Precision of Neutron Scattering and Capacitance Type Soil Water Content Gauges from Field Calibration

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Precision of Neutron Scattering and Capacitance Type Soil Water Content Gauges from Field Calibration

S. R. Evett^*

USDA-ARS, Conservation and Production Research Lab., P.O. Drawer 10, Bushland, TX, 79012

J. L. Steiner

USDA-ARS, Southern Piedmont Conservation Research Center, Watkinsville, GA

*Corresponding author (sevett{at}asrr.arsusda.gov).

ABSTRACT

Soil water content gauges based on neutron scattering (NS) havebeen a valuable tool for soil water investigations for some40 yr. However, licensing, training, and safety regulationspertaining to the radioactive source in these gauges makes theiruse expensive and prevents use in some situations such as unattendedmonitoring. A capacitance probe (CP) gauge has characteristicsthat would seem to make it an ideal replacement for NS gauges.We determined the relative precision of two brands of NS gauges(three gauges of each) and a brand of CP gauge (four gauges)in a field calibration exercise. Both brands of NS gauges werecalibrated vs. volumetric soil water content with coefficientsof determination (r²) ranging from 0.97 to 0.99 and root meansquared errors (RMSE) <0.012 m³ m^–3 water content.Calibrations for the CP gauges resulted in r² ranging from 0.68to 0.71 and RMSE of 0.036 m³ m^–3 water content. Average95% confidence intervals on predictions were three to five timeshigher for the CP gauges than for the NS gauges, ranging from0.153 to 0.161 and 0.032 to 0.052 m³ m^–3, respectively.Although poorly correlated with soil water content, readingswere reproducible among the four CP gauges. The poor correlationfor CP gauges may be due to small-scale soil water content variationswithin the measurement volume of the gauge. The NS gauges provideacceptable precision but the CP gauge has poor precision andis unacceptable for routine soil water content measurements.

NOTES

Contribution from the USDA-ARS, Southern Plains Area, Conservationand Production Research Lab., Bushland, TX. Supported in partby USAID and USDA-OICD through the National Agricultural ResearchProject (NARP) with Egypt.

Received for publication June 20, 1994.

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				S. R. Evett, J. A. Tolk, and T. A. Howell Soil Profile Water Content Determination: Sensor Accuracy, Axial Response, Calibration, Temperature Dependence, and Precision Vadose Zone J., July 26, 2006; 5(3): 894 - 907. [Abstract] [Full Text] [PDF]

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				T. A. Howell, A. D. Schneider, and D. A. Dusek Effects of Furrow Diking on Corn Response to Limited and Full Sprinkler Irrigation Soil Sci. Soc. Am. J., January 1, 2002; 66(1): 222 - 227. [Abstract] [Full Text] [PDF]

				M.S. Seyfried and M.D. Murdock Response of a New Soil Water Sensor to Variable Soil, Water Content, and Temperature Soil Sci. Soc. Am. J., January 1, 2001; 65(1): 28 - 34. [Abstract] [Full Text]

				G.C. Starr, B. Lowery, and E.T. Cooley Soil water content determination using a network analyzer and coaxial probe Soil Sci. Soc. Am. J., May 1, 2000; 64(3): 867 - 872. [Abstract] [Full Text]

				A. Nadler, A. Gamliel, and I. Peretz Practical Aspects of Salinity Effect on TDR-Measured Water Content: A Field Study Soil Sci. Soc. Am. J., September 1, 1999; 63(5): 1070 - 1076. [Abstract] [Full Text]