Proceedings :: North Central Soil Fertility Conference

Proceedings

Find matching any: Reset

Below, F

» Add more authors

Add filter to result:

Authors

Bernhard, B

Below, F

Beyrer, T

Below, F

Wiegmann, B

Below, F

Bernhard, B

Below, F

Beyrer, T

Below, F

Foxhoven, S

Below, F

Woodward, L

Below, F

Topics

Fertilizer placement comparisons

General

Graduate Award Student Poster

Type

Oral

Poster

Year

2016

2019

2017

2021

2022

Home » Authors » Results

Authors

Filter results7 paper(s) found.
1. Does Maize Need Pre-Plant N if Sub-Drip Fertigation Can be Used To Provide Season Long N? Multiple nitrogen (N) applications are becoming more common as a way to assure adequate N availability for optimum growth and yield of maize (Zea mays L.), while minimizing the potential for negative environmental consequences associated with N loss. Unclear, however, is how much N needs to be applied at planting in order to get the full value of in-season applications. Our objectives were to determine the amount of preplant N needed to maximize maize yield, when additional N is provided... B. Wiegmann, F. Below
2. Can Narrow Row Spacing be Used to Manage Higher Planting Densities of Corn? The average U.S. corn (Zea mays L.) plant density has increased 988 plants ha-1 year-1. As this trend continues, narrow row spacings can be used to increase the distance between plants within a row and provide greater plant spacing across a given area. The overall goal of this study was to understand the relationship between row spacings and planting densities across different hybrids on corn growth and grain yield. The experiment was conducted in Champaign, IL to evaluate the interactions... B. Bernhard, F. Below
3. Identifying Which Management Factors Have the Greatest Impact on Soybean Yields Soybean [Glycine max (L.) Merr.] grain yields are the final products of numerous factors that affect crop growth and development during the growing season; therefore, it is critical to understand the interactions of these factors evaluated as a whole in order to efficiently maximize yield and exploit the yield potential of modern soybean varieties grown under increased levels of management. The objective of this experiment is to evaluate the synergies between several management... T. Beyrer, F. Below
4. Managing Urea Fertilizer for Optimal N Use and Productivity of Corn Corn (Zea mays L.) yield is usually limited by nitrogen (N) availability more than any other nutrient in agricultural soils. Urea is the primary source of inorganic nitrogen fertilizer used worldwide, either as a crystalline solid containing 46% N, or a urea-ammonium nitrate solution (UAN, 28-32%). A major caveat, however, to urea as an N fertilizer is its susceptibility to loss through volatilization when applied to the soil surface. Many products are marketed as nitrogen stabilizers... B. Bernhard, F. Below
5. Do Soil Tests Predict Yield Response to Phosphorus in Modern Corn and Soybean Production? Modern corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] production systems produce higher yields, and consequently, may remove more nutrients than fertilizer rates based upon existing soil test recommendations for these yields. With greater emphasis on soil test levels for nutrient stewardship strategies, soil tests need to also predict critical levels in which fertilized nutrient responses are likely. Current soil test recommendations for Illinois have negligibly... T. Beyrer, F. Below
6. Banded Fertility: Music for Higher Corn Yields There is a need in production agriculture to reduce nutrient loss to the environment and implement more sustainable production practices, but grower adoption has been slow and inconsistent due to fear of reduced yields and profit. However, if new fertilizer technologies can be used to increase nutrient use efficiency and grain yield simultaneously, grower willingness to adapt environmentally sustainable practices is far more likely. We implemented a two-year corn (Zea mays L.) yield study... S. Foxhoven, F. Below Download paper
7. Versatility of Mycorrhizal Fungi Applications to Increase Maize Productivity With rising fertilizer prices and continual water contamination issues, it is vital to establish management factors that maximize productivity, while minimizing nutrient losses to the environment. One potential practice for improving nutrient use and grain yields includes utilizing mycorrhizal fungi. The objectives of this research were to determine the efficacy of various mycorrhiza applications on root colonization and the subsequent grain yield responses of maize (Zea mays... L. Woodward, F. Below Download paper

Filter results7 paper(s) found.

1. Does Maize Need Pre-Plant N if Sub-Drip Fertigation Can be Used To Provide Season Long N?

Multiple nitrogen (N) applications are becoming more common as a way to assure adequate N availability for optimum growth and yield of maize (Zea mays L.), while minimizing the potential for negative environmental consequences associated with N loss. Unclear, however, is how much N needs to be applied at planting in order to get the full value of in-season applications. Our objectives were to determine the amount of preplant N needed to maximize maize yield, when additional N is provided... B. Wiegmann, F. Below

2. Can Narrow Row Spacing be Used to Manage Higher Planting Densities of Corn?

The average U.S. corn (Zea mays L.) plant density has increased 988 plants ha-1 year-1. As this trend continues, narrow row spacings can be used to increase the distance between plants within a row and provide greater plant spacing across a given area. The overall goal of this study was to understand the relationship between row spacings and planting densities across different hybrids on corn growth and grain yield. The experiment was conducted in Champaign, IL to evaluate the interactions... B. Bernhard, F. Below

3. Identifying Which Management Factors Have the Greatest Impact on Soybean Yields

Soybean [Glycine max (L.) Merr.] grain yields are the final products of numerous factors that affect crop growth and development during the growing season; therefore, it is critical to understand the interactions of these factors evaluated as a whole in order to efficiently maximize yield and exploit the yield potential of modern soybean varieties grown under increased levels of management. The objective of this experiment is to evaluate the synergies between several management... T. Beyrer, F. Below

4. Managing Urea Fertilizer for Optimal N Use and Productivity of Corn

Corn (Zea mays L.) yield is usually limited by nitrogen (N) availability more than any other nutrient in agricultural soils. Urea is the primary source of inorganic nitrogen fertilizer used worldwide, either as a crystalline solid containing 46% N, or a urea-ammonium nitrate solution (UAN, 28-32%). A major caveat, however, to urea as an N fertilizer is its susceptibility to loss through volatilization when applied to the soil surface. Many products are marketed as nitrogen stabilizers... B. Bernhard, F. Below

5. Do Soil Tests Predict Yield Response to Phosphorus in Modern Corn and Soybean Production?

Modern corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] production systems produce higher yields, and consequently, may remove more nutrients than fertilizer rates based upon existing soil test recommendations for these yields. With greater emphasis on soil test levels for nutrient stewardship strategies, soil tests need to also predict critical levels in which fertilized nutrient responses are likely. Current soil test recommendations for Illinois have negligibly... T. Beyrer, F. Below

6. Banded Fertility: Music for Higher Corn Yields

There is a need in production agriculture to reduce nutrient loss to the environment and implement more sustainable production practices, but grower adoption has been slow and inconsistent due to fear of reduced yields and profit. However, if new fertilizer technologies can be used to increase nutrient use efficiency and grain yield simultaneously, grower willingness to adapt environmentally sustainable practices is far more likely. We implemented a two-year corn (Zea mays L.) yield study... S. Foxhoven, F. Below

Download paper

7. Versatility of Mycorrhizal Fungi Applications to Increase Maize Productivity

With rising fertilizer prices and continual water contamination issues, it is vital to establish management factors that maximize productivity, while minimizing nutrient losses to the environment. One potential practice for improving nutrient use and grain yields includes utilizing mycorrhizal fungi. The objectives of this research were to determine the efficacy of various mycorrhiza applications on root colonization and the subsequent grain yield responses of maize (Zea mays... L. Woodward, F. Below

Download paper