Layered Soil Moisture Retrieval and Agricultural Application Based on Multi-Source Remote Sensing and Vegetation Suppression Technology: A Case Study of Youyi Farm, China
文献类型: 外文期刊
第一作者: Zhao, Zhonghe
作者: Zhao, Zhonghe;Li, Yuyang;Liu, Kun;Wu, Chunsheng;Liu, Gaohuan;Yu, Bowei;Wang, Youxiao
作者机构:
关键词: soil moisture; multi-source remote sensing; vegetation suppression; random forest; UAV multispectral imagery
期刊名称:REMOTE SENSING ( 影响因子:4.1; 五年影响因子:4.8 )
ISSN:
年卷期: 2025 年 17 卷 13 期
页码:
收录情况: SCI
摘要: Soil moisture dynamics are a key parameter in regulating agricultural productivity and ecosystem functioning. The accurate monitoring and quantitative retrieval of soil moisture play a crucial role in optimizing agricultural water resource management. In recent years, the development of multi-source remote sensing technologies-such as high spatiotemporal resolution optical, radar, and thermal infrared sensors-has opened new avenues for efficient soil moisture retrieval. However, the accuracy of soil moisture retrieval decreases significantly when the soil is covered by vegetation. This study proposes a multi-modal remote sensing collaborative retrieval framework that integrates UAV-based multispectral imagery, Sentinel-1 radar data, and in situ ground sampling. By incorporating a vegetation suppression technique, a random-forest-based quantitative soil moisture model was constructed to specifically address the interference caused by dense vegetation during crop growing seasons. The results demonstrate that the retrieval performance of the model was significantly improved across different soil depths (0-5 cm, 5-10 cm, 10-15 cm, 15-20 cm). After vegetation suppression, the coefficient of determination (R2) exceeded 0.8 for all soil layers, while the mean absolute error (MAE) decreased by 35.1% to 49.8%. This research innovatively integrates optical-radar-thermal multi-source data and a physically driven vegetation suppression strategy to achieve high-accuracy, meter-scale dynamic mapping of soil moisture in vegetated areas. The proposed method provides a reliable technical foundation for precision irrigation and drought early warning.
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