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2007

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Authors

Albrecht, S

Allison, E

Bai, J

Barben, S

Barbour, J

Bary, A

Bauder, T

Beck, D

Bramley, R

Brown, B

Callahan, R

Cardon, G

Carpenter-Boggs, L

Chen, C

Clay, D

Cogger, C

Corwin Doesken, K

Davenport, J

Deenik, J

Dellavalle, N

Elliott, A

Ellsworth, J

Englund, R

Flynn, R

Fukuda, S

G. Davis, J

Gibson, R

Golob, C

Granatstein, D

Guldan, S

Habteselassie, M

Hamasaki, R

Hoagland, L

Hoefer, B

Hopkins, B

Huggins, D

Ippolito, J

Iversen, K

Johnson, R

Johnston, W

Jolley, V

Jones, C

Khosla, R

Kilby, M

Koenig, R

Kotuby-Amacher, J

Larson, M

Long, D

Love, S

Marcillac, N

Massey, M

Mazzola, M

McIntosh, C

Mikkelsen, R

Miller, B

Mink, A

Moberg, D

Neill, K

Nichols, B

Norton, J

Nunez, H

Ohm, J

Pasakdee, S

Pattnaik, R

Perry, E

Peryea, F

Peterson, C

Petrie, S

Pond, A

Porter, G

Pritchett, J

Proctor, C

Reese, C

Reganold, J

Ross, A

Saint Pierre, C

Schierer, R

Seavert, C

Shaver, T

Sheffield, R

Shiffler, A

Shimabuku, R

Smart, D

Smith, J

Stark, J

Stephens, S

Stevens, R

Stewart, C

Stockert, C

Sullivan, D

Taysom, T

Tindall, T

Uchida, R

Ulery, A

Valencia-Gica, R

Verhoeven, M

Vigil, M

Walser, R

Walworth, J

Webb, B

Weiss, M

Westfall, D

Whiting, M

Wood, B

Yin, F

Yost, R

Zumbrunnen, J

Topics

Type

Oral

Year

2007

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Year

Filter results4 paper(s) found.
1. Agronomic Biosolids Application Rates for Dryland Wheat Across a Range of Northwest Climate Zones Predicting agronomic rates is important to derive optimum economic and environmental benefits from biosolids fertilizer applications. We conducted this research to 1) evaluate dryland wheat response to biosolids applications over a range of climate zones in the Pacific Northwest and 2) compare agronomic application rates predicted from yield curves with those predicted from published extension guidance. We applied a range of biosolids rates during the fallow year in ten on-farm dryland wheat ... A. Bary, D. Sullivan, C. Cogger Download paper
2. Cool Season Mineralization of Recalcitrant Organic N in Undisturbed Cores of Manured Soils The objectives of this study were to (1) quantify cool season N mineralization from recalcitrant organic N in soils with a long history of manure application and (2) examine the relationship between cool season recalcitrant organic N mineralization and a fall mineralizable N index. “Cool season” was defined as October to February for fields with winter crops and October to May for fields with no winter crops. Two in situ trials were conducted with undisturbed so... D. Moberg, D. Sullivan, R. Johnson Download paper
3. Developing Extension Guidance for Management Effects on Ammonia Loss: a Computer Simulation Modeling Approach Computer simulation models provide insight into ammonia loss processes and the sensitivity of ammonia loss predictions to environmental and management variables. As an example of how a simple computer simulation model can inform the Extension guideline development process, the ALFAM (Ammonia Volatilization from Field-Applied Animal Slurry) model was used to estimate NH3 loss from surface- applied municipal biosolids: liquid (3% dry matter) and dewatered (22% dry matter). Model ... D. Sullivan Download paper
4. No-till Grain Production in Wyoming: Status and Potential In dryland cropping systems, optimal yields require that nutrient supply matches the soil’s yield potential supported by available moisture. Conservation tillage systems that leave at least 30 percent of the soil surface covered by residue dramatically increase moisture retained in the soil compared to crop-fallow systems. This enables producers to plant two, three, or four consecutive crops, or continuously, without fallow, but water and nutrient needs are much more closely balanced wi... J. Norton Download paper

Filter results4 paper(s) found.

1. Agronomic Biosolids Application Rates for Dryland Wheat Across a Range of Northwest Climate Zones

Predicting agronomic rates is important to derive optimum economic and environmental benefits from biosolids fertilizer applications. We conducted this research to 1) evaluate dryland wheat response to biosolids applications over a range of climate zones in the Pacific Northwest and 2) compare agronomic application rates predicted from yield curves with those predicted from published extension guidance. We applied a range of biosolids rates during the fallow year in ten on-farm dryland wheat ... A. Bary, D. Sullivan, C. Cogger

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2. Cool Season Mineralization of Recalcitrant Organic N in Undisturbed Cores of Manured Soils

The objectives of this study were to (1) quantify cool season N mineralization from recalcitrant organic N in soils with a long history of manure application and (2) examine the relationship between cool season recalcitrant organic N mineralization and a fall mineralizable N index. “Cool season” was defined as October to February for fields with winter crops and October to May for fields with no winter crops. Two in situ trials were conducted with undisturbed so... D. Moberg, D. Sullivan, R. Johnson

Download paper

3. Developing Extension Guidance for Management Effects on Ammonia Loss: a Computer Simulation Modeling Approach

Computer simulation models provide insight into ammonia loss processes and the sensitivity of ammonia loss predictions to environmental and management variables. As an example of how a simple computer simulation model can inform the Extension guideline development process, the ALFAM (Ammonia Volatilization from Field-Applied Animal Slurry) model was used to estimate NH3 loss from surface- applied municipal biosolids: liquid (3% dry matter) and dewatered (22% dry matter). Model ... D. Sullivan

Download paper

4. No-till Grain Production in Wyoming: Status and Potential

In dryland cropping systems, optimal yields require that nutrient supply matches the soil’s yield potential supported by available moisture. Conservation tillage systems that leave at least 30 percent of the soil surface covered by residue dramatically increase moisture retained in the soil compared to crop-fallow systems. This enables producers to plant two, three, or four consecutive crops, or continuously, without fallow, but water and nutrient needs are much more closely balanced wi... J. Norton

Download paper