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BaseStation 1000 Irrigation Controller
Moisture Sensor-Based Watering
If you have a Baseline soil moisture sensor (biSensor™) installed in your landscaping and connected to
your BaseStation 1000 irrigation controller, you can program the controller to water based on the
moisture levels in the soil. This watering strategy can reduce outdoor water use by up to 62 percent or
more over traditional irrigation methods. And, by watering your plants when needed, you can increase
landscape health, promote deeper root growth, and make your plants more disease resistant.
For areas that have a restricted schedule such as specific watering days or specific use schedules like
sports fields, upper threshold (also referred to as "greater than limit" or "upper limit") is a popular
watering strategy. With upper threshold, you can choose which day and what time of day to start
watering and the sensor will shut off watering when soil moisture reaches the upper threshold.
Overview of Soil Moisture Levels
The amount of moisture held in the soil varies depending on the type of soil and the amount of time
between watering events. When you're using a sensor-based watering methodology, you should have a
general understanding of the water holding capacity of various types of soil. We've included a brief
description of the standard soil moisture content levels in this document. You can learn more about soil
moisture content, soil classification, and infiltration and water movement in Baseline's document titled
Watering with Soil Moisture
Soil moisture content is identified by the following levels:
Saturation: At the saturation level, nearly all of the spaces between soil particles are filled with water.
As a rule, irrigators do not want to saturate the soil because it cuts off the plant's supply of oxygen,
which, in effect, drowns the plant.
Field Capacity: When soil is at the field capacity level, it means that all excess moisture has drained
freely from that soil. The amount of remaining moisture is the field capacity. To irrigate properly, you
would turn off the water when the soil in the root zone of the plants reaches field capacity. A Baseline
biSensor measures field capacity in the calibration process and uses this value as the basis for other
settings.
Maximum Allowed Depletion (MAD): In most cases, the maximum allowed depletion level is just before
the plants begin to show visible signs of stress. Irrigators typically start watering at or before MAD is
reached because they don't want their landscapes to show signs of stress. MAD is not measured
because it is based on observation and opinion.
Permanent Wilting Point: At the permanent wilting point, the level of water in the soil is not sufficient
to meet the plant's needs.
Baseline Support: 866-294-5847
Upper Threshold
Sensors.
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Related Manuals for Baseline BaseStation 1000
Summary of Contents for Baseline BaseStation 1000
- Page 1 The amount of remaining moisture is the field capacity. To irrigate properly, you would turn off the water when the soil in the root zone of the plants reaches field capacity. A Baseline biSensor measures field capacity in the calibration process and uses this value as the basis for other settings.
- Page 2 Upper Threshold Moisture Sensor-Based Watering When you configure the BaseStation 1000 to use the upper threshold watering strategy, you are telling the controller to start watering based on a day and start time and stop watering when the biSensor detects that the moisture content in the soil has reached the upper limit, which is equivalent to field capacity.
- Page 3 Upper Threshold Moisture Sensor-Based Watering Step 2 – Assigning the biSensor in the Controller 1. On the BaseStation 1000 controller, press the Search & Assign button. The Search & Assign menu displays. 2. Press the or button to highlight the Moisture Sensor option, and then press the OK button to select it.
- Page 4 Step 5 – Setting Up the Day & Time Start Condition for the Program In the BaseStation 1000, a program is not active until you select a start condition for it. When you are using an upper threshold watering strategy, the program associated with the moisture sensor must have a day and time start condition.
- Page 5 Note: The Smart Interval based watering schedule works best in regions where landscapes are irrigated all year. Baseline recommends that you use the historical ET deficit data for your region to configure the intervals. To find the historical ET deficit data for your region, consult with your local Agricultural Cooperative Extension office –...
- Page 6 The program puts down 150% of the required water (based on the runtime of the zone) and then waits for 24 hours. The calibration reading is taken when the soil moisture is at field capacity. Baseline Support: 866-294-5847 www.baselinesystems.com...
- Page 7 1. Pour at least two gallons of water directly over the spot where the sensor is buried. 2. Temporarily disable the program so the area won’t be watered for at least 24 hours: a. On the BaseStation 1000 controller, press the Program Setup button. The Program Setup menu displays.
- Page 8 4. Press the button to highlight the Moisture Stop option, and then press the OK button. A checkmark displays next to the Moisture Stop option. 5. Press the button to configure the moisture stop settings. The Moisture Stop screen displays. Baseline Support: 866-294-5847 www.baselinesystems.com...
- Page 9 That value is automatically entered into the Limit field. After the calibration cycle runs one time, it is disabled in the controller. Step 8 – Setting the Controller to Run When you have finished making changes, press the RUN button. Baseline Support: 866-294-5847 www.baselinesystems.com...
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