Proceedings

Find matching any: Reset
Nelson, W.W
Taylor, R.K
Schultz, E.C
Cihacek, L
Asebedo, A.R
Add filter to result:
Authors
Rehm, G.W
Evans, S.D
Nelson, W.W
Randall, G.W
DeJoia, A.J
Young, K
Schmidt, J.P
Taylor, R.K
Asebedo, A.R
Mengel, D.B
Franzen, D
Bu, H
Sharma, L
Schultz, E.C
Wick, A
Goettl, B
Berti, M
Cihacek, L
Alghamdi, R
Topics
Invited
General
Type
Oral
Year
1988
1998
2013
2021
Home » Authors » Results

Authors

Filter results5 paper(s) found.

1. Influence of Tillage and Placement on the Location of Phosphorus in the Root Zone

In recent years, the ridge-till planting operation and the use of the chisel plow have developed into the most widely accepted planting systems for conservation tillage in Minnesota. While there is opportunity to incorporate plant nutrients in the chisel plow system, previous studies have shown that this incorporation is shallow when compared to the moldboard plow system. The ridge-till system, on the other hand, offers only limited possibilities for fertilizer incorporation. Typical broadcast applications...

2. Nitrogen Management in Irrigated Corn Using Remotely-Sensed Imagery and Small-Plot Experiments

Nitrogen management for irrigated corn (Zea mays L.) grown along the Arkansas River Valley in Kansas is a concern due to the hig&ly leachable soils and high water tables (ranging fiom 10-50 A). Irrigated corn usually requires a high input of N fertilizer to achieve maximum yields, and most farmers in this area have been applying a uniform rate of nitrogen across their fields every growing season based on the following KSU N recommendation. N Rec = [YG * 1.35 lbs bu-'1 STA - PCA - PYM - PNST N Rec-nitrogen...

3. Considerations for Development of Optical Sensor Based Nitrogen Recommendation Algorithms for Corn

Optical sensor technology in Kansas has been used on winter wheat and grain sorghum with great success for predicting N fertilizer needs early in the growing season. However with both crops, there is a required minimum period of growth required before optical sensors can accurately detect N deficiencies. In both cases the target crop needs to have entered a period of vegetative growth where N uptake and utilization is increasing. In the case of wheat that generally corresponds to the Feekes 4 to...

4. Independence of Yield and N-Rate, and Use of EONR in N Fertilizer Recommendations in North Dakota

Evidence for the independence of N-rate and yield comes from the improved relationship of N-rate with relative yield compared to raw yield in corn, spring wheat and sunflower N-rate experiments in North Dakota. Relationships were also improved in corn by grouping experiments by regional location and whether the soils are high clay (>40% clay) or not, and discriminating between long-term no-till (6 years or more continuous no-till) or conventional till. In spring wheat, regional differences... D. Franzen, H. Bu, L. Sharma, E.C. Schultz, A. Wick, B. Goettl, M. Berti

5. Some Thoughts on Nutrient Mineralization and Cycling in No-Till Systems

High post-harvest residue accumulations (10+ tons/acre) often occur in crop sequences involving high yielding corn, spring wheat and soybean. Over the last decade, we have conducted several studies that show that N or P availability may be suppressed either through slow residue decomposition, slow mineralization or immobilization. Although several states provide fertilizer recommendation adjustments for no-till and for high residue accumulations, the recommendations  are sometimes contradictory.... L. Cihacek, R. Alghamdi