 LST 和 LSE,这将极大地促进相关应用。
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来源期刊
Remote Sensing of Environment
Remote Sensing of Environment 环境科学-成像科学与照相技术
CiteScore
25.10
自引率
8.90%
发文量
455
审稿时长
53 days
期刊介绍: Remote Sensing of Environment (RSE) serves the Earth observation community by disseminating results on the theory, science, applications, and technology that contribute to advancing the field of remote sensing. With a thoroughly interdisciplinary approach, RSE encompasses terrestrial, oceanic, and atmospheric sensing. The journal emphasizes biophysical and quantitative approaches to remote sensing at local to global scales, covering a diverse range of applications and techniques. RSE serves as a vital platform for the exchange of knowledge and advancements in the dynamic field of remote sensing.
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