Todd Willian scite author profile

Recycling broiler litter (BL) nutrients is an important strategy for sustainable forage production. However, BL can contain Clostridia bacteria that can contaminate forages at harvest, resulting in poor ensilage quality and botulism-related animal health risks. A better understanding of the effects of BL amendment on alfalfa (Medicago sativa L.) production and ensiling is beneficial for promoting manure-based alfalfa production. This 2-year study examined the effects of high-level BL (HBL) at 112 kg N ha−1 and low-level (LBL) at 56 kg N ha−1 on alfalfa forage production, fermentation characteristics, and Clostridium botulinum concentrations in silage and haylage produced from 350 g dry matter (DM) kg−1 forage and 500 g DM kg−1 forage respectively, and soil characteristics compared to a control treatment (CT). Results showed that the application of BL did not affect forage production (12.8–13.1 MG ha−1) and nutritive value. The alfalfa produced high forage yield with superior ensilabilty in the second year. The BL application increased soil NH4-N, Ca, Fe, and B, but did not affect fermentation characteristics or Clostridium botulinum concentrations in ensilage. Silage had superior fermentation quality, and Clostridium botulinum concentration was found to be higher than in haylage. Broiler litter fertilization for alfalfa is environmentally safe and has forge production, ensilage fermentation quality, and botulism risks similar to CT.

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Corn Grain Yield and Soil Properties after 10 Years of Broiler Litter Amendment

Netthisinghe

Woosley

Gilfillen

et al. 2016

Agronomy Journal

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Use of broiler litter (BL) nutrients for crop production benefits crops, soils, and aids in disposing manure. Understanding corn (Zea mays L.) grain production and soil properties resulting from long‐term BL amendment helps establish a sustainable manure‐based corn production with low environmental risk potential. This study conducted at Bowling Green, KY, during 2005 to 2015 examined effects of supplying N requirement of corn grain crop monoculture by broiler litter (full broiler litter, FBL), 1:1 mixture of BL and inorganic N (half broiler litter rate, HBL), and chemical fertilizer (CF) on corn grain yield and post‐harvest soil properties under no‐till (NT) and conventional tillage (CT). The FBL produced significantly higher grain yield (10.1 Mg ha−1) than the HBL (9.6 Mg ha−1), but similar to CF (9.8 Mg ha−1). The FBL soils had greater cation exchange capacity (CEC), organic matter (OM), and total nitrogen (TN) (15.5 cmol kg−1; 45 and 2.9 g kg−1) than the HBL (12.3 cmol kg−1; 42.3 and 2.4 g kg−1) and CF (10.1 cmol kg−1; 35.5 and 1.7 g kg−1). The FBL and HBL soils had 478 and 270 mg P kg−1; 15.7 and 9.6 mg Cu kg−1; 40.9 and 21.1 mg Zn kg−1 levels, respectively. Soil pH increased in the FBL, but decreased in CF. Soil nutrient aggregation rate was greater in the NT. Having lower soil nutrient accumulation than FBL and equivalent grain production potential as CF, HBL offers a better option for corn grain production with BL than by FBL.Core Ideas This study examined effects of long‐term broiler litter amendment on corn grain yield and post‐harvest soil properties. Broiler litter at full and half rates has similar corn grain production potential as chemical fertilizer. Broiler litter induced high soil nutrient levels, but levels elevated by half litter rate was not environmentally significant. No‐till and conventional tillage treatments have similar agronomic benefits and environmental risks.

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Economic Feasibility of Table Grape Production in Kentucky

King

Howell

Stone

et al. 2013

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Todd Willian

Nutrient Source and Tillage Impact on Corn Grain Yield and Soil Properties

Inorganic Fertilizers after Broiler Litter Amendment Reduce Surplus Nutrients in Orchardgrass Soils

Alfalfa Forage Production and Nutritive Value, Fermentation Characteristics and Hygienic Quality of Ensilage, and Soil Properties after Broiler Litter Amendment

Corn Grain Yield and Soil Properties after 10 Years of Broiler Litter Amendment

Economic Feasibility of Table Grape Production in Kentucky

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