Development of instrument for automation of irrigation scheduling and groundwater recharge monitoring using soil moisture measurement – A research report by National Institute of Hydrology

The report presents development of a sensor system capable of automated measurement of soil-water status, using the four-electrode resistivity (VES) method, in a soil profile.
10 Jul 2010
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The report presents development of a sensor system capable of automated measurement of soil-water status, using the four-electrode resistivity (VES) method, in a soil profile. In this method, by changing the separation between two electrodes (metallic rods) placed at the ground surface without digging any holes, the variation in moisture content in the sub-surface soil profile can be monitored.

The knowledge of the characteristics of soil water status in the root zone can lead to better predictions of when to irrigate a crop and how much to apply to a field. This results in better water conservation practices and prevention of chemical leaching. However, soil moisture in the unsaturated zone is in a dynamic state and under the influence of precipitation & evapotranspiration, the moisture content in a soil profile continuously varies with time.

The effective study and management of the soil-plant-atmosphere continuum requires knowledge bases combining appropriate mathematical models and expert systems, apart from the utilization of data from an effective sensor network. However, the development of expert systems and complex integrative models for irrigation scheduling has been limited because of extensive data collection requirements in the field. Numerous sensors need to be monitored on a periodic basis appropriate to the scale associated with water movement in the field. For such applications, rapidly responsive sensor networks need to replace labour intensive hand measurements, which are often unreliable, in the field.

In this study, the analysis of the apparent resistivity variations at different electrode spacings makes it possible to draw conclusions about the sub-surface conditions such as the variations in the amount of moisture content in formation. The state-of-art microcontroller based design, with on-board software, makes the instrument suitable for near real-time analysis of the measured data. The data obtained from this instrument can be directly used in various simulation models.

Download the report here:

 

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