Instruction manual

HS2 and HS2P

Soil is not homogeneous. Cracks, rocks, pore size, plant roots, and texture

layers are not usually distributed uniformly throughout a measured profile. If

the water content over a large area such as a cropped field is to be determined,

several measurements may be required to establish a representative

measurement.

6.4.4.3 Soil Factors Affecting Measurement

The HydroSense II is predominantly sensitive to dielectric permittivity, and

therefore soil water content (see Section 6.4.4.1, Measurement Principle

(p. 12)). Other physical properties of the soil can affect the measurement. If

the soil contains a large clay fraction or has high electrical conductivity (EC),

the applied signal can be attenuated sufficiently to affect detection of the

reflected signal in the sensor electronics. A very high organic matter fraction

has a similar effect. The HydroSense II will still respond to changes in water

content in these atypical soils, but its response will deviate from that of soils

wherein the attenuation factors are present in small non-interfering amounts.

The calibration coefficients fixed in the HydroSense II sensor were determined

in laboratory studies on typical soils. When measuring atypical soils, user

determined coefficients can often be applied to the measured period value.

Rocky soils can make rod insertion difficult and introduce variability in water

content measurements taken in the same general area. Rocks occupy space

otherwise occupied by the fine soil fraction, but they do not hold water in the

same manner as soil. If two proximal measurements are made in rocky soil,

the measured water content can differ significantly if large quantities of rock

occupy part of the sensitive volume of one measurement but not the other.

6.4.4.4 Measurements in Special Materials

The HydroSense II was designed for use in agricultural soils, but the

measurement technique underlying the instrument supports other potential

applications. Other porous media can be monitored using the period value

shown on the display. The period is strongly related to dielectric permittivity

of the material surrounding the sensor rods and can be used as a relative value

to measure changes in the material of interest. Period generally increases

proportionally with water content. For actual water content values, a soil

specific calibration can be performed using an independent measure of water

content such as gravimetric analysis. A calibration equation can then be

derived to relate period to water content.

7. User Interface

The following section contains a detailed description of the HydroSense II user

interface.

Screenshots included in this section were captured using factory default

settings (except where noted); however, they may not reflect the exact image

seen on your screen because of configuration settings chosen or operating

system updates

Red highlights on the images mark areas of interest. The highlights are added

for illustrative purposes and are not present on the screen of an actual display.