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Stand Establishment, Fertility & Water Use Base Replanting Decision On Calendar, Stand Around June 10, a corn crop with stands of less than 12,000 plants per acre could be torn up and replanted to a crop like sunflower or soybeans that can be planted at this date and still mature. By June 15, however, the decision may be to keep a stand of 12,000 to 14,000 plants per acre because it would be too late to plant a good alternative. Uniformity of stand is the key to evaluating a poor stand. Even stands below 12 plants per square foot of barley and oats have yielded near normal because they typically tiller more than spring wheat, which typically tillers more than durum. If there are no large skips in the field, fairly low plant populations of soybeans (75,000/ac), dry beans (50,000/ac) and sunflower (10,000 to 11,000/ac) can still maintain yields. These plants have the ability to branch or flex and fill in space. This is not as true with corn, and weeds also become a bigger problem. About the only replant choice in mid June is flax, buckwheat, early-short season sunflower or millet. Other options to consider would be to grow a crop for hay, or plant winter wheat in the fall. Remember to take crop insurance into consideration, and herbicide used in the prior planted crop and whether it may create a problem with injury to a crop change. What about replanting to improve stands? Remember that a replant decision costs dollars and extra time. In many cases the later planted crops will yield less than the early planted and lower stand established crop. The later replant also may put the development of the crop into a more stressful period, such as a high temperature, drought or risks of fall frost. Also, the harvest period would be extended into the fall when weather conditions can be difficult. Refer to NDSU Extension Circular A-934, “Replanting after Early Season Crop Injury” for further information, available on the web at: www.ext.nodak.edu/extpubs/plantsci/crops/a934w.htm. Spring Wheat Replanting Guidelines
The Ideal Spring Wheat Stand
Soybean Stand Evaluation Checking Nodules on Field Peas, Soybeans Soybeans: nodulation can be seen shortly after emergence (VE), but the plant is not actively fixing nitrogen until the V2 to V3 stages. Soybean plants that are 5 to 6 inches tall should have their second unfolded trifoliolate leaflets (V2 stage) totally unrolled. The number and nodules formed on the soybean roots along with the amount of nitrogen fixed increases until the R5.5 stage. Nodules actively fixing nitrogen for the plant are pink or red inside. White, brown or green nodules indicate that nitrogen-fixation is not occurring. Nitrogen fertilization after planting is not recommended as nitrogen fertilizer applied to active nodules will render these nodules inactive or inefficient, depending on the amount of nitrogen applied. Soil nitrogen is utilized over fixed nitrogen, if available in large amounts. Check the health of your soybean nodules and check root proliferation. At V2, soybeans should be rooting down six inches into the soil and by V5 will completely reach between 30-inch rows, making any cultivation at V5 needing to be very shallow. When checking soybean and pea plants for nodules, don’t pull the roots directly from the soil, since that will slough off nodules and result in an inaccurate count. It’s best to use a small shovel, spade or trowel and dig the soybean roots carefully and shake gently or place in a bucket of water to wash soil off the roots. Nodules then can be counted and examined for viability. It’s suggested to check at a minimum of five sample sites in a field to make a good assessment. Also, one should go back and check again just before the flowering stage to ensure that the N fertility for the legume will be adequate. Nitrogen fixation ceases with the onset of pod formation in peas and lentils. Good nodulation and N fixation not only benefits the growing crop but also is most beneficial to the crop that will follow in next year’s rotation. These principles and methods of checking for nodules are also suggested for lentils and chickpeas. Tips for Managing Soil Crusting Water Use of Wheat Daily crop water use, also called evapotranspiration or ET, depends on canopy development and will generally peak between heading and early dough stage. Daily ET during this peak period can range from 0.10 to 0.30 inches, depending on air temperature and cloud cover. The table below shows estimated daily ET rates figured for spring wheat in N.D. at different stages of growth and selected maximum daily air temperature ranges. As weather is variable by location, so too will daily ET estimates vary by location. Real-time estimated daily crop ET may be observed over the Internet during the growing season at: http://ndawn.ndsu.nodak.edu and also for Minnesota: www.soils.wisc.edu/wimnext. Water Stress in Corn Silk elongation begins near the butt of the ear and progresses up toward the tip. The tip silks are typically the last to emerge from the husk leaves. If ears are unusually long (many kernels per row), the final silks from the tip of the ear may emerge after all the pollen has been shed. Another cause of incomplete kernel set is abortion of fertilized ovules. Aborted kernels are distinguished from unfertilized ovules in that aborted kernels had actually begun development. Aborted kernels will be shrunken and mostly white. Water stress during grain filling increases leaf dying, shortens the grain-filling period, increases lodging and lowers kernel weight. Water stress during grain filling reduces yield 2.5 to 5.8% with each day of stress. Kernels are most susceptible to abortion during the first 2 weeks following pollination, particularly kernels near the tip of the ear. Tip kernels are generally last to be fertilized, less vigorous than the rest, and are most susceptible to abortion. Once kernels have reached the dough stage of development, further yield losses will occur mainly from reductions in kernel dry weight accumulation. Severe drought stress that continues into the early stages of kernel development (blister and milk stages) can easily abort developing kernels. Severe stress during dough and dent stages of grain fill decreases grain yield primarily due to decreased kernel weights and is often caused by premature black layer formation in the kernels. Once grain has reached physiological maturity, stress will have no further physiological effect on final yield. Stalk and ear rots, however , can continue to develop after corn has reached physiological maturity and indirectly reduce grain yield through plant lodging. Stalk rots are seen more often when ears have high kernel numbers and have been predisposed to stress, especially drought stress. Average water use for wheat in inches/day for North Dakota.
UM Research Links Iron Chlorosis to high N levels Cool, wet weather along with soil high in pH, carbonates and salinity are ideal conditions for iron chlorosis to develop. Chlorosis associated with iron deficiency does not appear until the first trifoliate leaves appear in the plant. The adoption by growers of more chlorosis/salt tolerant varieties has resulted in more soybean fields withstanding this stress. Warmer, drier weather helps improve chlorosis symptoms, although NDSU research suggests that even fields which recover quickly may have yield affected due to the condition. To date, foliar applications of micronutrients or iron sprays on soybeans have not shown consistent yield increases from this condition. Some herbicides may further stress soybeans already stressed by chlorosis. See more information online at www.ag.ndsu.edu/procrop/syb/ironchlorosis.htm. Critical Growth Stages for Major Crops Critical growth stages for major crops1
See the NDSU web site www.ag.ndsu.edu/disaster/drought.html for more information on coping with drought and dry conditions, covering various crop and livestock issues, with good links to other drought-related web sites as well. Topdressing N in Wheat for Yield Topdressing N deficient small grains from emergence to the 6-leaf stage may serve to increase yield, provided a timely rain incorporates the application prior to jointing. The application and its incorporation by rainfall needs to be completed before jointing for yield enhancement. The interval between 3-5 leaf is best; NDSU data indicates that wheat yield response to topdressing is greatest through tillering. Topdressing after the 3-leaf stage and before the 6-leaf stage may help head size, spikelet number and kernel number decision, all of which are yield component decisions that the wheat plants make. To top dress, use of stream nozzles or stream-bars and liquid fertilizer is strongly recommended. Sometimes, 28% has been known to result in foliar burn; one alternative is 25-0-0, a manufactured urea solution. Some studies have shown this material to be less likely to burn foliage than 28%. However, it is often more expensive to use, so the pros and cons of using this product should be weighed. On taller wheat, stream nozzles are preferred because the stream-bars have a habit of catching on foliage and breaking off sometimes. However, they do work well and with care can last a long time. Because the stream application is not a foliar treatment, rather a concentrated soil band in effect, it needs rain to work it into the soil. If rain doesn’t fall before the wheat reaches jointing, the N may help boost protein, but will do little to increase yield. Topdress Dry or Liquid N? The amount of liquid N that can be applied without leaf burn diminishes as temperatures rise and crop growth accelerates. Forty lb N/ac as liquid N is a relatively safe rate when temperatures are cool and small plants provide 40 -60% ground cover. With high temperatures and a ground covering crop canopy, safe rates drop to 10-25 lb N/ac with increased margins of safety for urea solutions. If topdressing applications using liquid N (UAN, 28-0-0), it’s recommended to use streamer bars to minimize and reduce leaf burning and crop injury. Streamer bars concentrate the application into bands, which tend to drive most of the fertilizer to the soil surface rather than coat the leaves, where it could damage the leaf tissue. A concentrated band also slows the rate of urea volatilization from the urea portion (the N in UAN is about 50% urea) of the UAN. Leaf burn potential when applying liquid N increases as the wind increases. Under windy conditions, the wind breaks the stream apart and converts it into a poor broadcast application, coating leaves and increasing burn. Do not broadcast UAN; the burn will be great and may cause a yield reduction in some cases. Whichever source is used, rain is needed (about ½”) to move the N into the soil so that roots can utilize it. Topdressing N on wheat with inadequate N can be helpful for yield if:
The quantities needed for yield enhancement are at least 30 lb N, and sometimes more depending on preplant N supplied. There are 3 lb N in each gallon of 28%. Therefore, while aerial application has its place, this is not one of those places. Topdressing N in Wheat for Protein With 40 bu/ac wheat, that means a protein premium of about 38 cents/1/2 point. Another consideration is weather; if hot temperatures and dry conditions may have chipped away at yield potential, the N already applied may be sufficient to produce higher protein without help from added N. Topdressing from jointing through the watery ripe stage of grain development will often serve to increase protein content of grain, but will have little if any effect on yield. Applications of N past the watery ripe stage would have no real effect on grain protein content. By the time the wheat crop starts heading out, it has accumulated nearly all of the nitrogen that will eventually show up in either grain yield or protein. It is also logical to conclude that since leaf area decreases as the plants mature, especially with disease and natural senescence, foliar fertilization efficiency will decrease thereafter. Thus, once the grain is in the dough stage, the grain is basically drying and uptake of nutrients is over. Consequently, it’s generally recommended that nitrogen applications for enhancing protein be made as soon after tillering as possible and before flowering and pollination. (A foliar N application is not recommended before pollination at flag leaf emergence or at pollination, because of leaf burn potential. The need to protect the flag leaf is crucial, and pollination is also a critical time to protect sensitive anthers). Topdressing N before the first joint extends will not leave wheel tracks in fields. Traffic across fields later breaks the stem below the joint and will leave tracks visible through harvest. Leaf burning in trials conducted in N.D. have shown little if any decrease in yield when precautions are taken. Still, this is an art, not a science, and there is no guarantee against leaf burn. Sometimes despite best efforts there is some leaf burning, although if precautions are taken, the effects will not normally be severe. Make sure not to apply streamer N in a high wind which breaks up spray particle stream into a broadcast application. This will result in a high leaf burn risk. Leaves that are burned do not recover; however, bushels lost due to burn are usually low following pollination, and if protein premiums are expected to be high, a modest protein increase may be worth more than a slight loss in bushels due to superficial burning. For the most consistent results, use a foliar application, not streamer bars unless it will rain about a half inch within 24 hours of application. Do not apply the 28% with fungicides. Put the fungicide on first when the label suggests. Apply the 28% directly after flowering at the watery-ripe stage of kernel development (right after pollination, but before starches have formed). Apply the 28% mixed half and half by volume with water and spray during the cool of the day. Unless the day is cloudy and cool, this means towards evening. Some growers have good success with application at night, but stop early in the morning. Application made late morning when the dew is burning off has resulted in burn similar to mid -day to afternoon applications. Applications of 10 gal 28% (30 lb N/ac) has resulted in protein increases from ½ to 1%, with ½ % being the more common. There are some slow release N products that claim higher efficiency than 28%. Although these products have less burn potential, research at NDSU has not shown higher efficiency in protein enhancement. It appears that similar rates of N need to be applied with these products to increase protein to the levels achieved with the recommended rates of 28%. A good choice for nozzles would be flat fans, not forward/back. The forward and back nozzles used for scab fungicide application are meant to cover the head. We don’t want to cover the head. This fertilizer application is meant to cover the leaf, so flat fans are better. It is highly recommended that no fertilizer N be applied during small grain heading. Often, scab fungicides are applied at this time for maximum effect. However, fertilizer should not be applied during a heading application. Approximate Pounds of Nitrogen Per Plant Per Acre for 45 bu/a Hard Red Spring Wheat (Based on Bauers wheat growth studies)
Row Crop Sidedressing Options Other side-dressing options include liquid N (28%) between the rows and cultivation of urea. Liquid materials do not need to be placed as deeply as anhydrous. Placing them a couple inches deep using an application knife and some type of slot closure, such as an offset disc or disc pairs will do an adequate job of coverage. Urea can be applied to some row crops broadcast and cultivated in, but not to corn. Some urea will be trapped in the whorl and will burn the corn leaves badly. If cultivating urea for corn, some method of delivery between the rows should be used. Sidedressing Corn If the corn becomes too tall for injecting with anhydrous or liquid, set up a boom on a high-clearance sprayer with drop nozzles placed between the rows. The nozzles should be weighted or braced so they don’t ride above the canopy. Don’t broadcast N either dry or liquid. Remember that corn isn’t like wheat. Wheat sheds dry and liquid fertilizers to some extent, while corn gathers most of what lands on it into the whorl, which concentrates the fertilizer, resulting in significant and often serious burn and yield reduction potential. Successful post-N applications with drop nozzles are possible until the corn is taller than the high-clearance sprayer platform. The taller the corn, the more damage will be done turning on the field ends and corn breakage from crowding rows (especially in 22 inch rows). Sidedressing Sunflower Troubleshooting Nutrient Deficiencies A flow chart for identifying nutrient deficiencies in corn, compiled by the University of Minnesota Extension Service, can be found online at www.extension.umn.edu/cropenews/2002/nutrientdeficiencyflowchart.pdf. Nutrient deficiency symptoms for a number of crops can also be found online at www.kmag.com/general/nds.htm. Applying N in the Fall Don’t Short Your ’09 Crop: Soil Sample This Fall Estimating Additional N Need For Corn, Other Crops
Supplemental rates from 30-50 lb N/acre are suggested for most crops, on the higher of that range for crops with high yield potential and low risk of quality reduction from application of N (any crops except flax, barley, sugarbeet, safflower). Also, for canola, if N appears lost, assume that sulfur was also lost and include some in the supplement. ~~~~~~~~~~~~~ Approximate Yield, Water Use, Water Use Efficiency
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