Whole-plant soybean ensiling with chitosan and homolactic microbial inoculant: fermentative profile, aerobic stability, and sheep intake and digestibility / Ensilagem de planta inteira de soja com quitosana e inoculante microbiano homolático: perfil fermentativo, estabilidade aeróbia e consumo e digestibilidade em ovinos

This study aimed to evaluate the effects of chitosan and homolactic microbial inoculant on fermentative losses, chemical composition, fermentative profile, and aerobic stability of whole-plant soybean silage (WPSS). Additionally, it was evaluated nutrients intake and digestibility of sheep fed increasing levels of WPSS. Thirty experimental silos were randomly allocated to one of the following treatments: 1) CON: control, WPSS without additives; 2) LPPA: WPSS with Lactobacillus plantarum and Pediococcus acidilactici; and 3) CHI: chitosan, WPSS with 5 g/kg of chitosan. Ten male sheep were used to evaluate increasing dietary levels of WPSS: 0, 200, 400, 600, and 800 g/kg of diet dry matter (DM). Additives increased silage lactic acid bacteria and decreased the count of mold and yeast, gas, and total losses. Silages treated with additives had lower pH, NH3-N, and ethanol concentrations and higher lactic and propionic acids relative to CON. LPPA-treated silos showed higher organic matter and non-fiber carbohydrates content than CHI-ones. Additives increased the aerobic stability of WPSS. The addition of WPSS in sheep diets linearly increased nutrients intake and digestibility. Chitosan and LPPA improve WPSS fermentation, aerobic stability, and nutritional value. The WPSS in substitution to Cynodon hay increases sheep feed intake and nutrients digestibility.

Este estudo objetivou avaliar os efeitos da adição de quitosana e inoculante homolático sobre as perdas fermentativas, composição química, perfil fermentativo e estabilidade aeróbia da silagem de planta inteira de soja (SPIS). Em adição, foi avaliado o consumo e a digestibilidade de nutrientes em ovinos alimentados com dietas contendo níveis crescentes de SPIS. Trinta silos experimentais foram aleatoriamente alocados a um dos seguintes tratamentos: 1) CON: controle, SPIS sem aditivos; 2) LPPA: SPIS com Lactobacillus plantarum e Pediococcus acidilactici; e 3) QUI: quitosana, SPIS com 5 g/kg de quitosana. Dez ovinos machos foram usados para avaliar os níveis dietéticos de SPIS: 0, 200, 400, 600 e 800 g/kg da matéria seca (MS). Os aditivos aumentaram a contagem de bactérias láticas e reduziram a contagem de fungos e leveduras e as perdas fermentativas totais da SPIS. Silagens tratadas com aditivos tiveram menores pH, N-NH3 e etanol e maiores concentrações de ácido lático e propiônico, quando comparadas ao tratamento controle. Silos tratados com LPPA apresentaram maiores teores de matéria orgânica e carboidratos não fibrosos do que aqueles do tratamento QUI. Os aditivos aumentaram a estabilidade aeróbia da SPIS. A adição de SPIS na dieta de ovinos aumentou linearmente o consumo e a digestibilidade dos nutrientes. Quitosana e inoculante microbiano homolático melhoram a fermentação, estabilidade aeróbia e o valor nutricional da SPIS. A substituição de feno de Cynodon por SIPS aumenta o consumo e a digestibilidade dos nutrientes em ovinos.

Whole-plant soybean ensiling with chitosan and homolactic microbial inoculant: fermentative profile, aerobic stability, and sheep intake and digestibility / Ensilagem de planta inteira de soja com quitosana e inoculante microbiano homolático: perfil fermentativo, estabilidade aeróbia e consumo e digestibilidade em ovinos

This study aimed to evaluate the effects of chitosan and homolactic microbial inoculant on fermentative losses, chemical composition, fermentative profile, and aerobic stability of whole-plant soybean silage (WPSS). Additionally, it was evaluated nutrients intake and digestibility of sheep fed increasing levels of WPSS. Thirty experimental silos were randomly allocated to one of the following treatments: 1) CON: control, WPSS without additives; 2) LPPA: WPSS with Lactobacillus plantarum and Pediococcus acidilactici; and 3) CHI: chitosan, WPSS with 5 g/kg of chitosan. Ten male sheep were used to evaluate increasing dietary levels of WPSS: 0, 200, 400, 600, and 800 g/kg of diet dry matter (DM). Additives increased silage lactic acid bacteria and decreased the count of mold and yeast, gas, and total losses. Silages treated with additives had lower pH, NH3-N, and ethanol concentrations and higher lactic and propionic acids relative to CON. LPPA-treated silos showed higher organic matter and non-fiber carbohydrates content than CHI-ones. Additives increased the aerobic stability of WPSS. The addition of WPSS in sheep diets linearly increased nutrients intake and digestibility. Chitosan and LPPA improve WPSS fermentation, aerobic stability, and nutritional value. The WPSS in substitution to Cynodon hay increases sheep feed intake and nutrients digestibility.(AU)

Este estudo objetivou avaliar os efeitos da adição de quitosana e inoculante homolático sobre as perdas fermentativas, composição química, perfil fermentativo e estabilidade aeróbia da silagem de planta inteira de soja (SPIS). Em adição, foi avaliado o consumo e a digestibilidade de nutrientes em ovinos alimentados com dietas contendo níveis crescentes de SPIS. Trinta silos experimentais foram aleatoriamente alocados a um dos seguintes tratamentos: 1) CON: controle, SPIS sem aditivos; 2) LPPA: SPIS com Lactobacillus plantarum e Pediococcus acidilactici; e 3) QUI: quitosana, SPIS com 5 g/kg de quitosana. Dez ovinos machos foram usados para avaliar os níveis dietéticos de SPIS: 0, 200, 400, 600 e 800 g/kg da matéria seca (MS). Os aditivos aumentaram a contagem de bactérias láticas e reduziram a contagem de fungos e leveduras e as perdas fermentativas totais da SPIS. Silagens tratadas com aditivos tiveram menores pH, N-NH3 e etanol e maiores concentrações de ácido lático e propiônico, quando comparadas ao tratamento controle. Silos tratados com LPPA apresentaram maiores teores de matéria orgânica e carboidratos não fibrosos do que aqueles do tratamento QUI. Os aditivos aumentaram a estabilidade aeróbia da SPIS. A adição de SPIS na dieta de ovinos aumentou linearmente o consumo e a digestibilidade dos nutrientes. Quitosana e inoculante microbiano homolático melhoram a fermentação, estabilidade aeróbia e o valor nutricional da SPIS. A substituição de feno de Cynodon por SIPS aumenta o consumo e a digestibilidade dos nutrientes em ovinos.(AU)

Whole-plant soybean ensiling with chitosan and homolactic microbial inoculant: fermentative profile, aerobic stability, and sheep intake and digestibility

ABSTRACT This study aimed to evaluate the effects of chitosan and homolactic microbial inoculant on fermentative losses, chemical composition, fermentative profile, and aerobic stability of whole-plant soybean silage (WPSS). Additionally, it was evaluated nutrients intake and digestibility of sheep fed increasing levels of WPSS. Thirty experimental silos were randomly allocated to one of the following treatments: 1) CON: control, WPSS without additives; 2) LPPA: WPSS with Lactobacillus plantarum and Pediococcus acidilactici; and 3) CHI: chitosan, WPSS with 5 g/kg of chitosan. Ten male sheep were used to evaluate increasing dietary levels of WPSS: 0, 200, 400, 600, and 800 g/kg of diet dry matter (DM). Additives increased silage lactic acid bacteria and decreased the count of mold and yeast, gas, and total losses. Silages treated with additives had lower pH, NH3-N, and ethanol concentrations and higher lactic and propionic acids relative to CON. LPPA-treated silos showed higher organic matter and non-fiber carbohydrates content than CHI-ones. Additives increased the aerobic stability of WPSS. The addition of WPSS in sheep diets linearly increased nutrients intake and digestibility. Chitosan and LPPA improve WPSS fermentation, aerobic stability, and nutritional value. The WPSS in substitution to Cynodon hay increases sheep feed intake and nutrients digestibility.

RESUMO Este estudo objetivou avaliar os efeitos da adição de quitosana e inoculante homolático sobre as perdas fermentativas, composição química, perfil fermentativo e estabilidade aeróbia da silagem de planta inteira de soja (SPIS). Em adição, foi avaliado o consumo e a digestibilidade de nutrientes em ovinos alimentados com dietas contendo níveis crescentes de SPIS. Trinta silos experimentais foram aleatoriamente alocados a um dos seguintes tratamentos: 1) CON: controle, SPIS sem aditivos; 2) LPPA: SPIS com Lactobacillus plantarum e Pediococcus acidilactici; e 3) QUI: quitosana, SPIS com 5 g/kg de quitosana. Dez ovinos machos foram usados para avaliar os níveis dietéticos de SPIS: 0, 200, 400, 600 e 800 g/kg da matéria seca (MS). Os aditivos aumentaram a contagem de bactérias láticas e reduziram a contagem de fungos e leveduras e as perdas fermentativas totais da SPIS. Silagens tratadas com aditivos tiveram menores pH, N-NH3 e etanol e maiores concentrações de ácido lático e propiônico, quando comparadas ao tratamento controle. Silos tratados com LPPA apresentaram maiores teores de matéria orgânica e carboidratos não fibrosos do que aqueles do tratamento QUI. Os aditivos aumentaram a estabilidade aeróbia da SPIS. A adição de SPIS na dieta de ovinos aumentou linearmente o consumo e a digestibilidade dos nutrientes. Quitosana e inoculante microbiano homolático melhoram a fermentação, estabilidade aeróbia e o valor nutricional da SPIS. A substituição de feno de Cynodon por SIPS aumenta o consumo e a digestibilidade dos nutrientes em ovinos.

Partial replacement of corn silage with whole-plant soybean and black oat silages for dairy cows.

This study aimed to evaluate the effects of partially replacing corn silage (CS) with whole-plant soybean silage (SS) or black oat silage (OS) on nutrient intake and digestibility, in vitro neutral detergent fiber degradability of silages, feeding behavior, rumen fermentation, and performance of dairy cows. Twenty-four lactating Holstein cows (6 of which were rumen-cannulated) with 32.5 ± 4.92 kg/d milk yield, 150 ± 84.8 days in milk, and 644 ± 79.0 kg of body weight were used in a 3 × 3 Latin square design to evaluate the following treatments: (1) corn silage diet (CSD): using corn silage as the only forage source in the diet [48% dietary dry matter (DM)]; (2) whole-plant soybean silage diet (SSD): SS replacing 16% of corn silage from CSD; and (3) black oat silage diet (OSD): OS replacing 16% of corn silage from CSD. The inclusion of OS and SS decreased intakes of DM, organic matter, and crude protein. Corn silage had the greatest in vivo effective degradability of DM, and SS had the least effective degradability of neutral detergent fiber. The OSD treatment decreased milk and protein yields, whereas SSD increased rumen ammonia nitrogen concentration compared with the other diets. Cows fed OSD exhibited a greater preference for feed with small particles (<4 mm) compared with those fed SSD. Cows fed treatments containing either SS or OS at the expense of CS had increased rumination and chewing activities. Although replacing CS with OS and SS reduced feed intake, SS had no effect on productive performance of dairy cows.

Soybean whole-plant ensiled with chitosan and lactic acid bacteria: Microorganism counts, fermentative profile, and total losses.

Chitosan is a biopolymer derived from chitin deacetylation, present in the exoskeleton of crustaceans and insects. Chitosan has been evaluated as rumen modulator and silage additive due to its antimicrobial properties. The objective of this study was to determine the effects of both chitosan and a bacterial additive on microbiological quality, chemical composition, nutrient in vitro degradation, fermentative profile, and total losses of whole-soybean plant silage (SS) harvested at R6 stage. Four treatments in a factorial arrangement were randomly assigned to 40 experimental minisilos as no additives (CON), 8 g/t fresh forage of microbial inoculant (INO; Kera SIL, Kera Nutrição Animal, Bento Gonçalves, Brazil); 5 g/kg of fresh forage chitosan (CHI); and CHI + INO. Microbial inoculant was composed of Lactobacillus plantarum (4.0 × 1010 cfu/g) and Propionibacterium acidipropionici (2.6 × 1010 cfu/g). The CHI and INO alone increased counts of lactic bacteria and anaerobic bacteria and decreased counts of mold and yeast in SS. The CHI or INO alone increased in vitro degradation of dry matter, crude protein, and neutral detergent fiber, and decreased nonfiber carbohydrate content of SS. Chitosan increased NH3-N and lactate concentrations and decreased ethanol concentration in SS. The CHI increased dry matter recovery from SS; INO increased silage aerobic stability. The combination of CHI+INO showed the lowest value of gas losses. In general, the combination of CHI and INO had small positive effects on gas losses of SS; however, both CHI or INO alone improved nutrient in vitro degradation and decreased mold and yeast in SS. Chitosan or INO utilization improves SS quality.