Understanding soak cycling, Precipitation rates vs. infiltration rates, Estimated infiltration rates for common soil types – Baseline Systems BaseStation 1000 User Manual

BaseStation 1000 Irrigation Controller Manual

Understanding Soak Cycling

When you set up your irrigation programs, remember that the rate at which the irrigation

application devices apply water might be very different than the rate at which the soil in your

landscape can take up that water.

Soak cycling breaks the total run time into shorter water “cycles” with “soak” periods in between to

allow time for water to soak into the soil.

Precipitation Rates vs. Infiltration Rates

The precipitation rate, which is the rate at which sprinkler heads or drip emitters apply water to the

soil, is typically measured in inches, like rainfall.

Many soils only allow water infiltration at a rate of .25 inch per hour or less, whereas most head

types put down .50 inch per hour or more (much more in the case of some spray heads).

Also remember that head spacing and overlap directly influence the total precipitation rate for any

specific zone.

Examples of Precipitation Rates for Common Sprinkler Types

Spray Heads

1.00 inch to greater than 5.00 inches per hour

Gear Driven Rotors

0.25 inch to 0.65 inch per hour

Multi-stream Rotors

0.40 inch to 0.60 inch per hour

Drip Emitters

Depends on area covered, rarely exceeds infiltration rate

Estimated Infiltration Rates for Common Soil Types

Course Sand 0.75 inch to 1.00 inch per hour

Fine Sand

0.50 inch to 0.75 inch per hour

Fine Sandy Loam

0.35 inch to 0.50 inch per hour

Silt Loam

0.15 inch to 0.40 inch per hour

Clay Loam

0.10 inch to 0.20 inch per hour

As you can see from the tables above, most sprinkler heads have higher precipitation rates than the

infiltration rate of most soils.

When the irrigation schedule puts down more water than the soil can take up, the excess water will

typically run off to the lowest point, leaving some areas of the landscape, or even the entire

irrigated landscape, under watered. Standing water also evaporates at a fairly high rate, especially

in the heat of the summer months, further reducing irrigation efficiency.

Even on a perfectly designed system, it is important to match the water application rate to the

infiltration rate of your soil. You can achieve this balance by breaking a total run time for any zone

into multiple “cycles” (timed water applications) and “soaks” (timed wait periods for the water

applied in the last cycle to infiltrate into the soil before applying more water).

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