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Cominelli, S
Carter, P
Schaefer, D
Purucker, T
Bundy, L
Thompson, A
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Bandura, C
Laboski, C
Camberato, J
Carter, P
Ferguson, R
Fernandez, F
Franzen, D
Kitchen, N
Nafziger, E
Sawyer, J
Shanahan, J
Shafer, M
Camberato, J
Carter, P
Ferguson, R
Fernandez, F
Franzen, D
Kitchen, N
Laboski, C
Nafziger, E
Nielsen, R
Sawyer, J
Shanahan, J
Conway, L
Kitchen, N
Yost, M
Sudduth, K
Thompson, A
Nafziger, E
Schaefer, D
Yost, M
Kitchen, N
Sudduth, K
Thompson, A
Schaefer, D
Brown, H
Schaefer, D
Brown, H
Schaefer, D
Brown, H
Schaefer, D
Brown, H
Schaefer, D
Brown, H
Purucker, T
Steinke, K
McDaniel, M
Walters, D
Bundy, L
Laboski, C
Scharf, P
Drijber, R
Horwath, W
Sawyer, J
Sawyer, J
Castellano, M
Purucker, T
Steinke, K
Rolle, F
Preza Fontes, G
Schaefer, D
Vossenkemper, J
Brevik, E
Sadeghpour, A
Rolle, F
Schaefer, D
Preza Fontes, G
Javid, M
Ruiz Diaz, D
Cominelli, S
Lacasa, J
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Graduate Student Award Poster
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Filter results16 paper(s) found.

1. Post-Harvest Soil Nitrate Following Corn Production in Eight Midwestern States

Applying nitrogen (N) at economically optimal rates (EONR) and at times of rapid crop uptake are practices that are thought to minimize the amount of residual soil nitrate (RSN) in the profile that may be susceptible to loss. The objective of this study was to evaluate the effects of rate (0 to 280 lb N/a in 40 lb increments) and timing (pre-plant (PP) or PP plus V9 sidedress (PP+SD)) of N application on corn grain yield and RSN in the top 3 feet of soil relative to the calculated EONR. Thirty-two... C. Bandura, C. Laboski, J. Camberato, P. Carter, R. Ferguson, F. Fernandez, D. Franzen, N. Kitchen, E. Nafziger, J. Sawyer, J. Shanahan

2. Variation in Internal N Efficiency of Corn and Impact on Yield-Goal Based N Recommendations

Internal N efficiency (IE) is defined as bushels per acre (GY) produced per pound of N per acre (PMN) in the plant at physiological maturity (R6). Internal N efficiency defines the required amount of plant N content at R6 in a yield-goal based N rate recommendations (currently used in 30 U.S. states) and several commercial N recommendation models. Commonly IE is assumed to be constant at an approximate value of 0.8 bu lb-N-1 in yield-goal based recommendations. Our research objective was... M. Shafer, J. Camberato, P. Carter, R. Ferguson, F. Fernandez, D. Franzen, N. Kitchen, C. Laboski, E. Nafziger, R. Nielsen, J. Sawyer, J. Shanahan

3. Determining Cropping System and Topsoil Depth Effects on Phosphorus and Potassium Nutrient Dynamics

Understanding the effects of fertilizer addition and crop removal on long-term change in soil test phosphorus (STP) and soil test potassium (STK) is crucial for maximizing the use of grower inputs on claypan soils. Due to variable topsoil depth, nutrient supply from subsoils, and crop removal across fields, accurate P and K fertilizer management can be challenging. Current Missouri fertilizer recommendations rely on a single buffering capacity for all soils throughout the state for P, and are only...

4. Are We Getting Better at Supplying Corn with Nitrogen?

While the MRTN approach to making N rate guidelines is an improvement over previous methods, there remains the question about whether or not the database is sufficiently large to support the results adequately. This question is brought into focus when N rates used according to the MRTN guidelines are seen (or at least perceived) as being be inadequate in a given field or area in a given year. Other entities now making N rate recommendations may also market against the MRTN approach by raising doubts...

5. Topsoil Depth Influences Switchgrass Nitrogen Managment on Claypan Soils

Switchgrass (Panicum virgatum L.) is an attractive forage or bioenergy crop option for eroded portions of claypan landscapes where grain crop production is marginally profitable. Topsoil depth to the claypan can vary widely within fields and little information exists on the impacts of the topsoil depth on nitrogen (N) management of switchgrass. Therefore, a study was initiated in 2009 at University of Missouri South Farm located near Columbia, MO on a site known as Soil Productivity Assessment for...

6. Maximizing Yield, Income, and Water Quality

Those involved with Midwest production agriculture are aware that applications of nitrogen fertilizer can have unintended consequences upon water quality. It is our focus to minimize the potential of such environmental risks by working together to optimize harvest yields, and to maximize nitrogen utilization through the use of science-based initiatives, such as development of nitrogen management systems and N-WATCH. Sustainability of voluntary efforts to minimize the environmental impact of nitrogen...

7. Maximizing Yield, Income, and Water Quality

To improve farm profitability and minimize environmental impact of nitrogen (N) use by reducing N losses and increasing harvest yield. Nitrogen Management System: A planned approach to N use that achieves better plant utilization and higher harvest yield with less environmental loss. It promotes a multiple application approach to N Management. It reduces early N application rates while emphasizing post-emerge N nutrition. It is about making incremental N applications that will Minimize environmental...

8. Maximizing Yield, Income, and Water Quality

N-WATCH is a management tool designed for N Management Systems to inventory, track, and verify plant-available N in the soil. N Management Systems hedge the risk of N loss by splitting up the N application following the 4Rs of Nutrient Management (Right source, Right rate, Right time, and Right place). It is all about Minimizing environmental impact by Optimizing harvest yield, and Maximizing nutrient utilization. It is all about focusing on M.O.M. Who is eligible: Ag Producers that are adopting...

9. Maximizing Yield, Income, and Water Quality

A program sponsored by the Illinois Council for Best Management Practices (CBMP) to provide local growers an estimate of the location, form, and concentration of plant- available N remaining in the soil. Plant-available N at a point in a field and a point in time can be estimated utilizing this technique and provide information that may help minimize environmental impact by improving harvest yield and maximizing nitrogen utilization. (This is not to be used as a stand-alone N recommendation system.)...

10. Maximizing Yield, Income, and Water Quality

A program sponsored by the Illinois Council for Best Management Practices (CBMP) to provide local growers an estimate of the location, form, and concentration of plant-available N remaining in the soil. Plant-available N at a point in a field and a point in time can be estimated utilizing this technique and provide information that may help minimize environmental impact by improving harvest yield and maximizing nitrogen utilization. (This is not to be used as a stand-alone N recommendation system.)...

11. Soybean Seeding Rate and Nutrient Interactions on Growth and Yield in Michigan

Soybean (Glycine max L. Merr.) prices are forecast to remain stagnant placing greater emphasis on production costs for growers across Michigan. Seeding rates and fertility inputs are two factors producers can manage to influence economic return. Field research was conducted in Richville and Lansing, MI in 2017 to evaluate biomass production and yield in response to nutrient inputs and help determine economically optimal seeding rates. The study was designed... T. Purucker, K. Steinke

12. A Combination of Soil Incubation and Chemical Extraction Tests Best Predicts Corn Yield Response to Fertilizer Nitrogen

Soil tests in general have served a critical role in the field of soil fertility for over half a century, and have helped to increase crop productivity and promote more efficient use of fertilizers on farms. However, N soil tests have limitations and chemical extraction tests have not predicted well the potentially mineralizable N supplied to corn over a growing season. Thus, these tests often do not accurately predict a corn’s yield response to fertilizer N. We explored 30 soil tests for... M. Mcdaniel, D. Walters, L. Bundy, C. Laboski, P. Scharf, R. Drijber, W. Horwath, J. Sawyer, J. Sawyer, M. Castellano

13. Nitrogen Timing and Sidedress Placement Strategies in Michigan

Nitrogen (N) timing and placement methods are key components to improve corn (Zea mays L.) N management. Studies were initiated in Richville and Lansing, MI in 2017 utilizing four N timing strategies including 100% N broadcast after planting (PRE); 50% N pre-plant incorporated with 50% N sidedressed (SD) at V6 (50/50); no pre-plant N with 100% N SD V6 (0/100); and 40 lbs N A-1 applied 2-in below and to the side of the seed (2x2) with remaining N SD V6. The PRE strategy was also applied... T. Purucker, K. Steinke

14. Soybean Yield Response to Nitrogen and Sulfur Starter Fertilizers Under Conservation Tillage

Context: No-tillage and cover crops adoption remain limited across the U.S. North Central region due to concerns about potential yield penalties in cash crops. High residue levels can slow soil warming and mineralization and promote nutrient immobilization, often leading to limited early-season nitrogen (N) and sulfur (S) availability for soybean. Objective: Evaluate soybean grain yield response under different tillage systems and assess the potential of N and S starter fertilization... F. Rolle, G. Preza fontes, D. Schaefer, J. Vossenkemper

15. Soybean Response to Tillage, Row Spacing and Nutrient Management Practices in Southern Illinois

Conservation tillage improves long-term soil health and water quality but may reduce early soybean (Glycine max L.) growth due to cooler, wetter soils and limited nutrient availability. This study evaluated integrated management strategies, including tillage, row spacing, and starter nitrogen (N) and sulfur (S) fertilization, to optimize soybean performance under Illinois conditions. Field trials were established in 2024 in southern Illinois. Two split-plot experiments were conducted:... E. Brevik, A. Sadeghpour, F. Rolle, D. Schaefer, G. Preza fontes, M. Javid

16. Evaluating Classification Methods for Phosphorus Responsiveness for Fertilizer Recommendations

Field crop yield responses to fertilizer applications are often uncertain, and the likelihood of a response at a given site is typically determined using correlation-based soil test methods whose accuracy is not well established. The objective of this study was to evaluate three alternative approaches to classify field sites as responsive or non-responsive to phosphorus (P) fertilization in wheat. The methods tested were: (i) a linear-plateau correlation model, (ii) a linear-plateau correlation... D. Ruiz diaz, S. Cominelli, J. Lacasa