lNon-oilseed cultivars held on an 0

lNon-oilseed cultivars held on an 0.8 cm round-hole screen
21 = erect, 9 = prostrate.
Plant population has a strong effect on seed size, head size, and percent oil. A medium to high population produces higher oil percentage than does low populations, and the smaller heads dry down faster at higher plant populations.
A lower plant population is critical for maximizing seed size for non-oilseed use. Current recommendations in Minnesota and Wisconsin are 17,000 plants/acre (4 lb seed/acre) for non-oilseed and 23,000 plants/acre (3 lb seed/acre) for oilseed.
Some have suggested that north-south orientation of rows produce higher yields than east-west rows, but studies to examine this effect have found no differences in yield.
D. Fertility and Lime Requirements:
Research has shown that sunflower responds to N, P and K. Nitrogen is usually the most common limiting factor for yield. Nitrogen fertilizer tends to reduce oil percentage of the seed, change the amino acid balance, and increase leaf area of the plant. Yield increases from N fertilizer rates up to 175 lb/acre have been observed, but rates considerably lower than this are usually recommended. Nitrogen recommendations in dryer regions can be made from estimates of nitrate nitrogen in the soil, but in wetter regions, this is not feasible. In the wetter regions of eastern and southern Minnesota and Wisconsin, recommendations are based upon soil organic matter and previous crop history. Recommendations of approximately 18 lb N/acre after fallow or legume sod, 60 lb N/acre after small grain or soybean and 80 to 100 lb N/acre after corn or sugarbeet are common. On higher organic matter soils, amounts should be lowered. Nitrogen can be supplied from mineral or non-mineral sources (manures, legumes, compost). Row placement of P and K may be important in sunflower for maximizing efficiency of fertilizer use, as it is with many species.
More yield increases are reported as a result of applications of P than from K in Europe and North America. Recommendations for applications of P and K should be made from soil tests and the yield goal for each field. Recommendations range from 40 to 70 lbs P2O5 and -60 to 140 lbs K2O /acre for soils testing very low in P or K, depending on soil yield potential. These recommendations decrease as soil test P and/or K increase. Response to P is not expected if soil P exceeds 30 lb/acre nor to K if the K test is greater than 300 lb/acre.
Sunflower is not highly sensitive to soil pH. The crop is grown commercially on soils ranging in pH from 5.7 to over 8. The optimum depends upon other properties of the soil; no pH is considered optimum for all soil conditions. The 6.0 to 7.2 range may be optimal for many soils.
E. Variety Selection:
The development of a cytoplasmic male-sterile and restorer system for sunflower has enabled seed companies to produce high-quality hybrid seed. Most of these outyield open-pollinated varieties and are higher in percent oil. Performance of varieties tested over several environments is the best basis for selecting sunflower hybrids. The choice should consider yield, oil percentage, maturity, seed size (for non-oilseed markets), and lodging and disease resistance. Performance results from the Upper Midwest are usually available annually from North Dakota State University, University of Minnesota, and South Dakota State University.
F. Weed Control:
As a crop, sunflower yields are reduced, but rarely eliminated by weeds which compete with sunflower for moisture and nutrients and occasionally for light. Sunflower is a strong competitor with weeds, especially for light, but does not cover the ground early enough to prevent weed establishment. Therefore, early season weed control is essential for good yields. Annual weeds have been the primary focus of weed control research. Perennial weeds can also present problems but are usually not specific to sunflower.
Successful weed control should include a combination of cultural and chemical methods. Almost all North American sunflower plantings are cultivated and/or harrowed for weed control, and over 2/3 are treated with herbicides. Postemergence cultivation with a coilspring harrow, spike tooth harrow or rotary hoe is possible with as little as 5 to 7% stand loss when sunflowers are at the four to six leaf stage (beyond cotyledon), preferably in dry afternoons when the plants are less turgid. One or two between row cultivations are common after the plants are at least 6 in. tall.
Several herbicides are currently approved for weed control in sunflowers. Information on chemical weed control in sunflowers is available at most county extension offices.
G. Diseases:
The most serious diseases of sunflower are caused by fungi. The major diseases include rust, downy mildew, verticillium wilt, sclerotinia stalk and head rot, phoma black stem and leaf spot. The symptoms of these diseases are given in Table 3. The severity of these disease effects on total crop yield might be ranked: 1) sclerotinia, 2) verticillium, 3) rust (recently more severe), 4) phoma, and 5) downy mildew. Resistance to rust, downy mildew, and verticillium wilt has been incorporated into improved sunflower germplasm.