By: Fabian Fernandez, Extension nitrogen management specialist Crop harvest is progressing quickly in Minnesota due to the dry conditions. As soon as the crops are out, it is time to start field activities to prepare fields for next year. One of these activities might include nitrogen fertilization. What to apply? In my recent blog post on nitrogen best management practices , I discussed the fact that, for fall applications, the only source that is reliable enough is anhydrous ammonia. This is because all other commercial nitrogen fertilizers have a high potential for loss when applied so far in advance of crop uptake. The reason anhydrous ammonia works for fall applications is that, when ammonia (NH3) is injected, it disperses in the soil, reacting with soil moisture (H2O) within a retention zone, which, depending on soil moisture, can be around three to six inches in diameter. As NH3 reacts with H2O, it forms NH4 and OH-. The OH- creates a temporary increase in soil pH that inhibits
By: Daniel Kaiser, Extension soil fertility specialist With fluctuating fertilizer prices, it is a good time to review a few principles related to phosphorus (P) availability in soils. We know that P is a critical element required for crop growth and development, and if deficient, the lack of P can significantly reduce crop yield. While application of P fertilizer is common, it is not always required to achieve maximum yield. Phosphorus exists in the soil in many forms, which vary in crop availability. In fact, crop available P only represents a small fraction of the total P in the soil. When crops take up P, nutrients in less available pools in the soil can move into a more available form, replacing what was taken up by the crop. Crop producers sometimes feel that it is most economical to re-supply the soil with the amount of phosphorus taken up by the crop. However, the soil supply of phosphorus is more complex, and soils testing Very High in phosphorus may be able to fully supply