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 manu...
Measuring soil water content by capacitance probes requires rigorous calibration to achieve acceptab...
Soil water content is an important parameter in many engineering, agricultural and environmental app...
Wireless sensor networks are becoming more popular to monitor spatial and temporal variability of so...
© Soil Science Society of America, 2018. This article is distributed under the terms of the Creative...
Soil water content (SWC) monitoring is often used to optimize agricultural irrigation. Commonly, cap...
The physical properties of soil, such as structure and texture, can affect the performance of an ele...
Single capacitance sensors are sensitive to soil property variability. The objectives of this study ...
Soil water content is a key variable for understanding and modelling ecohydrological processes. Low-...
Soil water content (SWC) monitoring is often used to optimize agricultural irrigation. Commonly, ca...
Spatially variable soil properties influence the performance of soil water content monitoring sensor...
Single capacitance sensors are sensitive to soil property variability. The objectives of this study ...
Wireless sensor network technology has recently been used for high spatial and temporal resolution s...
Spatially variable soil properties influence the performance of soil water content monitoring sensor...
Soil moisture sensors infer volumetric soil water content (SWC) from other properties of the bulk po...
Capacitance sensors have improved substantially in the last decades, resulting in their wide accepta...
Measuring soil water content by capacitance probes requires rigorous calibration to achieve acceptab...
Soil water content is an important parameter in many engineering, agricultural and environmental app...
Wireless sensor networks are becoming more popular to monitor spatial and temporal variability of so...
© Soil Science Society of America, 2018. This article is distributed under the terms of the Creative...
Soil water content (SWC) monitoring is often used to optimize agricultural irrigation. Commonly, cap...
The physical properties of soil, such as structure and texture, can affect the performance of an ele...
Single capacitance sensors are sensitive to soil property variability. The objectives of this study ...
Soil water content is a key variable for understanding and modelling ecohydrological processes. Low-...
Soil water content (SWC) monitoring is often used to optimize agricultural irrigation. Commonly, ca...
Spatially variable soil properties influence the performance of soil water content monitoring sensor...
Single capacitance sensors are sensitive to soil property variability. The objectives of this study ...
Wireless sensor network technology has recently been used for high spatial and temporal resolution s...
Spatially variable soil properties influence the performance of soil water content monitoring sensor...
Soil moisture sensors infer volumetric soil water content (SWC) from other properties of the bulk po...
Capacitance sensors have improved substantially in the last decades, resulting in their wide accepta...
Measuring soil water content by capacitance probes requires rigorous calibration to achieve acceptab...
Soil water content is an important parameter in many engineering, agricultural and environmental app...
Wireless sensor networks are becoming more popular to monitor spatial and temporal variability of so...