Nitrate Concentrations in the Root Zone Estimated Using Time Domain Reflectometry
1999
Das, Bhabani S. | Wraith, Jon M. | Inskeep, William Parks
Improved ability to monitor soil water and ionic chemical distributions in field soils will contribute to better land management opportunities. We evaluated the potential to use time domain reflectometry (TDR) to simultaneously estimate volumetric soil water content (θ), soil solution electrical conductivity (σw), and soil nitrate concentrations in an irrigated peppermint (Mintha piperita L.) field using simple models and calibration methods. Two models and three calibration approaches for estimating σw from TDR were compared to σw obtained from soil cores and soil solution samplers at three depths, and over a wide range in applied KNO₃ The applied N rates were well within those commonly used in peppermint production. Soil nitrate concentrations were estimated based on TDR σw predictions and a simple linear calibration of σw vs. nitrate concentration and then compared to independent soil core measurements. Estimates of σw and nitrate concentrations using TDR exhibited similar pattern, magnitude, and variance to those based on direct soil measurements. The Mualem and Friedman (1991) model (MF), which is based on soil water retention measurements, provided σw and nitrate estimates in better agreement with soil cores than did the Rhoades et al. (1976) model. Our results suggest that simple physical–conceptual models combined with laboratory or field parameter estimation methods may be suitable for automated real-time field monitoring.
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