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Nitrogen Management

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Authors

Baber, K

Beres, B

Coles, K

Franzen, D

Giordano, N

Goettl, B

Guttieri, M

Haag, L

Hall, L

Hao, X

Holzapfel, C

Jaenich, B.R

Jones, C

Karimi Dehkordi, R

Koeshall, S

Lollato, R

Miller, P

Nelson, N

Owens, J

Patel, S

Rahmani, E

Ruiz Diaz, D

Sadras, V

Santos, E

Simao, L

Tomlinson, P

Wang, Z

Wick, A

Topics

Nitrogen Management

Type

Oral

Year

2022

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Filter results7 paper(s) found.
1. Nitrogen Response of 2-Row Barley in North Dakota In about 2019, the major malting barley buyers moved from 6-row barley cultivars to 2-row barley cultivars. The N response of 6-row barley was well-established, however, little local data regarding 2-row cultivar N response was available. A 2-year study was conducted in North Dakota on two sites, using two cultivars at each site. Rates of N from 0 to 160 pounds N per acre were imposed on each cultivar. One site was in a long-term (30+ years) no-till system, while the other site was in a trans... A. Wick, D. Franzen, B. Goettl Download paper
2. Lentil Nitrogen Fixation Response to Fertilizer and Inoculant in the Northern Great Plains Lentil production in the semi-arid northern Great Plains has increased dramatically over the past two decades, providing agroecosystem benefits of efficient water use, pest cycle disruption, and biological nitrogen (N) fixation. Through N fixation, lentil may help alleviate soil acidification and groundwater contamination by reducing N fertilizer needs. Despite widespread farmer adoption of lentil in the region, little is known about the benefits of fertilizer or inoculant type concerning N f... K. Baber, C. Jones, P. Miller, S. Koeshall Download paper
3. Adjusting N Rate is the First Step in N Management Intensification Nitrogen (N) management and sowing date are among the leading causes for winter wheat (Triticum aestivum L.) yield gap in Kansas. This research aimed to compare the two most common cropping sequences in Kansas (continuous wheat [Ct-Wt] and double-cropping of winter wheat and soybean (Glycine max (L.) Merrill) [Wt-Sy]) under two N management (standard and progressive) on wheat production. Standard N management consisted of one single broadcast N application as UAN at 80 lbs ac-1... L. Simao, R. Lollato, D. Ruiz diaz Download paper
4. Nitrogen and Sulfur Colimitation to Winter Wheat Yield Sulfur has become more limiting for wheat production in the Great Plains, and its deficiency can interact with N availability. The current work reports on yield and yield gaps of three winter wheat varieties as affected by N and S fertilization using the concept of co-limitation (CNS). Field studies evaluating 0, 10, 20 and 40 lbs S/a combined factorials with 50, 100, and 150 lbs N/ac and three hard red winter wheat varieties were conducted in eight environments resulting from ... R. Lollato, B.R. Jaenich, N. Nelson, M. Guttieri, D. Ruiz diaz, V. Sadras Download paper
5. Does Late-season Nitrogen Impact Grain Protein Concentration in Wheat? A Global Meta-analysis Sustainable improvements in wheat production entails increasing yield while maintaining or improving grain quality, which most of the time are negatively correlated. However, attemps to synchronize N supply with crop N demand through N timing can help to obtain both improved yield and quality by enhancing N use efficiency (NUE) and reducing N losses. Late season applied N is a challenging practice that when used correctly can generate posite NUE impacts. Additionally, a systematic ... R. Lollato, N. Giordano Download paper
6. Spatial Variability in Profile Soil Nitrate, Nutrient Update, Grain Yield, and Nutrient Removal in a Commercial Dryland Grain Sorghum Field Established relationships exist that describe the confidence interval around a soil test value as a function of cores in the sample for nutrients such as phosphorus. This information is useful for developing economically and agronomically optimal soil sampling strategies. Residual soil nitrate can be a significant source of a crops N needs in dryland cropping systems where N loss is minimal. A common question among producers and consultants is how many profile N cores are required... L. Haag, S. Patel, P. Tomlinson, E. Santos Download paper
7. Winter Wheat Response to Enchanced Efficiency Fertilizers in the Canadian Prairies Optimal nitrogen (N) management can improve agronomic efficiency, and increase winter wheat (Triticum aestivum L.) grain yield and protein content. Two experiments were conducted to measure the responses of winter wheat to enhanced efficiency N fertilizers and timing/placements across the Canadian Prairies. Experiment 1 consisted of uncoated urea, urea+nitrification inhibitor (urea+eNtrench®), urea+urease and nitrification inhibitors (SuperU®), and polymer-coated urea (Envir... Z. Wang, J. Owens, X. Hao, L. Hall, K. Coles, C. Holzapfel, E. Rahmani, R. Karimi dehkordi, B. Beres Download paper

Filter results7 paper(s) found.

1. Nitrogen Response of 2-Row Barley in North Dakota

In about 2019, the major malting barley buyers moved from 6-row barley cultivars to 2-row barley cultivars. The N response of 6-row barley was well-established, however, little local data regarding 2-row cultivar N response was available. A 2-year study was conducted in North Dakota on two sites, using two cultivars at each site. Rates of N from 0 to 160 pounds N per acre were imposed on each cultivar. One site was in a long-term (30+ years) no-till system, while the other site was in a trans... A. Wick, D. Franzen, B. Goettl

Download paper

2. Lentil Nitrogen Fixation Response to Fertilizer and Inoculant in the Northern Great Plains

Lentil production in the semi-arid northern Great Plains has increased dramatically over the past two decades, providing agroecosystem benefits of efficient water use, pest cycle disruption, and biological nitrogen (N) fixation. Through N fixation, lentil may help alleviate soil acidification and groundwater contamination by reducing N fertilizer needs. Despite widespread farmer adoption of lentil in the region, little is known about the benefits of fertilizer or inoculant type concerning N f... K. Baber, C. Jones, P. Miller, S. Koeshall

Download paper

3. Adjusting N Rate is the First Step in N Management Intensification

Nitrogen (N) management and sowing date are among the leading causes for winter wheat (Triticum aestivum L.) yield gap in Kansas. This research aimed to compare the two most common cropping sequences in Kansas (continuous wheat [Ct-Wt] and double-cropping of winter wheat and soybean (Glycine max (L.) Merrill) [Wt-Sy]) under two N management (standard and progressive) on wheat production. Standard N management consisted of one single broadcast N application as UAN at 80 lbs ac-1... L. Simao, R. Lollato, D. Ruiz diaz

Download paper

4. Nitrogen and Sulfur Colimitation to Winter Wheat Yield

Sulfur has become more limiting for wheat production in the Great Plains, and its deficiency can interact with N availability. The current work reports on yield and yield gaps of three winter wheat varieties as affected by N and S fertilization using the concept of co-limitation (CNS). Field studies evaluating 0, 10, 20 and 40 lbs S/a combined factorials with 50, 100, and 150 lbs N/ac and three hard red winter wheat varieties were conducted in eight environments resulting from ... R. Lollato, B.R. Jaenich, N. Nelson, M. Guttieri, D. Ruiz diaz, V. Sadras

Download paper

5. Does Late-season Nitrogen Impact Grain Protein Concentration in Wheat? A Global Meta-analysis

Sustainable improvements in wheat production entails increasing yield while maintaining or improving grain quality, which most of the time are negatively correlated. However, attemps to synchronize N supply with crop N demand through N timing can help to obtain both improved yield and quality by enhancing N use efficiency (NUE) and reducing N losses. Late season applied N is a challenging practice that when used correctly can generate posite NUE impacts. Additionally, a systematic ... R. Lollato, N. Giordano

Download paper

6. Spatial Variability in Profile Soil Nitrate, Nutrient Update, Grain Yield, and Nutrient Removal in a Commercial Dryland Grain Sorghum Field

Established relationships exist that describe the confidence interval around a soil test value as a function of cores in the sample for nutrients such as phosphorus. This information is useful for developing economically and agronomically optimal soil sampling strategies. Residual soil nitrate can be a significant source of a crops N needs in dryland cropping systems where N loss is minimal. A common question among producers and consultants is how many profile N cores are required... L. Haag, S. Patel, P. Tomlinson, E. Santos

Download paper

7. Winter Wheat Response to Enchanced Efficiency Fertilizers in the Canadian Prairies

Optimal nitrogen (N) management can improve agronomic efficiency, and increase winter wheat (Triticum aestivum L.) grain yield and protein content. Two experiments were conducted to measure the responses of winter wheat to enhanced efficiency N fertilizers and timing/placements across the Canadian Prairies. Experiment 1 consisted of uncoated urea, urea+nitrification inhibitor (urea+eNtrench®), urea+urease and nitrification inhibitors (SuperU®), and polymer-coated urea (Envir... Z. Wang, J. Owens, X. Hao, L. Hall, K. Coles, C. Holzapfel, E. Rahmani, R. Karimi dehkordi, B. Beres

Download paper