Affiliation:
1. Department of Agricultural Sciences Saga University Saga Japan
2. Department of Irrigation and Water Management Bangladesh Agricultural University Mymensingh Bangladesh
Abstract
AbstractThis study developed a uniplanar multirod time domain reflectometry (TDR) probe and evaluated it in laboratory experiments for soil water measurement over a larger spatial scale. The sampling volume of the probe was determined by simulating the electric potential distribution around the probe rods by using the HYDRUS‐2D software package and verified by comparison with the measured dielectric constant in saturated sand. The performance of the probe was evaluated by comparing its dielectric measurements in wet sand over a wide range of water content during evaporative drying with that measured by CS640 probes. Additionally, the dependency of visible light reflection on the water content of the sand was evaluated. The results revealed that the average effective thickness of the probe's sampling volume was 5–6 cm on both sides of the plane of the probe rods. The probe accurately measured the soil water content over a 0.88 m2 spatial area. The visible light reflectance of the variably saturated sand surface and the corresponding water content of the sand follow a soil water retention function‐type relationship. The usage of the multirod TDR measurement system at a larger spatial scale carries practical implications, especially in increasing the accuracy of remote sensing data.
Subject
Soil Science,Agronomy and Crop Science
Reference45 articles.
1. Estimation of Surface Soil Moisture With Downscaled Land Surface Temperatures Using a Data Fusion Approach for Heterogeneous Agricultural Land
2. Estimation of Evapotranspiration and Soil Water Content at a Regional Scale Using Remote Sensing Data
3. Upscaling sparse ground-based soil moisture observations for the validation of coarse-resolution satellite soil moisture products
4. De Nijs A.&De Jeu R.(2023)Planetary variables: soil water content (SWC) spatial and temporal validation. Available from:https://assets.planet.com/docs/Soil_Water_Content_Validation_Whitepaper.pdf. Retrieved on 12 February 2023.
5. Everson C.S. Mengistu M.G.&Vather T.(2017)The validation of the variables (evaporation and soil water) in hydrometeorological models: phase II application of cosmic ray probes for soil water measurement. Water Research Commission Pretoria South Africa WRC Report (2323/1) 17.