Proceedings
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| Filter results5 paper(s) found. |
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1. Long-Term (16-year) Comparison of Phosphorus Fertilization Strategies: Targeted Soil Test Values Vs. Crop Removal in Corn ProductionDeveloping effective phosphorus (P) fertilization strategies to optimize corn (Zea mays L.) yields across varying environmental conditions is essential. This 16-year study, conducted on Nora silt loam soil in Concord, NE (initial Bray-1 P of 16±3 mg kg⁻¹), evaluated different P fertilization strategies under dry, normal, and wet years. The treatments included: no P or N (NPNN), no P (NP), phosphorus applied at crop removal (CRP), and maintaining soil P at 15 (B15), 30 (B30), and... S. Patel, C. Shapiro, J. Iqbal |
2. Crop and Soil Response to Different Phosphorus Management ApproachesPhosphorus (P) management has implications for crop production and water quality issues in Ohio. Recent data from 457 field P trials conducted in Ohio reported less than 25% positive yield response to P fertilization. It warrants further evaluation of crop P uptake, soil P levels and environmental factors to improve the predictability of crop yield response. Therefore, we collected soil and plant data from three P fertilizer trials (Wooster, South Charleston, and Custar) established in 2006. ... M. Rakkar, L. Fleuridor, S. Culman, G. Labarge |
3. Combined Effects of Nitrogen Rate, Source, and Enhanced Efficiency Fertilizer Use in Indiana Corn ProductionSynthetic nitrogen (N) fertilizer is the most significant fertilizer applied with regards to both quantity, cost, and yield impacts for Midwest corn (Zea mays L.) production. However, with continued risk of nitrate (NO3) leaching causing groundwater contamination, N volatilization, and dentification which increases nitrous oxide (N2O) emissions, continued N management practice improvement, enhanced efficiency N fertilizer use (e.g., nitrification inhibitors, ure... D. Quinn |
4. Polymer Coated Urea and Time of Application for Corn Production in MinnesotaManaging N for corn production is a key to minimizing N losses. Excessively wet spring conditions resulting from ongoing climate change exacerbate loss potential of early spring N applications. Also, a shift in available N fertilizer sources calls for an extensive evaluation of these sources across different soil conditions to update the current N best management practices. The objectives of this research are to evaluate various urea, polymer-coated urea (PCU), and PCU-urea blends and N appli... F. Fernández, K. Fabrizzi, J. Vetsch, W.F. Lazarus |
5. A Novel Calcimeter for Soil Carbonate Assessment with Implications for Accurate Soil Test MethodsCalcium carbonate equivalent content is an important soil characteristic, with rammifications for decisions made in agricultural production and soil testing labs alike. However, soil carbonate measurements are rarely included with soil fertility analyses in Kansas due to their tedius nature and the cost of analysis. The objectives of this study were to develop a reliable calcimeter using open-source electronics and readily available labware, and to evaluate it’s performance against proc... B. Rutter, D. Ruiz diaz |