Difference between revisions of "Soil moisture - impedance method (Theta Probe)"
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==Method:== | ==Method:== | ||
− | Frequency Domain Sensor working with the so called impedance-method | + | Frequency Domain Sensor working with the so called impedance-method at 100 MHz. |
− | Usable in saline soils - up to 2000 mS.m^-1 | + | Usable in saline soils - up to 2000 mS.m^{-1} |
==Equipment:== | ==Equipment:== |
Revision as of 14:41, 23 August 2011
Parameter to be measured:
Soil moisture, permitivity
Method:
Frequency Domain Sensor working with the so called impedance-method at 100 MHz. Usable in saline soils - up to 2000 mS.m^{-1}
Equipment:
- Delta-T Device: Theta-Probe (ML2x) with 4 rods of 600 mm length, HH2 display for manual reading or a data logger
Advantages:
- easy and fast measurement of punctual soil moisture
- manual as well as continuously logged measurements possible
Disadvantages:
- Each sensor has to be calibrated
- careful application of probe in stony and dry soils, because rods break easy
- during field application cable breakes often occures at the crossing between probe head and cable
- Underestimating of permitivity in media with low permitivity (ε > 40, clay and organic soils)
- unaccuarate values in saturated media
What to watch out for:
- Good contact between probe and medium has to be proved
Problems/Questions:
Price:
- 1270 € for probe and reading device (2008)
Links
Projects that used the above equipment:
Other related web sites:
- John Miller Theta Probe: Theta Probe ML2X Principles of operation and application
- Delta-T Devices: User Manual
- Test of 5 different soil moisture sensors
- sowacs.com - the central resource for soil moisture measurement
References
Blonquist, JM; Jones, SB; Robinson, DA. 2005. Standardizing characterization of electromagnetic water content sensors: Part 2. Evaluation of seven sensing systems. VADOSE ZONE JOURNAL 4(4), 1059-1069.
Gaskin, GJ; Miller, JD. 1996. Measurement of soil water content using a simplified impedance measuring technique. JOURNAL OF AGRICULTURAL ENGINEERING RESEARCH 63(2), 153-159.
Miller, JD; Gaskin, GJ; Anderson, HA. 1997. From drought to flood: Catchment responses revealed using novel soil water probes. HYDROLOGICAL PROCESSES 11(5), 533-541.
Seyfried, MS; Murdock, MD. 2004. Measurement of soil water content with a 50-MHz soil dielectric sensor. SOIL SCIENCE SOCIETY OF AMERICA JOURNAL 68(2), 394-403.