Each fall, wheat producers face the challenge of planting wheat under a wide range of field and weather conditions. While soil moisture and timing are key considerations, stand establishment is also influenced by seeding practices, soil fertility, and residue management. Paying close attention to these factors can help ensure the crop has the best possible start.
Proper tractor speed. It is best to use a tractor speed of between 5 and 6 miles per hour in most cases when drilling wheat, depending on the amount of down pressure on the openers. If higher speeds are used, the openers can tend to “ride up” in the soil now and then if down pressure is insufficient.
Proper, uniform seeding depth. In most cases, the ideal planting depth for wheat is about 1.5 inches. When planting early into very warm soils, it is especially important not to plant too deep since coleoptile lengths are shortened when planting into warm soil. On the other extreme, producers should also be careful not to plant too deeply when planting later than the recommended planting date into very cool soils. Ensuring a uniform seeding depth will help with stand establishment. Planting into fields with heavy residue or uneven chaff distribution from the previous crop can make uneven planting depth and furrow closure a serious problem. In those situations, it is common to end up with poor stand establishment in field areas where the drill opener rode up over the residue or chaff and could not penetrate the soil to the same depth as in other field areas. These areas may also be more prone to damage from early spring freeze events since the crown will be formed close to the soil surface under heavy residue.
Firm seedbed. Planting into loose, fluffy soils after repeated tillage operations during the summer can be a problem. When seeds are planted into loose soil, rain in the fall will settle the soil and leave the crowns of the seedlings too close to the soil surface. A good closing system behind the drill openers, with adequate down pressure, should help. Avoiding tillage for 30 days prior to planting will increase the likelihood of rain settling the soil between the last tillage pass and planting.
Plant during the optimum window. In general, wheat should be planted somewhere around the Hessian fly-free date. There may be good reasons to plant some wheat before the fly-free date, such as planting for pasture or time pressures from having considerable acreage to plant. However, it's important to be aware that stand establishment and ultimate grain yields are usually best when wheat is planted after the best pest management planting date (BPMP, former Hessian fly-free date) and before deadlines set by crop insurance. Planting more than three weeks after the BPMP can be risky. Late-planted wheat often does not develop an adequate root system before winter, forming fewer productive fall tillers. Seeding rates should be increased by 25 to 50 percent when planting late to help ensure an adequate stand and compensate for the lack of tillering. See this recent eUpdate article about the risks of planting wheat too early https://eupdate.agronomy.ksu.edu/article/wheat-planting-be-cautious-of-planting-too-early-661-2
Adequate soil fertility. In general, producers should apply at least part of their nitrogen before or at planting time to get the plants off to a strong start. Nitrogen rates of 20-30 lbs can help with fall establishment and tillering. If the soil is low or very low in phosphorus or potassium, these nutrients should also be applied at planting time so that the plants benefit early in their development. Starter fertilizer with the seed or band-applied close to the seed can also help with fall early growth and establishment, particularly in low-testing soils. Low soil pH can be a concern, particularly early in the season when root systems are mostly near the surface, which is often an area of lower pH. Soil tests will determine the need for pH adjustment and the potential for aluminum toxicity. Variety selection and phosphorus application with the seed are potential management strategies for low pH and aluminum toxicity issues if it is too late to apply lime before seeding.
Make adjustments for planting into row crop stubble. When planting wheat into heavy grain sorghum stubble, producers will need an extra 30 lbs N per acre over their normal N rate. Also, it is important to ensure the sorghum is dead before planting wheat. When planting wheat into soybean stubble, producers should not reduce their N rates since the N credit from soybeans – when applicable - doesn’t take effect until the following spring. If the wheat is planted no-till after row crop harvest, N rates should be increased by 20 lbs N per acre over the normal N rate. Seeding rates should be increased when planting wheat late after row crop harvest. It’s best to use a seeding rate of 90 to 120 lbs per acre in central and eastern Kansas and 75 to 100 lbs per acre in western Kansas. When planting more than three weeks after the BPMP date, producers should use a seeding rate of 120 lbs per acre.
Watch out for potential disease issues when planting into corn residue. The risk of some diseases may be higher when wheat is planted in fields with large amounts of corn residue left on the soil surface. Fusarium head blight (scab) of wheat, for example, is caused by a fungus known to cause stalk rot in corn.
Using a seed treatment. Seed treatments can sometimes act as insurance, helping avoid seed-borne and early-season fungal diseases. Check out a previous eUpdate article on seed treatments for wheat disease management at https://eupdate.agronomy.ksu.edu/article/seed-treatments-for-wheat-663-3.
Romulo Lollato, Wheat and Forages Specialist
lollato@ksu.edu
John Holman, Cropping Systems Agronomist – Garden City
jholman@ksu.edu