Analysis of the cocobiota and metabolites of Moniliophthora perniciosa-resistant Theobroma cacao beans during spontaneous fermentation in southern Brazil.

BACKGROUND: Cocoa bean fermentation is a spontaneous process involving a succession of microbial activities, yeasts, lactic acid, and acetic acid bacteria. The spontaneous fermentation of cocoa beans by Theobroma cacao TSH565 clonal variety, a highly productive hybrid resistant to Moniliophthora perniciosa and Phytophthora spp., was investigated. The natural cocobiota involved in the spontaneous fermentation of this hybrid in southern Brazil, was investigated by using both a culture-dependent microbiological analysis and a molecular analysis. The changes in the physicochemical characteristics and the kinetics of substrate utilization and metabolite production during fermentation were also evaluated. RESULTS: Yeasts (178) and bacteria (244) isolated during fermentation were identified by partial sequencing of the ITS and 16S rDNAs, respectively. After 144 h of fermentation, the indigenous yeast community was composed of Hanseniaspora spp., Saccharomyces spp., and Pichia spp. The bacterial population comprised Lactococcus spp., Staphylococcus spp., Acetobacter spp. and Lactobacilli strains. The kinetics of substrate transformation reflected the dynamic composition of the cocobiota. Substrates such as glucose, fructose, sucrose, and citric acid, present at the beginning of fermentation, were metabolized to produce ethanol, acetic acid, and lactic acid. CONCLUSION: The results described here provide new insights into microbial diversity in cocoa bean-pulp mass fermentation and the kinetics of metabolites synthesis, and pave the way for the selection of starter cultures to increase efficiency and consistency to obtain homogeneous and best quality cocoa products. © 2018 Society of Chemical Industry.

Technical note: Design, development and validation of an automated gas monitoring equipment for measurement of the dynamics of microbial fermentation.

The present technical note describes design, development and validation of an automated equipment for measurement of kinetics of gas production during fermentation in glass bottles. The overall repeatability and precision of the developed system was evaluated and compared with the manual gas measurement technique in respect to characterization of the fermentation kinetics of ruminant livestock feeds. Two incubations were carried out, during which the GP of six different feeds was measured with the automated system or manual technique. During a 48-hour incubation period, pressure data were collected at 15-minute intervals using automated equipment, yielding 192 head-space pressure measurements for each bottle. In manual measurement, incubations were performed with the nominal 60-mL serum bottle, and headspace pressure was read using a digital pressure gauge and then released at 2, 4, 6, 8, 12, 16, 24, 36, and 48 hours of incubation. The automated equipment recorded greater GP (+11.5%, over the 48-h incubation) than the manual measurement, and the repeatability and coefficient of repeatability values indicated that the GP data obtained with manual equipment were less repeatable. The automated equipment measures the fermentative GP kinetics with greater precision and repeatability than manual technique.•An automated batch GP equipment was designed, developed and validated, and a comparison was made with GP data obtained manually using a digital pressure gauge.•The automated equipment provided more reliable and repeatable data compared with manual measurement.•The automated equipment is available with lower cost and more functionality.

Efeitos da adição de monensina ou propilenoglicol à polpa cítrica sobre a cinética de degradação dos carboidratos totais e da produção cumulativa de gases in vitro / Effects of adding monensin or propylene glycol to citrus pulp on the degradability of total carbohydrates and in vitro cumulative gas production

Avaliaram-se os efeitos da adição de propilenoglicol e/ou monensina sobre a degradabilidade média e efetiva dos carboidratos totais, pH e produção cumulativa de gases da polpa cítrica por meio da técnica in vitro semi-automática de produção de gases. Os tratamentos constituíram-se de polpa cítrica (PC); associada ao propilenoglicol (PC+PG); monensina (PC+MO); propilenoglicol e monensina (PC+PG+MO), avaliados com duas, quatro, seis, 12, 24, 48 e 96 horas. A degradabilidade efetiva dos carboidratos totais de PC+PG foi maior em todas as taxas de passagem estudadas. A produção cumulativa de gases e a degradação dos carboidratos totais apresentaram correlação elevada, variando de 92 a 97 por cento (P<0,01). O pH do meio foi inversamente correlacionado ao aumento da degradabilidade dos carboidratos totais (r= -79 por cento, P<0,01). O propilenoglicol promoveu a maior degradabilidade efetiva dos carboidratos totais e pode ser um bom aditivo a ser utilizado em associação com a polpa cítrica.

The effects of propylene glycol and/or monensin on the total carbohydrate degradations, pH, and cumulative gas production of citrus pulp using the semi-automated in vitro gas production technique were evaluated. The treatments were constituted of citrus pulp (CP); CP plus propylene glycol (CP+PG); CP plus monensin (CP+MO), and CP plus propylene glycol and monensin (CP+PG+MO), which were evaluated at two, four, six, 12, 24, 48, and 96 hours. The addition of propylene glycol to the citrus pulp resulted in the highest (76.7; 63.9; and 56.5 percent for rates of passage 0.02; 0.05 and 0.08 percent/h, respectively) total carbohydrates degradability. Cumulative gas production and degradation of total carbohydrates were highly correlated (92 to 97 percent, P<0.01). The pH was inversely correlated to degradability of total carbohydrates (r= -0.79, P<0.01). Propylene glycol showed higher effective degradation of total carbohydrate and may be a good additive to be used associated to the citrus pulp.