Sensitivity of surface soil moisture retrieval to satellite-derived vegetation descriptors over wheat fields in the Kairouan plain

IF 3.7 4区 地球科学 Q2 REMOTE SENSING
Emna Ayari, Mehrez Zribi, Zohra Lili-Chabaane, Zeineb Kassouk, Lionel Jarlan, Nemesio Rodriguez-Fernandez, Nicolas Baghdadi
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Abstract

Soil moisture estimation is a key component in hydrological processes and irrigation amounts' estimation. The synergetic use of optical and radar data has been proven to retrieve the surface soil moisture at a field scale using the Water Cloud Model (WCM). In this work, we evaluate the impact of staellite-derived vegetation descriptors to estimate the surface soil moisture. Therefore, we used the Sentinel-1 data to test the polarization ratio (σVH0/σVV0) and the normalized polarization ratio (IN) and the frequently used optical Normalized Difference vegetation Index (NDVI) as vegetation descriptors. Synchronous with Sentinel-1 acquisitions, in situ soil moisture were collected over wheat fields in the Kairouan plain in the center of Tunisia. To avoid the bare soil roughness effect and the radar signal saturation in dense vegetation context, we considered the data where the NDVI values vary between 0.25 and 0.7. The soil moisture inversion using the WCM and NDVI as a vegetation descriptor was characterized by an RMSE value of 5.6 vol.%. A relatively close performance was obtained using IN and (σVH0/σVV0) with RMSE under 7. 5 vol.%. The results revealed the consistency of the radar-derived data in describing the vegetation for the retrieval of soil moisture.
开滦平原地表土壤水分反演对卫星衍生植被描述符的敏感性
土壤水分估算是水文过程和灌水量估算的重要组成部分。光学和雷达数据的协同使用已被证明可以使用水云模型(WCM)在野外尺度上检索地表土壤水分。在这项工作中,我们评估了卫星衍生的植被描述符对估算地表土壤湿度的影响。因此,我们利用Sentinel-1卫星数据对极化比(σVH0/σVV0)、归一化极化比(IN)和常用的归一化植被指数(NDVI)作为植被描述符进行了测试。与Sentinel-1同步采集的是突尼斯中部凯鲁万平原麦田的原位土壤水分。为了避免裸地粗糙效应和植被密集环境下雷达信号饱和,我们考虑了NDVI值在0.25 ~ 0.7之间变化的数据。利用WCM和NDVI作为植被描述符反演土壤水分的RMSE值为5.6%。使用IN和(σVH0/σVV0), RMSE小于7时,获得了较为接近的性能。5 vol. %。结果表明,雷达数据在描述植被和反演土壤湿度方面具有一致性。
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来源期刊
CiteScore
7.00
自引率
2.50%
发文量
51
审稿时长
>12 weeks
期刊介绍: European Journal of Remote Sensing publishes research papers and review articles related to the use of remote sensing technologies. The Journal welcomes submissions on all applications related to the use of active or passive remote sensing to terrestrial, oceanic, and atmospheric environments. The most common thematic areas covered by the Journal include: -land use/land cover -geology, earth and geoscience -agriculture and forestry -geography and landscape -ecology and environmental science -support to land management -hydrology and water resources -atmosphere and meteorology -oceanography -new sensor systems, missions and software/algorithms -pre processing/calibration -classifications -time series/change analysis -data integration/merging/fusion -image processing and analysis -modelling European Journal of Remote Sensing is a fully open access journal. This means all submitted articles will, if accepted, be available for anyone to read anywhere, at any time, immediately on publication. There are no charges for submission to this journal.
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