A Robust Calibration Method for Continental‐Scale Soil Water Content Measurements

Autor: Jianwu Tang, Robert Lee, Michael D. SanClements, K. Morkeski, Elizabeth de la Reguera, Derek E. Smith, David Durden, Rommel C. Zulueta, Maheteme Gebremedhin, Gregory Starr, Joshua A. Roberti, Margot McKlveen, Heidi Benstead, Henry W. Loescher, Edward Ayres
Rok vydání: 2018
Předmět:
Zdroj: Vadose Zone Journal, Vol 17, Iss 1 (2018)
ISSN: 1539-1663
Popis: Technological advances have allowed in situ monitoring of soil water content in an automated manner. These advances, along with an increase in large-scale networks monitoring soil water content, stress the need for a robust calibration framework that ensures that soil water content measurements are accurate and reliable. We have developed an approach to make consistent and comparable soil water content sensor calibrations across a continental-scale network in a production framework that incorporates a thorough accounting of uncertainties. More than 150 soil blocks of varying characteristics from 33 locations across the United States were used to generate soil-specific calibration coefficients for a capacitance sensor. We found that the manufacturer’s nominal calibration coefficients poorly fit the data for nearly all soil types. This resulted in negative (91% of samples) and positive (5% of samples) biases and a mean root mean square error (RMSE) of 0.123 cm cm (1σ) relative to reference standard measurements. We derived soil-specific coefficients, and when used with the manufacturer’s nominal function, the biases were corrected and the mean RMSE dropped to ±0.017 cm cm (±1σ). A logistic calibration function further reduced the mean RMSE to ±0.016 cm cm (±1σ) and increased the range of soil moistures to which the calibration applied by 18% compared with the manufacturer’s function. However, the uncertainty of the reference standard was notable (±0.022 cm cm), and when propagated in quadrature with RMSE estimates, the combined uncertainty of the calibrated volumetric soil water content values increased to ±0.028 cm cm regardless of the calibration function used.
Databáze: OpenAIRE
Externí odkaz: