Mathematical models to adjust the parameters of in vitro cumulative gas production of diets containing preserved Gliricidia / Modelos matemáticos para ajuste dos parâmetros de produção cumulativa de gás in vitro de dietas contendo Gliricídia conservada

ABSTRACT: This study examined the use of the Gompertz, Groot, monomolecular, Richards and two-compartment-logistic mathematical models to investigate the kinetics of in vitro gas production of diets composed of combinations of Gliricidia hay or silage. In addition, the effects of Gliricidia hay or silage inclusion on the in vitro cumulative gas production of these diets were evaluated. Rumen fermentation kinetics were analyzed by the in vitro cumulative gas production methodology. The model parameters were estimated using the Gauss Newton method, with the exception of the Richards model, which was used by Marquardt's algorithm. Model fit was assessed using the determination coefficient, F test for parameters identity, concordance correlation coefficient, root mean square error of prediction, and decomposition of mean square error of prediction into mean error, systematic bias and random error. The models were compared for accuracy (pairwise mean square error of prediction) and precision (delta Akaike's information criterion). All model evaluation and comparison statistics were calculated using Model Evaluation System software version 3.2.2. The Groot and Richards models did not differ from each other (P>0.05) and were the most precise and accurate (P<0.05). Therefore, the Groot model was selected due to its better accuracy and precision and easier access to the parameters. The inclusion of Gliricidia silage in the diet resulted in an increase in the time to obtain the maximum rate of degradation and in the time after incubation when half of the asymptotic level was reached. The Groot model is recommended to estimate the average curve. Dietary inclusion of Gliricidia silage alters the gas production curve due to the longer time required for the diet to reach the maximum rate of degradation, this can increase the time the diet remains in rumen and promote a reduction in the consumption.

RESUMO: Objetivou-se avaliar os modelos matemáticos Gompertz, Groot, monomolecular, Richards e logístico bicompartimental para estudar a cinética de produção de gás in vitro de dietas compostas de combinações de feno ou silagem de Gliricídia. Além disso, avaliou-se os efeitos da inclusão de feno ou silagem de Gliricídia sobre a produção cumulativa de gás in vitro destas dietas. A cinética de fermentação ruminal foi avaliada pela metodologia de produção cumulativa de gás in vitro. Os parâmetros dos modelos foram estimados usando o método de Gauss Newton, com exceção do modelo de Richards, que foi usado algoritmo de Marquardt. O ajuste dos modelos foi avaliado por meio do coeficiente de determinação, teste F para a identidade dos parâmetros, coeficiente de correlação e concordância, raiz quadrada do quadrado médio do erro da predição e a decomposição do quadrado médio do erro da predição em erro médio, vício sistemático e erro aleatório. Os modelos foram comparados quanto à acurácia (quadrado médio da predição pareado) e quanto à sua precisão (critério de informação delta de Akaike). Todas as estatísticas de avaliação e comparação dos modelos foram calculadas usando o software Model Evaluation System versão 3.2.2. Os modelos de Groot e Richards não diferiram entre si (P>0.05) e foram os mais precisos e acurados (P<0.05). Portanto, modelo de Groot foi selecionado devido apresentar melhor acurácia e precisão e apresentar maior facilidade na obtenção dos parâmetros. A inclusão da silagem de Gliricídia na dieta, resultou em elevação no tempo para obtenção da máxima taxa de degradação e no tempo após a incubação em que metade do nível assintótico foi atingido. Recomenda-se a utilização do modelo de Groot para estimativa da curva média. A inclusão da silagem de Gliricídia altera a curva de produção de gás devido o maior tempo necessário para que a dieta atingisse a máxima taxa de degradação, isso pode elevar o tempo de permanência da dieta no rúmen e promover redução no consumo.

Valor nutricional do capim-elefante verde colhido em diferentes idades de rebrota / [Nutritional value of fresh elephantgrass harvested at different regrowth ages]

Avaliou-se o valor nutricional do capim-elefante verde colhido aos 56, 84 e 112 dias de idade, por meio do consumo e da digestibilidade em ovinos, da degradabilidade in situ e da cinética da fermentação ruminal. O capim-elefante colhido aos 56 dias proporcionou maiores valores de consumo da MS (1204,81g/dia), da EB (4910,41kcal/dia), da ED (3436,21kcal/dia) e da PB (130,90g/dia). Para o capim-elefante colhido aos 56 dias, ainda foram observados os maiores valores de digestibilidade da MS (70,64%), da EB (70,11%), da PB (68,96%), da FDN (71,4%) e do conteúdo ED (2,86Mcal/kg MS). Com o avanço da idade de corte, houve redução da degradabilidade potencial da MS (77,99% x 68,33%), da PB (84,80% x 56,52%) e da FDN (72,18% x 64,33%), para as idades de corte de 56 e 112 dias, respectivamente. O capim cortado aos 56 dias apresentou maior valor de produção cumulativa de gases (210,50mL/g de MS) e de degradabilidade da matéria seca (63,9%) após 96 horas de fermentação. O capim-elefante verde deve ser colhido aos 56 dias de rebrota em razão das características nutricionais apresentadas.(AU)

The nutritional value of fresh elephant grass harvested at 56, 84 and 112 days of age was evaluated by intake and digestibility in sheep, in situ degradability, and ruminal fermentation's kinetics. The elephant grass harvested at 56 days provided higher DM intake (1204.81g/day), GE (4910.41kcal/day), DE (3436.21kcal/day), and CP (130.90g/day) values. Furthermore, the highest DM (70.64%), GE (70.11%), DE (2.86%) and CP (68.96%) digestibility values were observed at 56 days. With the increase in the harvest age there was a reduction in the DM (77.99 x 68.33%), CP (84.80 x 56.52%) and NDF (72.18 x 64.33%) potential degradability in the treatments 56 and 112 days, respectively. Higher values of cumulative gas production (210,50mL/g DM) and DM degradability for elephant grass were observed at 56 days, after 96 hours of fermentation. The fresh elephant grass should be harvested at 56 days of regrowth due to the nutritional characteristics found in this study.(AU)

Evaluation of stress tolerance and fermentative behavior of indigenous Saccharomyces cerevisiae

Sixty six indigenous Saccharomyces cerevisiae strains were evaluated in stressful conditions (temperature, osmolarity, sulphite and ethanol tolerance) and also ability to flocculate. Eighteen strains showed tolerant characteristics to these stressful conditions, growing at 42 ºC, in 0.04% sulphite, 1 mol L-1 NaCl and 12% ethanol. No flocculent characteristics were observed. These strains were evaluated according to their fermentative performance in sugar cane juice. The conversion factors of substrates into ethanol (Yp/s), glycerol (Yg/s) and acetic acid (Yac/s), were calculated. The highest values of Yp/s in sugar cane juice fermentation were obtained by four strains, one isolated from fruit (0.46) and the others from sugar cane (0.45, 0.44 and 0.43). These values were higher than the value obtained using traditional yeast (0.38) currently employed in the Brazilian bioethanol industry. The parameters Yg/s and Yac/s were low for all strains. The UFLA FW221 presented the higher values for parameter related to bioethanol production. Thus, it was tested in co-culture with Lactobacillus fermentum. Besides this, a 20-L vessel for five consecutive batches of fermentation was performed. This strain was genetically stable and remained viable during all batches, producing high amounts of ethanol. The UFLA FW221 isolated from fruit was suitable to produce bioethanol in sugar cane juice. Therefore, the study of the biodiversity of yeasts from different environmental can reveal strains with desired characteristics to industrial applications.

An approach on microbial biosynthesis of L-glutaminase: a tumour inhibitor.

L-Glutaminase, an amidohydrolase enzyme has been a choice of interest in the treatment of lymphoblastic leukemia. This study investigates the production of extracellular L-glutaminase synthesis were carried out by using Aspergillus oryzae was evaluated under different fermentation parameters by employing submerged fermentation method. The L-glutaminase producers detected by the pink zone around the colony by simple plate assay method. Aspergillus oryzae S2 is the potential strain among the fungal isolates. The L-glutaminase synthesis were increased their yield after the optimization of fermentation parameters. The optimum pH 5.0, temperature 350C and inoculum size 1.0 ml and it showed 217.65 IU.

Study on Fermentation Kinetics of Nisin by Lactococcus lactis / 微生物学通报

The kinetics of growth, lactic acid and nisin production and substrate consumption by Lactococcus lactis subsp. lactis SM526 were studied in different pH. Growth, lactic acid and nisin production were modelled using a simple logistic equation while substrate consumption was foud to be a function of growth and lactic acid production rate. The optimal pH for growth and lactic acid production was 7.0 while it was 6.5 for nisin production according to the models developed.