Your search keyword '"Gandra, Jefferson Rodrigues"' showing total 6 results

1. Effect of Chemical and Microbial Additives on Fermentation Profile, Chemical Composition, and Microbial Populations of Whole-Plant Soybean Silage.

Author

Gandra, Jefferson Rodrigues, Takiya, Caio Seiti, Del Valle, Tiago Antonio, Pedrini, Cibeli de Almeida, Gandra, Erika Rosendo de Sena, Antônio, Giovani, de Oliveira, Euclides Reuter, Severo, Igor Kieling, and Rennó, Francisco Palma

Subjects

MICROBIAL inoculants, MICROORGANISM populations, SILAGE, LACTIC acid bacteria, PROPIONIC acid, FORMIC acid, SOYBEAN

Abstract

This study evaluated the effects of two chemical additives or a microbial inoculant on chemical composition and DM losses in whole-plant soybean silage. One-hundred and twenty mini-silos were used in a completely randomized design experiment with the following treatments: water without chloride (control, CON); a microbial inoculant (INO); a chemical additive containing 35–45% formic acid (FA type); and another chemical additive containing 50–60% propionic acid (PA type). Data were analyzed using mixed models of SAS, and treatment differences were evaluated by the following orthogonal contrasts: C1 = CON vs. additives (INO + FA type + PA type); C2 = INO vs. chemical additives (FA type + PA type); and C3 = PA type vs. FA type. Silage pH and ammonia nitrogen concentration were decreased, and concentrations of lactic acid and acetic acid were increased with additives. Counts of lactic acid bacteria were higher in silages with INO than with chemical additives. DM recovery increased with FA type and PA type. Additives increased DM and CP concentrations. Silage A-fraction proportion was greater with additives. Additives, particularly FA type and PA type, improved chemical composition and fermentative profile and reduced undigestible proportions of protein in whole-plant soybean silage. Chemical additives were more effective in reducing silage DM losses than INO. [ABSTRACT FROM AUTHOR]

Published

2024

2. Fibrolytic Enzymes Increase Fermentation Losses and Reduce Fiber Content of Sorghum Silage.

Author

Campana, Mariana, de Morais, Jozivaldo Prudêncio Gomes, Capucho, Estefani, Garcia, Thaina Moreira, Pedrini, Cibeli Almeida, Gandra, Jefferson Rodrigues, and Valle, Tiago Antônio Del

Subjects

FEED analysis, SOLID-state fermentation, SILAGE fermentation, SILAGE, ENZYMES, SORGHUM

Abstract

Fiber digestibility is a key-point of forage usage in ruminant production systems. The present study aimed to evaluate the effect of fibrolytic enzyme blend on whole-plant sorghum silage fermentation profile, fermentative losses, chemical composition, in vitro degradation, and aerobic stability. It used fifty experimental silos (plastic bucket, 28 cm i.d. and 25 cm in height) in a blocked randomized design to evaluate the following fibrolytic enzyme levels: 0, 150, 300, 450, and 600 mL per ton of dry matter (DM). Enzymes had 300 U/mL of xylanase and 300 U/mL of cellulase. Enzymes linearly increased acetic acid, branched-chain organic acids, and ethanol concentration of silage. Although there was no treatment effect on silage DM recovery over the ensiling process, enzyme levels linearly increased gas, effluent, and total losses. Intermediary levels of enzymes (from 312 to 342 mL/ton DM) decreased fiber content (NDF and ADF), whereas improved NFC silage content. Besides, enzymes did not affect DM and NDF degradation and tended to linearly reduce acid detergent fiber in vitro degradation. The enzymes addition linearly decreased silage temperature after aerobic exposure. However, there was no treatment effect on silage pH after aerobic exposure also during the time that silage remained with a temperature lower than 2°C above environmental temperature. Thus, fibrolytic enzymes reduce fiber content, promote a heterolactic fermentation, and reduce silage temperature after aerobic exposure. However, this increases fermentative losses and has no positive effect on in vitro degradation and the time of aerobic stability. [ABSTRACT FROM AUTHOR]

Published

2023

3. Sugarcane total mixed ration silage ensiling with chitosan and homolactic microbial inoculant: characteristics of silage and animal digestion.

Author

GANDRA, Jefferson Rodrigues, MACHADO, Fábio Souza, PEDRINI, Cibeli de Almeida, TAKIYA, Caio Seiti, OLIVEIRA, Euclides Reuter, GOES, Rafael Henrique de Tonissi Buschinelli, and GANDRA, Erika Rosendo de Sena

Subjects

MICROBIAL inoculants, SILAGE, CHITOSAN, PEDIOCOCCUS acidilactici, SUGARCANE, LACTOBACILLUS plantarum, DIGESTION

Abstract

Copyright of Revista Brasileira de Saúde e Produção Animal (RBSPA) is the property of Revista Brasileira de Saude e Producao Animal (RBSPA) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

4. Effects of increasing monensin doses on performance of mid-lactating Holstein cows.

Author

Santos, Mayara Celpf Bailoni, Araújo, Ana Paula Chaves, Venturelli, Beatriz Conti, Freitas, Jose Esler, Barletta, Rafael Villela, Gandra, Jefferson Rodrigues, de Paiva, Pablo Gomes, Acedo, Tiago Sabela, and Rennó, Francisco Palma

Subjects

LACTATION in cattle, MONENSIN, BLOOD urea nitrogen, COWS, MAGIC squares, MILK yield, SILAGE

Abstract

The objective of this study was to determine the effect of increasing monensin doses on intake, nutrient digestion, ruminal fermentation, nitrogen balance, blood metabolites, milk yield and composition of lactating dairy cows. Twelve Holstein cows (135 ± DIM; 580 ± kg of BW) were assigned to three 4 × 4 Latin square design, with 21-d periods. Cows were randomly assigned within each square to receive one of the following treatments: Control (C): 0 mg kg−1 DM of monensin; Monensin 12 (M12): 12 mg kg−1 DM of monensin; Monensin 24 (M24): 24 mg kg−1 DM of monensin and Monensin 48 (M48): 48 mg kg−1 DM of monensin. Monensin had quadratic effect on intake of dry matter. Apparent total-tract digestibility of DM were similar between treatments; however, digestibility of CP increased. Monensin had no effect on ruminal pH, NH3 concentration, but propionate increased by monensin. Blood urea nitrogen was increased linearly by monensin. There was a quadratic effect of monensin on N intake. Monensin had a quadratic effect on milk yield, whereas 3.5% FCM was decreased linearly. These results suggest that monensin improves performance of mid-lactating dairy cows fed corn silage-based diet, and monensin can be added up to 24 mg/kg of DM diets. [ABSTRACT FROM AUTHOR]

Published

2019

5. Inoculation of Lactobacillus buchneri alone or with Bacillus subtilis and total losses, aerobic stability, and microbiological quality of sunflower silage.

Author

Gandra, Jefferson Rodrigues, Oliveira, Euclides Reuter, Gandra, Erika Rosendo de Sena, Takiya, Caio Seiti, Goes, Rafael Henrique Tonissi Buschineli de, Oliveira, Kelly Mari Pires, Silveira, Karina Andrade, Araki, Hayne Mayume Cariolano, Orbach, Natyaro Duan, and Vasquez, Dalila Nara

Subjects

*LACTOBACILLUS, *BACILLUS subtilis, *SUNFLOWERS, *MICROBIOLOGY, *SILAGE

Abstract

The purpose of this study was to evaluate the effects of inoculation ofLactobacillus buchneri(L. buchneri) alone or withBacillus subtilis(B. subtilis) on gas and effluent losses, chemical composition,in vitrodigestibility of nutrients, aerobic stability, and microbiological quality of sunflower silage. A randomized experimental design was used, which contained 3 treatments, each one included 15 mini-silos. Mini-silos were distributed to the following treatments: (1) Control (CON), without inoculants; (2)L. buchnerialone (LB), inoculation at 2.6 × 1010 cfu/g; and (3)L. buchneriwithB. subtilis(LB + BS), inoculation at 2.6 × 1010 cfu/g and 1 × 109 cfu/g withL. buchneriandB. subtilis, respectively. Treatments were applied at 2 g/t of fresh forage ensiled. Silages with microbial inoculants had lower DM content, and higherin vitrodigestibility of DM and neutral detergent fibre than CON. Inoculants decreased the number of aerobic bacteria, mould, and yeast, and increased the counts of lactic acid bacteria in sunflower silage.L. buchneriexhibited positive effects on aerobic stability,in vitrodigestibility of nutrients and decreased the counts of mould and yeast, but did not show a synergistic effect withB. subtilison sunflower silage. [ABSTRACT FROM PUBLISHER]

Published

2017

6. Amylolytic enzymes of rehydrated ground corn silage storage for different periods

Author

Batista, Jamille Débora de Oliveira, Gandra, Jefferson Rodrigues, Goes, Rafael Henrique de Tonissi e Buschinelli de, and Del Valle, Tiago Antonio

Subjects

Silage, Digestibility, CIENCIAS AGRARIAS [CNPQ], Amylases, Digestibilidade, Silagem, Amílase

Abstract

Submitted by Alison Souza (alisonsouza@ufgd.edu.br) on 2019-05-29T16:24:19Z No. of bitstreams: 1 JamilleDeboadeOliveiraBatista.pdf: 1177297 bytes, checksum: 4836471f77002c7df2ec4f87f81fa288 (MD5) Made available in DSpace on 2019-05-29T16:24:19Z (GMT). No. of bitstreams: 1 JamilleDeboadeOliveiraBatista.pdf: 1177297 bytes, checksum: 4836471f77002c7df2ec4f87f81fa288 (MD5) Previous issue date: 2019-02-22 Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Com o maior uso de ferramentas tecnológicas nos sistemas de produção animal, a silagem de milho transformou-se no alimento volumoso de maior ocorrência e utilização no Brasil. Mas, apesar das características que tornam o milho um alimento muito utilizado na nutrição animal e o principal ingrediente na confecção de silagens, a maioria dos híbridos cultivados no Brasil possui alta vitreosidade, o que limita a sua digestibilidade. Por esse motivo, a adição de compostos enzimáticos na dieta animal tem sido utilizada mais frequentemente. Assim, objetivo deste experimento foi avaliar os efeitos de enzimas amilolíticas e do tempo de armazenamento sobre as perdas fermentativas, estabilidade aeróbica, composição químico-bromatológico, perfil fermentativo e microbiológico e atividade enzimática da silagem de milho reidratado. Foram utilizados 120 silos experimentais, divididos em 3 tratamentos: 1- COM (sem adição de enzima amilolítica); 2- α-AMI (amilase, Kerazyme 3035, atividade enzimática 300 U mL-1); 3- GLU (glucoamilase, Kerazyme 4560, atividade enzimática 300 U mL-1). Todos os silos foram inoculados com L. plantarum (4,0 × 1010 UFC g-1) e P. acidipropionici (2,6 × 1010 UFC g-1) adicionado a 4 g t-1. Os silos foram abertos a cada 30 dias durante 240 dias de armazenamento. Os dados foram submetidos a análise de variância utilizando-se o PROC MIXED do SAS 9.3. Longos períodos de armazenamento e a adição de amilases influenciaram negativamente as perdas fermentativas, a estabilidade aeróbica, reduziu os teores de MS, amido, CNF, DIVMS e aumentaram as concentrações de PB, EE, lignina e EB. Houve redução do pH, acetado e butirato e aumento na concentração do etanol e lactato comparando os silos acrescidos de enzimas ao controle. A inclusão de enzimas não aumentou a população de bactérias ácido láticas e não estabilizou a população de fungos e leveduras ao longo do tempo. Dessa forma, ao longo do tempo as modificações ocasionadas pela inclusão das enzimas alteraram mais de forma negativa os aspectos avaliados do alimento, por isso mais estudos são necessários para entender o funcionamento desses compostos dentro do silo e assim poder definir modelos que tonem seu uso mais efetivo. With the greater use of technological tools in animal production systems, corn silage has become the most prevalent and most prevalent food in Brazil. However, despite the characteristics that make maize a food used in animal nutrition and the main ingredient used in the manufacture of silage, most of the hybrids grown in Brazil have high vitreous, which limits their digestibility. For this reason, the addition of enzyme compounds to the animal diet has been used more frequently. This study aimed to evaluate amylolytic enzyme and storage time effects on fermentative losses, aerobic stability, nutritional value, fermentative and microbiological profile and enzymatic activity in rehydrated ground corn silage. One hundred and twenty experimental silos were prepared, divided in three treatments: 1CON (without enzyme); 2- α-AMI, (α-amylase, Kerazyme 3035, 300 mL t-1 of fresh matter); 3 - GLU, (glucoamylase, Kerazyme 4560, 300 mL t-1 of fresh matter). All silos were also inoculated with L. plantarum (4.0×1010 ufc g-1) and P. acidipropionici (2.6 ×1010 ufc g-1) added at 4 g t-1 of hydrated ground corn. The silos were opened every 30 days during the period of 240 days of storage. Data were submitted to analysis of variance using the PROC MIXED of SAS 9.3. Long periods of storage and addition of amylases negatively influenced fermentation losses, aerobic stability, reduced DM, starch, CNF, IVDMD and increased CP, EE, EB and lignin. There was a reduction of pH, acetate and butyrate and increase in ethanol and lactate concentration comparing the silos plus enzymes to the control. The inclusion of enzymes did not increase the population of lactic acid bacteria and did not stabilize the population of fungi and yeasts over time. Thus, over time the modifications caused by the inclusion of the enzymes have altered more negatively the evaluated aspects of the food, therefore more studies are necessary to understand the functioning of these compounds inside the silo and thus to be able to define models that take more use effective.

Published

2019