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Chitosan and Cashew Nut Shell Liquid as Sustainable Additives: Enhancing Starch Digestibility and Reducing Methane Emissions in High-Grain Diets for Feedlot Cattle
Chitosan and Cashew Nut Shell Liquid as Sustainable Additives: Enhancing Starch Digestibility and Reducing Methane Emissions in High-Grain Diets for Feedlot Cattle
by Azevedo, Tainá Lorraine Pereira , da Cruz, Fernanda Naiara Fogaça , Batista Domiciano, Lucas Gabriel , da Silva, Nayara Gonçalves , Royer, Jaqueline Luiza , de Oliveira, Raquel Tenório , Araújo, Carolina Marques Costa , de Goes, Rafael Henrique de Tonissi e Buschinelli , Gandra, Jefferson Rodrigues , Oliveira, Lara de Souza
in Acetates / Acidosis / Additives / Air quality management / Animals / Antimicrobial agents / Bacteria / Beef cattle / Body weight / Cattle / Chitosan / Costs (Law) / Diet / Dietary fiber / Emission standards / Emissions / Fatty acids / Feces / Feedlots / Feeds / Fermentation / Grain / Ionophores / Latin square design / Methane / Microorganisms / Monensin / Nitrogen / Nutrition / Nuts / Productivity / Protein biosynthesis / Protein synthesis / Proteins / Protozoa / Titanium
2025
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Chitosan and Cashew Nut Shell Liquid as Sustainable Additives: Enhancing Starch Digestibility and Reducing Methane Emissions in High-Grain Diets for Feedlot Cattle
by Azevedo, Tainá Lorraine Pereira , da Cruz, Fernanda Naiara Fogaça , Batista Domiciano, Lucas Gabriel , da Silva, Nayara Gonçalves , Royer, Jaqueline Luiza , de Oliveira, Raquel Tenório , Araújo, Carolina Marques Costa , de Goes, Rafael Henrique de Tonissi e Buschinelli , Gandra, Jefferson Rodrigues , Oliveira, Lara de Souza
in Acetates / Acidosis / Additives / Air quality management / Animals / Antimicrobial agents / Bacteria / Beef cattle / Body weight / Cattle / Chitosan / Costs (Law) / Diet / Dietary fiber / Emission standards / Emissions / Fatty acids / Feces / Feedlots / Feeds / Fermentation / Grain / Ionophores / Latin square design / Methane / Microorganisms / Monensin / Nitrogen / Nutrition / Nuts / Productivity / Protein biosynthesis / Protein synthesis / Proteins / Protozoa / Titanium
2025
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Chitosan and Cashew Nut Shell Liquid as Sustainable Additives: Enhancing Starch Digestibility and Reducing Methane Emissions in High-Grain Diets for Feedlot Cattle
Chitosan and Cashew Nut Shell Liquid as Sustainable Additives: Enhancing Starch Digestibility and Reducing Methane Emissions in High-Grain Diets for Feedlot Cattle
by Azevedo, Tainá Lorraine Pereira , da Cruz, Fernanda Naiara Fogaça , Batista Domiciano, Lucas Gabriel , da Silva, Nayara Gonçalves , Royer, Jaqueline Luiza , de Oliveira, Raquel Tenório , Araújo, Carolina Marques Costa , de Goes, Rafael Henrique de Tonissi e Buschinelli , Gandra, Jefferson Rodrigues , Oliveira, Lara de Souza
in Acetates / Acidosis / Additives / Air quality management / Animals / Antimicrobial agents / Bacteria / Beef cattle / Body weight / Cattle / Chitosan / Costs (Law) / Diet / Dietary fiber / Emission standards / Emissions / Fatty acids / Feces / Feedlots / Feeds / Fermentation / Grain / Ionophores / Latin square design / Methane / Microorganisms / Monensin / Nitrogen / Nutrition / Nuts / Productivity / Protein biosynthesis / Protein synthesis / Proteins / Protozoa / Titanium
2025

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Mohammed Bin Rashid Library /
Catalogue /
Chitosan and Cashew Nut Shell Liquid as Sustainable Additives: Enhancing Starch Digestibility and Reducing Methane Emissions in High-Grain Diets for Feedlot Cattle
Chitosan and Cashew Nut Shell Liquid as Sustainable Additives: Enhancing Starch Digestibility and Reducing Methane Emissions in High-Grain Diets for Feedlot Cattle
Journal Article

Chitosan and Cashew Nut Shell Liquid as Sustainable Additives: Enhancing Starch Digestibility and Reducing Methane Emissions in High-Grain Diets for Feedlot Cattle

Azevedo, Tainá Lorraine Pereira,
da Cruz, Fernanda Naiara Fogaça,
Batista Domiciano, Lucas Gabriel,
da Silva, Nayara Gonçalves,
Royer, Jaqueline Luiza,
de Oliveira, Raquel Tenório,
Araújo, Carolina Marques Costa,
de Goes, Rafael Henrique de Tonissi e Buschinelli,
Gandra, Jefferson Rodrigues,
Oliveira, Lara de Souza
2025
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Overview
Chitosan and technical cashew nutshell liquid (CNSLt) have emerged as promising natural compounds due to their antimicrobial, immunomodulatory, and fermentation-modulating properties. This study aimed to evaluate the inclusion of chitosan and CNSLt as potential substitutes for the ionophore monensin on feed intake, ruminal fermentation, nitrogen balance, and microbial protein synthesis in steers. Five crossbred steers (Bos taurus), 18 months old with an average body weight of approximately 350 kg and fitted with permanent ruminal cannulas, were assigned to a 5 × 5 Latin square design. The experimental diets consisted of: (1) control (CON), (2) monensin (MON; 25 mg/kg of dry matter [DM]), (3) chitosan (CHI; ≥850 g/kg deacetylation degree, 375 mg/kg DM), (4) CNSLt (500 mg/kg DM), and (5) CNSLt + CHI (500 + 375 mg/kg DM). Supplementation with CHI or CNSLt + CHI reduced the intake of dry matter, crude protein, and neutral detergent fiber. Additionally, fecal excretion of whole corn kernels increased in these treatments. Ruminal fermentation parameters were affected, with the CNSLt + CHI treatment promoting higher molar proportions of propionate and acetate, along with reduced estimated methane emissions. However, purine derivatives, microbial protein synthesis, and nitrogen balance were not significantly affected by any of the treatments. These results suggest that CNSLt and CHI, particularly when combined, may serve as effective natural alternatives to monensin in high-grain diets for ruminants.
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MDPI AG,MDPI
Subject

Acetates

/ Acidosis

/ Additives

/ Air quality management

/ Animals

/ Antimicrobial agents

/ Bacteria

/ Beef cattle

/ Body weight

/ Cattle

/ Chitosan

/ Costs (Law)

/ Diet

/ Dietary fiber

/ Emission standards

/ Emissions

/ Fatty acids

/ Feces

/ Feedlots

/ Feeds

/ Fermentation

/ Grain

/ Ionophores

/ Latin square design

/ Methane

/ Microorganisms

/ Monensin

/ Nitrogen

/ Nutrition

/ Nuts

/ Productivity

/ Protein biosynthesis

/ Protein synthesis

/ Proteins

/ Protozoa

/ Titanium

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