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Authors

Adjesiwor, A

Andrews, J

Auld, R

Bell, G

Black, B

Bremer, E

Butler, C

Cardon, G

Chen, K

Chen, L

Cox, A

Das, A.K

Deep, K

Ellickson, S

Foster, M.J

Greer, K

Hatch, J

Hopkins, B

Howard, N

Jacobsen, T

Jenkins, A

Kerr, R

Kulesza, S.B

LeMonte, J.J

Moore, A

Moore, J

Nelson, S.V

Okorie, B

Ritchie, R

Rogers, C

Sagers, J

Sannar, R.E

Schroeder, K

Seely, C

Spackman, J

Williams, J

Yost, M

Young, K

Zhang, Y

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Student Posters

Type

Poster

Year

2025

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Filter results15 paper(s) found.
1. Precision Fertilizer Management Enabled by Printed Sensors for Direct Soil Nitrate Monitoring Modern farming relies on intensive fertilizer applications to ensure the plant production. However, a key challenge in fertilizer management, particularly nitrogen, is achieving a balance between maximizing crop yields and pursuing environmental stewardship. Uniform fertilizer applications often result in inefficiencies. Some areas receive insufficient fertilizer, resulting in reduced crop yields and caused financial losses. In contrast, other areas receive excessive amounts, leading to surpl... K. Chen, J. Andrews
2. Lime Incubation for Southern Idaho Soils Soil acidity is a growing concern for agricultural productivity in Idaho, particularly in the eastern and northern regions where soils are trending acidic. Soil acidity below a pH 5.5 adversely affects the root development and nutrient uptake of crops like alfalfa, barley, and wheat. This study aims to determine the lime requirements for acidic soils in Idaho to optimize crop growth, specifically targeting pH levels of 5.5, 6.0, 6.5, and 7.0. Soil samples were collected from various grower fi... K. Young, J. Spackman, T. Jacobsen, J. Sagers, J. Hatch, R. Ritchie, J. Williams, K. Schroeder, A. Adjesiwor
3. Application Timing, Soil Type, and Source Effects on Elemental S Availability The reduction in acid rain due to increased regulation of manufacturers in the U.S. has led to S deficiencies in agricultural crops. In response, elemental sulfur (S) fertilizer products are becoming more widely available to growers, but have not been evaluated for their S availability and S oxidation characteristics. The objective of our research was to evaluate the S availability and S oxidation rates of five elemental S fertilizer products. The evaluation was done using two Oregon soil typ... A. Cox, A. Moore
4. Soil Property Effect on Nitrogen Mineralization of Dairy Manure in the Pacific Northwest Growers often use total nitrogen (N) concentration of dairy to manure to estimate plant available N for crop production. This estimate, however, ignores the role that soil properties may have on N mineralization (Nmin) rates. This study aims to determine how soil physiochemical properties impact Nmin rates of dairy manure and composted dairy manure by aerobic incubation. Sixteen soils, sampled from 0-12 inch depths (0-30.5 cm) were collected from dairy production regions in Oregon, Washington... R. Auld, A. Moore, J. Moore, Y. Zhang, C. Rogers
5. Greenhouse Lime and Gypsum Placement Strategies for Addressing Soil Acidity in No-till Dryland soft white winter wheat growers in the inner Pacific Northwest states including Washington, Oregon, and Idaho practice no-till to preserve the health and structure of their soil. Beginning in the 1960's, due to the usage and ammonium fertilizers and the nitrification of these fertilizers, the natively alkaline soils in this region have become increasingly acidic resulting is issues like low soil pH, mineral nutrient deficiencies, and aluminum toxicity. Gen... A. Moore, S. Ellickson
6. Ammonia Volatilization from Surface-applied Dairy Manure Anaerobic Digestate Anaerobic digesters are becoming increasingly common in the dairy industry as a more environmentally sustainable method to manage manure. However, the impact of the anaerobic digestion process on manure ammonium (NH4-N) composition and ammonia (NH3) volatilization potential are not well understood. The objectives of this study were to compare NH4-N concentrations and cumulative loss of NH3 by volatilization between influent, or raw manure, and ... C. Butler, A. Moore, S.B. Kulesza
7. Effectiveness of Kitchen Compost in Germinating Tomato and Lettuce Food waste in developed countries is a large input to landfills. Ideally, it is composted and added to soil on-site to reduce environmental impacts. A “kitchen composter” (ReencleTM) effectively decomposes waste within 24 hours (>90% reduction in mass), followed by formation of stable compost within a few weeks after curing outside the composter. Our preliminary research demonstrates that the compost has excellent nutrient composition. However, it was not adequately ... B. Hopkins, R. Kerr, S.V. Nelson
8. Quinoa Mineral Nutrient Deficiency Symptoms and Concentrations Major crop nutrient symptoms are well documented. In contrast, there is often minimal or no similar information for minor crops, including quinoa (Chenopodium quinoa Willd.). This knowledge gap can be efficiently filled by using hydroponic systems. However, creating multiple nutrient deficiencies with plants in the same study is challenging because nutrients are often added as dual nutrient salts. For example, if potassium sulfate is the potassium (K) source, varying K concentra... B. Hopkins, G. Bell, S.V. Nelson, R.E. Sannar
9. Ammonia Recovery from Anaerobically Digested Dairy Wastewater Facilitated by In-situ Acid and Base Generation in a Transmembrane Electro-chemisorption System Nitrogen (N) is essential for living organisms and is a critical element in agricultural production. Ammonia (NH₃), a vital component in the nitrogen cycle, can be produced naturally by nitrogen-fixing bacteria or artificially through the energy-intensive Haber-Bosch process. Anaerobically digested dairy wastewater (ADDW) could contain high concentrations of ammonia nitrogen (NH3-N) due to the conversion of organic N into NH3-N during the anaerobic digestion process. A... A.K. Das, L. Chen
10. 4R Nitrogen Management Effects on Silage Corn Production The 4R nutrient stewardship framework aims to improve fertilizer management through four core principles: right source, rate, time, and place. Nitrogen is one of the most important and costly inputs for silage corn production. Excessive or inefficient N applications rapidly decrease profits for growers and can cause environmental concerns. Nitrogen loss can occur through leaching, runoff, and denitrification. Most previous studies evaluating N management for silage corn have only examined one... B. Okorie, M. Yost, K. Deep, N. Howard
11. Nitrogen Removal Potential of Triticale in Cropping Systems Receiving Dairy Effluent Applications Field applications of lagoon effluent are common for dairy production systems in Northeastern Oregon. However, N in the effluent is susceptible to nitrate leaching losses which can cause water quality issues, especially from winter effluent applications when crop N uptake is slower. Triticale, which is derived from a cross between rye and wheat, is a common forage crop in this region that is well suited to take up excess nutrients like N. The objective of the project is to evaluate the in-sea... A. Jenkins
12. Polymer Coated Urea: Microplastics in Agricultural Landscapes Polymer Coated Urea (PCU) is effective in supplying nitrogen (N) to plants with reduced leaching, denitrification, and volatilization losses to the environment. However, microplastics pollution is a concern due to residual amounts in soil and possible transport to surface water. The purpose of this irrigated sweet corn (Zea mays convar.) field study at Provo, UT was to determine the potential for off-site transport of plastic coatings in agricultural landscapes. Treatments included a... C. Seely , J.J. Lemonte, B. Hopkins
13. Effect of 4R Nitrogen Management on Residual Soil Nitrate and Soil Health Nitrogen is one of the most important and expensive inputs for forage, grain, vegetable, and fruit crops. Excessive fertilizer reduces profit for farmers and can cause environmental harm. Nitrate leaching is the main factor contributing to rising nitrate levels in groundwater, leading to water quality degradation. The 4R nutrient stewardship framework aims to optimize fertilizer management. The Right rate matches the amount of fertilizer to the crop needs, the Right source matches fertilizer ... K. Deep, M. Yost, J. Williams, B. Hopkins, G. Cardon, B. Black
14. Banana Fiber as a Soil Amendment in Potato and Corn Banana (Musa spp. L.) pseudostem fiber has unique properties that may prove helpful in plant and soil management, including a high water holding capacity. Increased capacity could be useful in water conservation efforts in areas experiencing long-term drought. In the agricultural space, banana fiber could be used to maintain soil moisture, thus lowering the frequency and/or amount of irrigation. The objectives of irrigated field studies in Provo, UT, USA were to measure the impact of... B. Hopkins, M.J. Foster, S.V. Nelson
15. Recovered Carbon Black from Pyrolyzed Tires as a Zinc Fertilizer for Field Corn in Calcareous Soils Waste tires exist in immense quantities, representing a substantial pollution source containing a variety of environmentally concerning components, including the heavy metal zinc (Zn) added as Zn oxide (ZnO) during tire manufacture. Pyrolysis under high vacuum is a potential disposal solution. One of the by-products of this process is recovered Carbon Black (CB) that is enriched in Zn, an essential plant nutrient. Our objective was to determine if recovered CB from can serve as a fertilizer Z... R.E. Sannar, E. Bremer, K. Greer, B. Hopkins

Filter results15 paper(s) found.

1. Precision Fertilizer Management Enabled by Printed Sensors for Direct Soil Nitrate Monitoring

Modern farming relies on intensive fertilizer applications to ensure the plant production. However, a key challenge in fertilizer management, particularly nitrogen, is achieving a balance between maximizing crop yields and pursuing environmental stewardship. Uniform fertilizer applications often result in inefficiencies. Some areas receive insufficient fertilizer, resulting in reduced crop yields and caused financial losses. In contrast, other areas receive excessive amounts, leading to surpl... K. Chen, J. Andrews

2. Lime Incubation for Southern Idaho Soils

Soil acidity is a growing concern for agricultural productivity in Idaho, particularly in the eastern and northern regions where soils are trending acidic. Soil acidity below a pH 5.5 adversely affects the root development and nutrient uptake of crops like alfalfa, barley, and wheat. This study aims to determine the lime requirements for acidic soils in Idaho to optimize crop growth, specifically targeting pH levels of 5.5, 6.0, 6.5, and 7.0. Soil samples were collected from various grower fi... K. Young, J. Spackman, T. Jacobsen, J. Sagers, J. Hatch, R. Ritchie, J. Williams, K. Schroeder, A. Adjesiwor

3. Application Timing, Soil Type, and Source Effects on Elemental S Availability

The reduction in acid rain due to increased regulation of manufacturers in the U.S. has led to S deficiencies in agricultural crops. In response, elemental sulfur (S) fertilizer products are becoming more widely available to growers, but have not been evaluated for their S availability and S oxidation characteristics. The objective of our research was to evaluate the S availability and S oxidation rates of five elemental S fertilizer products. The evaluation was done using two Oregon soil typ... A. Cox, A. Moore

4. Soil Property Effect on Nitrogen Mineralization of Dairy Manure in the Pacific Northwest

Growers often use total nitrogen (N) concentration of dairy to manure to estimate plant available N for crop production. This estimate, however, ignores the role that soil properties may have on N mineralization (Nmin) rates. This study aims to determine how soil physiochemical properties impact Nmin rates of dairy manure and composted dairy manure by aerobic incubation. Sixteen soils, sampled from 0-12 inch depths (0-30.5 cm) were collected from dairy production regions in Oregon, Washington... R. Auld, A. Moore, J. Moore, Y. Zhang, C. Rogers

5. Greenhouse Lime and Gypsum Placement Strategies for Addressing Soil Acidity in No-till

Dryland soft white winter wheat growers in the inner Pacific Northwest states including Washington, Oregon, and Idaho practice no-till to preserve the health and structure of their soil. Beginning in the 1960's, due to the usage and ammonium fertilizers and the nitrification of these fertilizers, the natively alkaline soils in this region have become increasingly acidic resulting is issues like low soil pH, mineral nutrient deficiencies, and aluminum toxicity. Gen... A. Moore, S. Ellickson

6. Ammonia Volatilization from Surface-applied Dairy Manure Anaerobic Digestate

Anaerobic digesters are becoming increasingly common in the dairy industry as a more environmentally sustainable method to manage manure. However, the impact of the anaerobic digestion process on manure ammonium (NH4-N) composition and ammonia (NH3) volatilization potential are not well understood. The objectives of this study were to compare NH4-N concentrations and cumulative loss of NH3 by volatilization between influent, or raw manure, and ... C. Butler, A. Moore, S.B. Kulesza

7. Effectiveness of Kitchen Compost in Germinating Tomato and Lettuce

Food waste in developed countries is a large input to landfills. Ideally, it is composted and added to soil on-site to reduce environmental impacts. A “kitchen composter” (ReencleTM) effectively decomposes waste within 24 hours (>90% reduction in mass), followed by formation of stable compost within a few weeks after curing outside the composter. Our preliminary research demonstrates that the compost has excellent nutrient composition. However, it was not adequately ... B. Hopkins, R. Kerr, S.V. Nelson

8. Quinoa Mineral Nutrient Deficiency Symptoms and Concentrations

Major crop nutrient symptoms are well documented. In contrast, there is often minimal or no similar information for minor crops, including quinoa (Chenopodium quinoa Willd.). This knowledge gap can be efficiently filled by using hydroponic systems. However, creating multiple nutrient deficiencies with plants in the same study is challenging because nutrients are often added as dual nutrient salts. For example, if potassium sulfate is the potassium (K) source, varying K concentra... B. Hopkins, G. Bell, S.V. Nelson, R.E. Sannar

9. Ammonia Recovery from Anaerobically Digested Dairy Wastewater Facilitated by In-situ Acid and Base Generation in a Transmembrane Electro-chemisorption System

Nitrogen (N) is essential for living organisms and is a critical element in agricultural production. Ammonia (NH₃), a vital component in the nitrogen cycle, can be produced naturally by nitrogen-fixing bacteria or artificially through the energy-intensive Haber-Bosch process. Anaerobically digested dairy wastewater (ADDW) could contain high concentrations of ammonia nitrogen (NH3-N) due to the conversion of organic N into NH3-N during the anaerobic digestion process. A... A.K. Das, L. Chen

10. 4R Nitrogen Management Effects on Silage Corn Production

The 4R nutrient stewardship framework aims to improve fertilizer management through four core principles: right source, rate, time, and place. Nitrogen is one of the most important and costly inputs for silage corn production. Excessive or inefficient N applications rapidly decrease profits for growers and can cause environmental concerns. Nitrogen loss can occur through leaching, runoff, and denitrification. Most previous studies evaluating N management for silage corn have only examined one... B. Okorie, M. Yost, K. Deep, N. Howard

11. Nitrogen Removal Potential of Triticale in Cropping Systems Receiving Dairy Effluent Applications

Field applications of lagoon effluent are common for dairy production systems in Northeastern Oregon. However, N in the effluent is susceptible to nitrate leaching losses which can cause water quality issues, especially from winter effluent applications when crop N uptake is slower. Triticale, which is derived from a cross between rye and wheat, is a common forage crop in this region that is well suited to take up excess nutrients like N. The objective of the project is to evaluate the in-sea... A. Jenkins

12. Polymer Coated Urea: Microplastics in Agricultural Landscapes

Polymer Coated Urea (PCU) is effective in supplying nitrogen (N) to plants with reduced leaching, denitrification, and volatilization losses to the environment. However, microplastics pollution is a concern due to residual amounts in soil and possible transport to surface water. The purpose of this irrigated sweet corn (Zea mays convar.) field study at Provo, UT was to determine the potential for off-site transport of plastic coatings in agricultural landscapes. Treatments included a... C. Seely , J.J. Lemonte, B. Hopkins

13. Effect of 4R Nitrogen Management on Residual Soil Nitrate and Soil Health

Nitrogen is one of the most important and expensive inputs for forage, grain, vegetable, and fruit crops. Excessive fertilizer reduces profit for farmers and can cause environmental harm. Nitrate leaching is the main factor contributing to rising nitrate levels in groundwater, leading to water quality degradation. The 4R nutrient stewardship framework aims to optimize fertilizer management. The Right rate matches the amount of fertilizer to the crop needs, the Right source matches fertilizer ... K. Deep, M. Yost, J. Williams, B. Hopkins, G. Cardon, B. Black

14. Banana Fiber as a Soil Amendment in Potato and Corn

Banana (Musa spp. L.) pseudostem fiber has unique properties that may prove helpful in plant and soil management, including a high water holding capacity. Increased capacity could be useful in water conservation efforts in areas experiencing long-term drought. In the agricultural space, banana fiber could be used to maintain soil moisture, thus lowering the frequency and/or amount of irrigation. The objectives of irrigated field studies in Provo, UT, USA were to measure the impact of... B. Hopkins, M.J. Foster, S.V. Nelson

15. Recovered Carbon Black from Pyrolyzed Tires as a Zinc Fertilizer for Field Corn in Calcareous Soils

Waste tires exist in immense quantities, representing a substantial pollution source containing a variety of environmentally concerning components, including the heavy metal zinc (Zn) added as Zn oxide (ZnO) during tire manufacture. Pyrolysis under high vacuum is a potential disposal solution. One of the by-products of this process is recovered Carbon Black (CB) that is enriched in Zn, an essential plant nutrient. Our objective was to determine if recovered CB from can serve as a fertilizer Z... R.E. Sannar, E. Bremer, K. Greer, B. Hopkins