Irrigation

Return to the Guide to Commercial Potato Production on the Canadian Prairies.

Reliance upon irrigation varies significantly across the Prairies Provinces. In Manitoba, northern Alberta and parts of Saskatchewan, irrigation is used to supplement precipitation. In Southern Alberta and parts of Saskatchewan, the majority of the moisture required to produce a marketable crop comes from irrigation. For potatoes, average seasonal irrigation amounts applied are 16 18" (41-43 cm) in southern Alberta, 10" (25 cm) in Saskatchewan, and only 3.5" (9 cm) in Manitoba. Regardless of the production area or amount of precipitation received, the practice of irrigation is similar. All irrigators strive to eliminate soil moisture deficits to produce a high yield of good quality potatoes. To determine when and how much to irrigate, irrigators must understand both soil-water and crop characteristics.

Soil Water Characteristics

Knowledge about the amount of soil water available to the plant and the ability to estimate soil water content is a key aspect in determining irrigation requirements of potatoes. An irrigator must understand the following terms to estimate soil water content.

Available soil water (ASW) is a common term of reference describing soil water content. Understanding the concept of ASW requires understanding of two additional terms related to soil water content.

Field capacity refers to the amount of water a soil holds after water has drained out of the larger pores and moved out through the soil profile due to the force of gravity. In coarse textured soils it may take a few hours for a soil to move from a saturated status to field capacity, in medium textured soils this may take approximately 24 hours, while in fine textured soils this may take several days.

Permanent wilting point refers to the amount of water a soil holds when only water within the smallest of the pores and spaces around individual soil particles remains. This water is not considered available to plants since the energy required to extract it is too great for the plant roots.

Any water held in the soil pores between the soil water contents of field capacity and permanent wilting point is considered available for extraction by plant roots for growth. The ASW capacity is the amount of water represented by the difference between field capacity and permanent wilting point. Soil texture is the main soil characteristic affecting ASW, however other factors such as structure, salinity, mineralogy and organic matter content also play a role.

Crop Characteristics

Potato is a moisture sensitive crop with a shallow active root zone compared to cereals and forages. Roots will penetrate to 3 feet (90 cm), however about 90% of the root activity takes place in the top 2 feet (60 cm) depth with a significant amount of that activity in the upper foot (30 cm). Availability of moisture in the root zone is crucial for high yields and is influenced by soil properties such as texture and percent organic matter. To maximize potato yield, maintain the soil moisture in the root zone above 65% of the ASW capacity.

The optimum temperature for potato growth is 69°F (21°C). Severe growth restrictions occur when the temperature is below 45°F (70°C) or exceeds 86°F (30°C). This information is used to calculate heat units for potatoes, which are called P-Days. Root depth is important when estimating the amount of soil water available to the plant. This use of root depth to determine ASW is discussed later in the section Irrigation Management and Timing.

The growth and development of potatoes can be broken down into five distinct stages, which are discussed in detail in the growth stages on the potato botany page. The demand increases as the crop begins to develop after emergence and peaks 7-9 weeks later during the tuber bulking stage of growth. Demand begins to decrease from the time of late bulking to maturation. To achieve maximum yield and quality, soil moisture should be maintained at or above 65% of ASW capacity for all stages of growth.

If soil moisture content is allowed to drop below 70% ASW during the tuber set/initiation, a reduction in tuber number per plant will occur. Water stress at any time during tuber bulking will reduce marketable yield. Low water levels or excessive fluctuation of water levels outside the desirable range can also reduce quality, contributing to growth deformities such as hollow heart, knobbiness and growth cracks. Less water is required during maturation, but it is still important to ensure that there is sufficient moisture to maintain a healthy canopy to achieve high yields and specific gravity. Too much moisture during maturation can result in difficulties during harvest and increased storage rots.

Growing a crop of potatoes requires 16 – 20 inches (400 – 500 millimetres) of water depending on weather and variety. This includes available soil moisture in the spring, which varies depending on soil type. The table below shows the rate of water use by potatoes at various stages of development and temperatures.

Average potato water use (inches/day) (NDSU, 1988)
Weeks After Emergence
Temp. °C	1	2	3	4	5	6	7	8	9	10	11	12	13	14	15
10-15	.02	.03	.04	.05	.07	.08	.08	.08	.08	.08	.07	.07	.06	.05	.04
16-20	.03	.04	.07	.09	.11	.13	.14	.14	.14	.13	.13	.12	.10	.09	.07
21-26	.04	.06	.09	.12	.15	.17	.19	.19	.19	.19	.18	.17	.14	.12	.10
27-31	.05	.08	.12	.16	.19	.22	.25	.25	.25	.14	.23	.21	.18	.16	.13
32-37	.06	.10	.14	.19	.24	.27	.30	.30	.30	.29	.29	.26	.23	.19	.16
Growth Stage	Vegetative			Tuber Set		Tuber Bulking								Maturation

The goal of irrigation management is to maintain soil moisture level in the crop root zone in a range where crop yield and quality are not reduced due to either insufficient or excess moisture, while minimizing the risk of leaching of soil moisture and nutrients below the root zone. The risks of excess moisture and leaching are greater in Manitoba than in many other potato-growing areas, due to heavier growing season precipitation.

Note that at full canopy cover (7-8 weeks after emergence) and temperatures of 32°C, water use can be as high as 0.3 inches per day. Contact your provincial irrigation specialist to obtain a chart applicable to your production area. .

Irrigation Management and Timing
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The goal of irrigation management is to maintain soil moisture level in the crop root zone in a range where crop yield and quality are not reduced due to either insufficient or excess moisture, while minimizing the risk of leaching of soil moisture and nutrients below the root zone. The risks of excess moisture and leaching are greater in Manitoba than in many other potato-growing areas, due to heavier growing season precipitation.

Effective rooting depth (Figure 3.5-2) must be considered when assessing soil moisture available to the crop for irrigation scheduling purposes. A depth of two feet (60 cm) is often assumed for management of irrigation scheduling for potatoes; this would be applicable for most of the irrigation season. It is generally recommended that irrigation be scheduled to prevent root zone soil moisture from dropping below 65% ASW. That critical ASW for
irrigation is somewhat higher for fine-textured soils than for sands, since moisture is held more tightly in finer soils at a given ASW.

The amount of water a soil can hold between field capacity (100% ASW) and 65% ASW varies from about one-third inch per foot of soil (2.8 cm per m) for very coarse soils, to about two-thirds inch per foot (5.6 cm per
m) for loam to finer textured soils. The amount of irrigation water applied with each application should be set to not exceed this capacity of the soil to hold water within the desirable range. Otherwise, leaching through the root zone will occur. For example, if water is to be applied at 65% ASW, and a 24" (60cm) effective rooting zone is assumed, routine application of 1.25" (3.2 cm) of water per irrigation would be acceptable on a clay loam soil, but only up to about half that amount on a very coarse soil. Therefore applications should be smaller and more frequent on coarse soils. If soil texture varies considerably within the field, the maximum application amount should be based on the capacity of the coarsest textured soil that occurs over a substantial portion of the field.

Irrigation Scheduling Methods

Most irrigation scheduling methods are based on either information from direct determination of soil moisture in the field (feel method), or on soil water balance calculated from estimated crop water use (checkbook method), or on a combination of the two approaches. Variability in soil characteristics across the field, as well as with depth will result in uneven soil moisture content and must be considered in design and use of any irrigation scheduling system. In addition to soil characteristics and soil water holding capacity, other factors will result in variations in moisture availability across the field. These include:

• Variability in crop vigor and growth
• Plant spacing
• Slope, which moves rain and irrigation water off of the field before it can infiltrate into the soil
• Hilling, which can also affect run-off and infiltration
• Nonuniformity of irrigation water application.