Soil Hydraulic Properties Estimated from Evaporation Experiment Monitored by Low-Cost Sensors
2025
Tallys Henrique Bonfim-Silva | Everton Alves Rodrigues Pinheiro | Tonny José Araújo da Silva | Thiago Franco Duarte | Luana Aparecida Menegaz Meneghetti | Edna Maria Bonfim-Silva
The estimation of soil hydraulic properties&mdash:such as water retention and hydraulic conductivity&mdash:is essential for irrigation management and agro-hydrological modeling. This study presents the development and application of SOILHP, a low-cost, IoT-integrated device designed to monitor laboratory evaporation experiments for the estimation of soil hydraulic properties using inverse modeling tools. SOILHP incorporates mini-tensiometers, a precision balance, microcontrollers, and cloud-based data logging via Google Sheets. SOILHP enables the remote, real-time acquisition of soil pressure head and mass variation data without the need for commercial dataloggers. Evaporation experiments were conducted using undisturbed soil samples, and inverse modeling with Hydrus-1D was used to estimate van Genuchten&ndash:Mualem parameters. The optimized parameters showed low standard errors and narrow 95% confidence intervals, demonstrating the robustness of the inverse solution, confirming the device&rsquo:s sensors accuracy. Forward simulations of internal drainage were performed to estimate the field capacity under different drainage flux criteria. The field capacity results aligned with values reported in the literature for tropical soils. Overall, SOILHP proved to be a reliable and economically accessible alternative for monitoring evaporation experiments aimed at fitting parameters of analytical functions that describe water retention and hydraulic conductivity properties within the soil pressure head range relevant to agriculture.
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