Allowed Depletion Calculator

Calculator Inputs

Input method *

Choose the data you have.

Field capacity (% vol) *

Typical loam: ~25–35.

Wilting point (% vol) *

Common range: ~8–20.

Available water capacity (mm/m) *

Sandy: ~60–100, loam: ~120–180.

Root zone depth (m) *

Beds: 0.20–0.45, shrubs: 0.45–0.90.

Depletion fraction p (0–1) *

Sensitive crops often use 0.30–0.50.

Safety buffer (%)

Reduces p to add a margin.

Irrigated area (m²)

Used to estimate liters.

Application efficiency (%)

Drip often 85–95, sprinklers 60–80.

Daily ETc (mm/day)

Used for interval estimate.

Current soil moisture (% vol)

Optional; estimates current depletion.

Current depletion (% of TAW)

Optional; if you track deficit.

Reset

Professional Notes

Why allowed depletion matters

Allowed depletion defines how much root‑zone water can be used before irrigation should refill the profile. Managing this threshold reduces stress cycles that lower yield, cause blossom drop, or slow vegetative growth. It also prevents unnecessary watering that increases leaching and disease pressure.

Interpreting total available water

Total available water (TAW) represents water held between field capacity and wilting point within the active root depth. Deeper roots and finer soils generally increase TAW. When using AWC in mm/m, you can compare soils quickly without requiring moisture limits.

Selecting a depletion fraction

The depletion fraction p reflects crop sensitivity and atmospheric demand. Leafy greens, seedlings, and shallow beds often benefit from lower p values, while established shrubs may tolerate higher p. The safety buffer reduces p to provide operational margin during heat spikes, windy days, or uneven distribution.

Turning depletion into an irrigation target

Allowed depletion is expressed as millimeters of water depth in the root zone. Net refill depth equals the allowed depletion, while gross applied depth adjusts for efficiency losses. Converting millimeters to liters is direct: one millimeter over one square meter equals one liter, enabling fast hose or tank planning.

Example data and scheduling insight

Example: FC 30%, PWP 15%, root depth 0.35 m gives TAW 52.5 mm. With p 0.45 and a 10% buffer, effective p becomes 0.405 and allowed depletion is about 21.3 mm. With ETc 4.0 mm/day, the interval is roughly 5.3 days, before efficiency adjustments and operational constraints.

Example Data Table

Scenario	Root depth (m)	Soil data	p	TAW (mm)	Allowed depletion (mm)	ETc (mm/day)	Interval (days)
Vegetable bed	0.35	FC 30%, PWP 15%	0.45	52.5	23.6	4.0	5.9
Turf area	0.25	AWC 120 mm/m	0.55	30.0	16.5	5.5	3.0
Shrub row	0.60	FC 28%, PWP 14%	0.50	84.0	42.0	3.5	12.0

Values are illustrative for planning and comparisons.

Formula Used

Total available water (TAW)

If using moisture limits:
TAW(mm) = (FC − PWP) × Zr × 1000

If using available water capacity:
TAW(mm) = AWC(mm/m) × Zr(m)

Allowed depletion (management target)

p_eff = p × (1 − buffer)
Allowed depletion(mm) = TAW × p_eff

Gross applied depth

Gross(mm) = Net(mm) ÷ Efficiency

Interval estimate

Interval(days) = Allowed depletion(mm) ÷ ETc(mm/day)

How to Use This Calculator

Select a method: moisture limits or available water capacity.
Enter root zone depth and a depletion fraction p.
Set a safety buffer if you prefer conservative irrigation.
Add efficiency and area to estimate gross liters to apply.
Enter ETc to estimate days between irrigations.
Optionally add current moisture or current deficit to see timing.

FAQs

1) What does allowed depletion tell me?

It estimates how much water the root zone can lose before irrigation should refill the profile. Staying within this limit helps reduce plant stress and supports steadier growth and yield.

2) Which method should I choose?

Use moisture limits when you know field capacity and wilting point. Use AWC when you have a soil water holding value in mm per meter. Both methods produce comparable depletion targets.

3) What is a good p value for gardens?

Many vegetable beds use 0.30–0.50, while established shrubs may tolerate 0.50–0.65. Choose lower values during high heat, shallow rooting, or when uniformity is uncertain.

4) Why add a safety buffer?

A buffer reduces the effective depletion fraction, creating margin for hot days, wind, uneven application, or delays. It helps prevent overshooting the threshold when conditions change quickly.

5) How does efficiency affect my watering amount?

Efficiency converts the net refill depth to a gross applied depth. Lower efficiency means you must apply more to deliver the same water to roots. It does not change the root‑zone depletion itself.

6) Can I use this with sensor readings?

Yes. Enter current soil moisture when using moisture limits, or enter current depletion percent when using AWC. The tool estimates remaining capacity before the allowed limit is reached.

7) Does rainfall change the results?

Rainfall reduces depletion by refilling the root zone. After meaningful rain, recheck current moisture or deficit. If the profile refills above your target, the next irrigation can be delayed.