This article is about
- Right Source
- Right Rate
- Right Time
- Right Place
Winter 2014/15, No. 2
RIGHT RATE, ESSENTIAL IN 4R NUTRIENT STEWARDSHIP
The 4R Nutrient Stewardship principles are defined as using the right source of fertilizer at the right rate, time, and place. All four of the Rs are combined, and important, when nutrients are applied as fertilizer on a farm field. However, Right Rate, is especially critical for the full benefit of a fertilizer application. Rate is a threshold requirement, where if the threshold rate is not reached, other 4R factors of source, time and place will not be able to compensate.
Most crops have a concentration range for each required nutrient, and if a specific nutrient concentration within the plant is within that range there shouldn’t be any growth or yield limitation observed. However if the nutrient concentration is too low in the crop plant tissues, nutrient deficiency symptoms and decreased yields can result. For example the chart below shows the nutrient sufficiency range for seedling corn.
Plant Tissue Nutrient Sufficiency Ranges (%) for Seedling Corn, 2 to 12 inches tall.
|Nutrient||Nitrogen (N)||Phosphorus (P)||Potassium (K)||Sulfur (S)|
|Sufficiency Range||3.5 – 5.0||0.35 – 0.80||3.3 – 5.0||0.2 – 0.5|
Too low of a rate is often the cause of a specific fertilizer application combination being less effective. A useful example is a field research project I was involved in on a ranch near Invermere, BC.
The ranch owner mentioned to his local fertilizer retail dealer that he thought from visual observation the annual fertilizer applied on a mixed alfalfa-grass hay field (25% alfalfa and 75% forage grass) wasn’t very effective. The regular early spring broadcast application was a 40 lb N, 30 lb P2O5, 40 lb K2O, and 15 lb S/A. After conducting a small plot research experiment it was determined that the rate of nitrogen was too low to maximize forage growth and yield, and effectively utilize the other nutrients being added. It was recommended to increase nitrogen applications up to 70 lb N/A and keep the other nutrient application rates the same. Too low of a nitrogen rate was limiting crop response, even though the forms, timing and placement of fertilizer was appropriate.
The effect of using too low of a rate on crop yields can be delayed, and by the time it is observed there may have already been considerable economic loss. This is especially true for phosphorus and potassium fertilization, as both of these nutrients are best managed in the longer-term by maintaining plant available levels where crop yield is optimized. In contrast, reducing nitrogen rates excessively on a cereal crop will usually result in severe yield loss within one year. Suboptimal rates of phosphorus and potassium, less than crop removal, result in a gradual draw down of plant available soil levels. Reducing nutrient application rates below crop needs will eventually cause crop yields to decline.
Determining the Right Rate of various nutrients to be applied is vitally important to the success of a nutrient management program. I’m not suggesting that you can forget about applying an effective form of fertilizer, or not applying the fertilizer at the appropriate time or placement to get the needed nutrients to a crop. But too low of a rate can result in a low yielding crop even if all other crop fertilizer and agronomic practices are properly conducted.
– TLJ –
For more information, contact Dr. Thomas Jensen, IPNI Director, North American Program, Ph: 306-652-3535; E-mail: firstname.lastname@example.org.