Proceedings :: Great Plains Soil Fertility

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Simon, L

Sherrod, L

Schmitt, M

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Authors

Obour, A

Holman, J

Simon, L

Schlegel, A

Holman, J

Obour, A

Schlegel, A

Simon, L

Obour, A

Holman, J

Roozeboom, K

Mauler, P

Holman , J

Obour , A

Simon, L

Roozeboom , K

Obour, A

Holman, J

Simon, L

Assefa, Y.M

Simon, L

Obour, A

Holman, J

Johnson, S.K

Obour, A

Carson, Z

Akporsoe, P

Simon, L

Holman, J

Akporsoe, P

Obour, A

Holman, J

Harmoney, K

Carson, Z

Simon, L

Ruiz Diaz, D

Topics

Soil Management

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2020

2022

2024

2026

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Filter results8 paper(s) found.
1. Strategic Tillage Effects on Crop Yield and Soil Properties and Dryland Crop Rotations This study evaluated strategic tillage (ST) to control HR weeds and improve crop yields in an otherwise long-term no-till (NT) soil. Treatments were five crop rotations: 1) continuous winter wheat (Triticum aestivum L.) (WW); 2) wheat-fallow (WF); 3) wheat-sorghum (Sorghum bicolor L.)-fallow (WSF); 4) continuous sorghum (SS); and 5) sorghum-fallow (SF) as main plots. The sub-plot were reduced tillage (RT), continuous NT, and ST of NT. Results showed tillage (ST or RT)... A. Obour, J. Holman, L. Simon, A. Schlegel
2. Long-term Forage Rotation Yields, Soil Water Use, and Profitability Forages are important for the region’s livestock industry and are becoming increasingly important as irrigation capacity and grain prices decrease. Forages require less water than grain crops and may allow for increasing cropping system intensification and opportunistic cropping. A study was initiated in 2012 at the Southwest Research-Extension Center near Garden City, KS, comparing several 1-, 3-, and 4-year forage rotations with no-tillage and minimum-tillage. Data presented are from 2013... J. Holman, A. Obour, A. Schlegel, L. Simon Download paper
3. Long-term Cover Crop Effects on Soil Organic Carbon, Nitrogen Stocks, and Water Stable Aggregates in the Semiarid Central Great Plains Growing cover crops (CC) in semiarid dryland cropping systems in the central Great Plains (CGP) may provide several benefits to soil health. This study examined long-term CC management effects on soil health in a no-till winter wheat (Triticum aestivum L.)–grain sorghum (Sorghum bicolor L.)–fallow (WSF) cropping system in southwestern Kansas. The experimental design was a split-split-plot randomized complete block with four replications. Main plots were... L. Simon, A. Obour, J. Holman, K. Roozeboom Download paper
4. Soil Properties Affected by Grazing and Tillage of Annual Forages No-till (NT) management of annual crop production systems increases precipitation capture and storage. However, compaction with annual livestock grazing and the development of herbicide resistant weeds present challenges to long-term NT. An on-farm study was established in 2016 near Jetmore, KS to investigate the influence of annual tillage with a sweep plow compared to NT in a grazed continuous winter triticale production system. Forage productivity as well as weed density and soil properties... P. Mauler, J. Holman , A. Obour , L. Simon, K. Roozeboom Download paper
5. Soil Properties and Winter Wheat Nutrient Uptake As Affected by Long-term Tillage and Nitrogen Fertilization Knowledge gained on the long-term effects of crop management practices on soil fertility is critical in developing nutrient management strategies to optimize crop yields and environmental sustainability in semi-arid cropping systems. This study examined the long-term effects of nitrogen (N) fertilizer management and tillage intensity [conventional tillage (CT), and no-tillage (NT)] on soil properties and nutrient uptake in a dryland wheat-sorghum-fallow cropping system. Results showed winter wheat... A. Obour, J. Holman, L. Simon, Y.M. Assefa Download paper
6. Post-wheat Summer Cover Crop Effects Crop Yields and Soil Properties in a No-till Dryland Cropping System Traditional dryland cropping systems in the semi-arid Great Plains include long fallow periods of up to 14 months to conserve soil moisture. However, such systems are inefficient even under continuous no-till (NT) management. As less water is necessary to produce forage compared to grain, cover crops (CCs) may be successfully integrated into dryland crop rotations for increased soil cover and potentially greater income when hayed or grazed as annual forages. One study was initiated in 2016 near... L. Simon, A. Obour, J. Holman, S.K. Johnson Download paper
7. Cover Crop Planting Time Effects on Biomass Productivity, Soil Health and Wheat Yield in Dryland Systems Ecosystems benefits of cover crops (CCs) in semi-arid dryland cropping systems are dependent on CC biomass productivity. This study evaluated how CC planting time (spring vs. fall) and fallow management practices [no-tillage (NT) vs. occasional tillage (OT)] influenced CC biomass, surface residue, selected soil health properties and crop yields in within a winter wheat (Triticum aestivum L.)-sorghum (Sorghum bicolor Moench)–fallow (WSF) rotation. The experiment was conducted from... A. Obour, Z. Carson, P. Akporsoe, L. Simon, J. Holman Download paper
8. Short-Term Changes in Soil Properties Following Simulated Wildfire After Winter Wheat Harvest Wildfires on croplands can destroy residue cover, soil organic matter and negatively impact crops yields in semi-arid Great. Approximately 16 acre field of winter wheat stubble was subjected to wildfire event at Kansas State University Agricultural Research Center near Hays, KS to study management strategies that can restore soil health in croplands impacted by wildfires. Control burning to stimulated wildfire was done in summer 2025 by igniting fire on a down-wind corner at the interface... P. Akporsoe, A. Obour, J. Holman, K. Harmoney, Z. Carson, L. Simon, D. Ruiz diaz Download paper

Filter results8 paper(s) found.

1. Strategic Tillage Effects on Crop Yield and Soil Properties and Dryland Crop Rotations

This study evaluated strategic tillage (ST) to control HR weeds and improve crop yields in an otherwise long-term no-till (NT) soil. Treatments were five crop rotations: 1) continuous winter wheat (Triticum aestivum L.) (WW); 2) wheat-fallow (WF); 3) wheat-sorghum (Sorghum bicolor L.)-fallow (WSF); 4) continuous sorghum (SS); and 5) sorghum-fallow (SF) as main plots. The sub-plot were reduced tillage (RT), continuous NT, and ST of NT. Results showed tillage (ST or RT)... A. Obour, J. Holman, L. Simon, A. Schlegel

2. Long-term Forage Rotation Yields, Soil Water Use, and Profitability

Forages are important for the region’s livestock industry and are becoming increasingly important as irrigation capacity and grain prices decrease. Forages require less water than grain crops and may allow for increasing cropping system intensification and opportunistic cropping. A study was initiated in 2012 at the Southwest Research-Extension Center near Garden City, KS, comparing several 1-, 3-, and 4-year forage rotations with no-tillage and minimum-tillage. Data presented are from 2013... J. Holman, A. Obour, A. Schlegel, L. Simon

Download paper

3. Long-term Cover Crop Effects on Soil Organic Carbon, Nitrogen Stocks, and Water Stable Aggregates in the Semiarid Central Great Plains

Growing cover crops (CC) in semiarid dryland cropping systems in the central Great Plains (CGP) may provide several benefits to soil health. This study examined long-term CC management effects on soil health in a no-till winter wheat (Triticum aestivum L.)–grain sorghum (Sorghum bicolor L.)–fallow (WSF) cropping system in southwestern Kansas. The experimental design was a split-split-plot randomized complete block with four replications. Main plots were... L. Simon, A. Obour, J. Holman, K. Roozeboom

Download paper

4. Soil Properties Affected by Grazing and Tillage of Annual Forages

No-till (NT) management of annual crop production systems increases precipitation capture and storage. However, compaction with annual livestock grazing and the development of herbicide resistant weeds present challenges to long-term NT. An on-farm study was established in 2016 near Jetmore, KS to investigate the influence of annual tillage with a sweep plow compared to NT in a grazed continuous winter triticale production system. Forage productivity as well as weed density and soil properties... P. Mauler, J. Holman , A. Obour , L. Simon, K. Roozeboom

Download paper

5. Soil Properties and Winter Wheat Nutrient Uptake As Affected by Long-term Tillage and Nitrogen Fertilization

Knowledge gained on the long-term effects of crop management practices on soil fertility is critical in developing nutrient management strategies to optimize crop yields and environmental sustainability in semi-arid cropping systems. This study examined the long-term effects of nitrogen (N) fertilizer management and tillage intensity [conventional tillage (CT), and no-tillage (NT)] on soil properties and nutrient uptake in a dryland wheat-sorghum-fallow cropping system. Results showed winter wheat... A. Obour, J. Holman, L. Simon, Y.M. Assefa

Download paper

6. Post-wheat Summer Cover Crop Effects Crop Yields and Soil Properties in a No-till Dryland Cropping System

Traditional dryland cropping systems in the semi-arid Great Plains include long fallow periods of up to 14 months to conserve soil moisture. However, such systems are inefficient even under continuous no-till (NT) management. As less water is necessary to produce forage compared to grain, cover crops (CCs) may be successfully integrated into dryland crop rotations for increased soil cover and potentially greater income when hayed or grazed as annual forages. One study was initiated in 2016 near... L. Simon, A. Obour, J. Holman, S.K. Johnson

Download paper

7. Cover Crop Planting Time Effects on Biomass Productivity, Soil Health and Wheat Yield in Dryland Systems

Ecosystems benefits of cover crops (CCs) in semi-arid dryland cropping systems are dependent on CC biomass productivity. This study evaluated how CC planting time (spring vs. fall) and fallow management practices [no-tillage (NT) vs. occasional tillage (OT)] influenced CC biomass, surface residue, selected soil health properties and crop yields in within a winter wheat (Triticum aestivum L.)-sorghum (Sorghum bicolor Moench)–fallow (WSF) rotation. The experiment was conducted from... A. Obour, Z. Carson, P. Akporsoe, L. Simon, J. Holman

Download paper

8. Short-Term Changes in Soil Properties Following Simulated Wildfire After Winter Wheat Harvest

Wildfires on croplands can destroy residue cover, soil organic matter and negatively impact crops yields in semi-arid Great. Approximately 16 acre field of winter wheat stubble was subjected to wildfire event at Kansas State University Agricultural Research Center near Hays, KS to study management strategies that can restore soil health in croplands impacted by wildfires. Control burning to stimulated wildfire was done in summer 2025 by igniting fire on a down-wind corner at the interface... P. Akporsoe, A. Obour, J. Holman, K. Harmoney, Z. Carson, L. Simon, D. Ruiz diaz

Download paper