Evaluation of a Line Heat Dissipation Sensor for Measuring Soil Matric Potential

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Evaluation of a Line Heat Dissipation Sensor for Measuring Soil Matric Potential

Clive F. Reece^*

Department of Soil, Water, and Climate, 1991 Upper Buford Cir., Univ. of Minnesota, St. Paul, MN 55108

*Corresponding author (creece{at}soils.umn.edu).

ABSTRACT

The accuracy and operational limits of a new heat dissipationsensor for measuring soil matric potential are evaluated. Themeasurement is based on the rate of temperature rise from aline heat source embedded in a cylindrical porous ceramic thatis in equilibrium with soil water. Different heating currentsor times can be accounted for by basing calibration on sensorthermal conductivity rather than temperature rise. Six sensorswere calibrated against pressure plate and psychrometer measurementsof matric potential. Inverse of sensor thermal conductivitywas linearly related to the logarithm of matric potential between–10 and –1200 J kg^–1. This range of measurablematric potentials is much larger than previous heat dissipationsensor designs. The heat dissipation sensor was accurate towithin 20% of the independently measured matric potential. Normalizingsensor readings by sensor thermal conductivity after oven dryingresults in a calibration that accounts for between-sensor variability.In a growth chamber experiment with fluctuating soil temperatures,heat dissipation sensor estimates of soil matric potential comparedfavorably with tensiometer and psychrometer measurements. Heatdissipation sensors based on this design appear useful whena wide range of matric potentials needs to be studied.

NOTES

Minnesota Agric. Exp. Stn.

Received for publication May 24, 1995.

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