A.3 crop water needs, crop coefficients – Campbell Scientific VisualWeather Software User Manual

Appendix A. Evapotranspiration, Vapor Pressure Deficit, and Crop Water Needs

This difference is calculated by calculating the saturated vapor pressure of the
air

VP deficit = (e°(T

hr

)-e

a

))

Where,

e°(T) saturated vapor pressure (kPa) of the air at temperature T

(Ref. Equation (19) above)

e

a

actual vapor pressure (kPa) of the air

(Ref. Equation (20) above)

A.3 Crop Water Needs, Crop Coefficients

A crop's life cycle consists of four stages, initial period, development stage,
mid-season stage, and the late-season stage.

• The initial stage is the length of time (days) between the planting date and

the date at which approximately 10% of the ground surface is covered
with green vegetation.

• The development stage is the number of days between the 10% ground

cover to nearly full ground cover. The full ground cover often coincides
with flowering.

• The mid-season starts at full ground cover and ends when a crop shows

signs of maturity, e.g. yellowing of leaves.

• The late season lasts between crop's maturity to its harvest.

During each stage a crop's water need will vary. This requires adjusting the
amount of water supply to the crop.

The amount of water (in mm/day or inches per day) needed by a crop is
calculated by multiplying the reference crop evaporation (ET

o

) described

earlier by the crop coefficient (Kc) applicable to that crop in a given stage of
its growth.

ETc = ET

o

x Kc

(22)

These topics, along with useful data applicable to several crops can be
obtained by accessing the following web site:

http://www.fao.org/docrep/X0490E/x0490e00.htm#Contents

Information available at this web site should serve only as a guide. It is the
responsibility of users to provide the correct value of Kc applicable to their
situation. Contacting local agricultural agencies may provide information
about crops grown in that region.

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