Changes in in vitro ruminal and post-ruminal degradation of tropical tannin-rich legumes due to varying levels of polyethylene glycol.

We evaluated the effects of tannins from Flemingia macrophylla (CIAT 17403) and Calliandra calothyrsus (San Ramón CIAT 22310 and Patulul CIAT 22316) on in vitro ruminal and post-ruminal dry matter and apparent protein degradation. For each tannin source (legumes), different dosages of polyethylene glycol (PEG) (8000 Da) in McDougall buffer were added to achieve ratios of 0:3, 1:3, 2:3 and 3:3 PEG:condensed tannin (CT). Ruminal fluid mixed with McDougall buffer (1:4) was added to tubes containing only legume foliage (control) or PEG-treated legume foliage. For both Calliandra varieties, a higher ruminal dry matter degradation was observed at a PEG:CT ratio of 3:3. For F. macrophylla, no differences were found between 2:3 and 3:3 ratios (p > 0.05), indicating that a PEG:CT ratio of 2:3 might be enough to bind tannins. Increasing PEG:CT ratios increased apparent ruminal degraded protein and ammonia concentration (p < 0.0001) differing among species (species × ratio: p < 0.0001). The degradation of bypass crude protein (dBCP) was influenced by both legume type and PEG:CT ratio (p < 0.0001). For Patulul, as PEG:CT ratio increased, dBCP increased, but after tannin ratio of 2:3, there was not a significant increase, and for San Ramón, dBCP degradation was higher as PEG:CT ratio increased up to 2:3. For Flemingia, dBCP was higher than PEG:CT ratio of 0:3 but not different among 1:3, 2:3 or 3:3. Low concentration of CT (116 mg/g DM) increased the proportion of protein digested in the abomasum, but higher levels of CT (252 mg/g) clearly reduced the proportion of digested CP. For Flemingia, PEG:CT ratio of 2:3 is enough to inactivate tannins, while PEG:CT ratio of 3:3 was needed for Calliandra and consequently increased ruminal degradation of dry mater (rdDM), and crude protein (rdCP), total degradation of dry matter (tdDM), crude protein (tdCP) and ammonia levels.

Efecto del recunnto de células somáticas sobre a aptitud quesera de la leche yy la calidad fisicoquímica y sensorial del queso campesino / Somaticcell counnt effect on cheese yield and quality of fresh cheese

Antecedentes: en Colombia, el alto recuento de células somáticas (RCS) en la leche es un problema para la industria lechera. Altos recuentos pueden afectar de manera considerable los rendimientos y calidad final del queso. Varios países han establecido límites máximos estandarizados para el RCS. Colombia no lo ha hecho de manera oficial y tan solo unas pocas industrias manejan sus propios límites. Objetivos: Determinar el efecto del RCS sobre parámetros de aptitud quesera de la leche y la calidad sensorial del queso campesino. Métodos: Se tomaron muestras de leche de seis tanques con altos y bajos RCS y se realizaron mezclas para obtener 30 baches con diferentes RCS (desde 150.000 hasta 1.200.000 cel/ml). Con estas mezclas se elaboraron 30 quesos tipo campesino a los cuales se les determinaron variables de aptitud quesera (tiempo de coagulación, rendimientos y pérdidas en suero) y la calidad organoléptica a través de una prueba sensorial descriptiva de puntajes con panel de seis jueces con experiencia previa y entrenados en queso campesino. Las variables de aptitud quesera fueron analizadas por regresión múltiple y los resultados de la evaluación sensorial con la prueba no paramétrica de Friedman. Resultados: La aptitud quesera disminuyó con RCS superiores a 200.000 cel/ml. El tiempo de coagulación (R² = 0.74; P< 0.001) y las pérdidas de proteína en el lactosuero (R² = 0.55; P<0,001) aumentaron, mientras que los rendimientos (R²=0.31; P<0.01) disminuyeron a medida que aumentó el RCS. La calificación de los panelistas respecto de la textura y la apariencia disminuyó con RCS mayores a 600.000 cel/ml (P<0.01) y el sabor y el aroma, a partir de 800.000 cel/ml (P<0,01). Conclusiones: Aumentos en el RCS en leche afectan negativamente parámetros de aptitud quesera y la calidad sensorial del queso campesino. Se sugiere que los impactos serán menores sobre el rendimiento cuanto menor sea el RCS, mientras que la calidad organoléptica mejorará cuando la leche tenga RCS por debajo de 600.000 cel/ml.

Background: A high milk somatic cell count (SCC) is a problem for milk industry in Colombia. These high counts can affect considerably yield and final quality of cheese. Several countries have established maximum limits for SCC. In Colombia these limits have not been established officially, only a few industries have their own limits. Objectives: To determine the effect of somatic cell count (SCC) on milk potential for cheese making and sensorial quality of fresh cheese. Methods: Six milk samples with high and low SCC, were taken from bulk tanks and mixed to obtain 30 samples with SCC of 150.000 to 1.200.000 somatic cells/mL. Thirty fresh cheeses were prepared and clotting time, yield (protein, fat, dry matter) and whey losses were determined. Additionally, score descriptive sensorial quality test was performed by 6 trained judges. Protein, fat, dry matter in milk and cheese yields were analyzed by multiple regressions and information of sensorial test by Friedman method. Results: When milk SCC (somatic cells/ml) increased from 150.000 to 1.200.000, clotting time (R² = 0,74; P<0.001), and whey protein losses increased (R² = 0.55; P<0.001) and cheese yield decreased (R²=0.31, P<0.01). According to panelists, texture and appearance were affected negatively when SCC was higher than 600.000 cells per ml (P<0.01), flavor and aroma when they were higher than 800000 cells/ml. Conclusions: Increases in SCC have a negative effect on milk potential for cheese making and quality sensorial parameters on fresh cheese. It is suggested that minor impacts in fresh cheese yield would be obtained with a lower SCC and for good sensorial quality when the milk has SCC, lower than 600.000 cells per ml.

In vitro evidence for the importance of cultivation conditions on the effects of Calliandra tannins on ruminal escape of soybean protein and its post-ruminal degradability.

Purified condensed tannins (CT) extracted from the legume Calliandra calothyrsus (var. San Ramón CIAT 22310), harvested in the dry and the rainy season and cultivated with low or high level of fertilization were added to soybean meal in a ratio of 600 mg/g of the incubated crude protein (CP). Effects on degradation either in ruminal fluid only, or in ruminal fluid followed by incubation in HCl/pepsin, were evaluated using a modified two-step in vitro method. Season was found to have larger effects on in vitro ruminal and post-ruminal CP degradation than fertilization. Condensed tannins from the rainy season harvest reduced ruminal CP degradation less than that from the dry season harvest. They had also less negative effects on the degradability of rumen escape protein and enhanced the proportion of post-ruminally degraded CP more than CT from the dry season harvest. An increase in level of fertilization reduced ruminal CP degradation in CT from the rainy season plants but this was not associated with effects on post-ruminal degradation. The study demonstrated the importance of environmental factors for the efficiency of CT in modifying ruminal and post-ruminal CP degradation.

Effects of Sapindus saponaria fruits on ruminal fermentation and duodenal nitrogen flow of sheep fed a tropical grass diet with and without legume.

Six adult African-type hair sheep (BW = 40.3 +/- 6.3 kg) fitted with ruminal and duodenal cannulas were subjected to four treatments. Sheep were offered basal diets at a rate of 80 g of DM/kg of metabolic BW (equivalent to ad libitum access) consisting either of a low-quality grass hay (Brachiaria dictyoneura, 3.7% CP, DM basis) alone or in combination with a forage legume (Cratylia argentea, 18.6% CP, DM basis) in a 3:1 ratio (DM basis). In addition, 0 or 8 g of DM of Sapindus saponaria fruits (12.0% crude saponins, DM basis) per kilogram of metabolic BW was administered intraruminally. Supplementation of C. argentea increased intakes of OM (+21%; P < 0.01) and CP (+130%; P < 0.001), as well as ruminal fluid ammonia N concentrations (from 2.40 to 8.43 mg/dL; P < 0.001). Apparent OM and N digestibilities were not affected by legume addition, but ADF digestibility decreased by 10% (P < 0.01). Total ruminal VFA concentration was unchanged, but acetate:propionate was lower (P < 0.01) and isobutyrate proportion was greater (P < 0.001) with the legume addition. Legume supplementation increased duodenal flows of total N (+56%; P < 0.001), nonammonia N (+52%; P < 0.001), ruminal escape N (+80%; P < 0.001), and microbial N (+28%; P < 0.05). Microbial efficiency was not affected by legume addition. Supplementation of S. saponaria increased (P < 0.05) dietary OM intake by 14%, but had no effect on CP intake and ruminal fluid ammonia concentration or on OM and N digestion. Digestibility of ADF was decreased (P < 0.01) by 10% with S. saponaria as was acetate:propionate (P < 0.001) and the isobutyrate proportion (P < 0.001). Ruminal protozoa counts increased (P < 0.01) by 67% with S. saponaria. Duodenal N flows were not significantly affected by S. saponaria supplementation, except for microbial N flow (+34%; P < 0.01). Microbial efficiency was greater (P < 0.05) by 63% with the addition of S. saponaria. Few interactions between legume and S. saponaria supplementation were observed. The NDF digestibility was decreased with S. saponaria in the grass-alone diet, but not in the legume-supplemented diet (interaction; P < 0.05). Interactions were absent in ruminal fermentation measures and duodenal N flow, indicating that effects were additive. Results suggest that, even when not decreasing ruminal protozoa count, supplementation of S. saponaria fruits is a beneficial way to improve ruminal VFA profile, microbial efficiency, and duodenal flow of microbial protein in sheep fed tropical grass-alone or grass-legume diets.

Feeding wet corn gluten feed to reduce subacute acidosis in cattle.

Two experiments were conducted to evaluate the effects of feeding wet corn gluten feed (WCGF) on subacute acidosis in cattle. In Exp. 1, 60 individually fed yearling steers (270 +/- 22 kg BW) were used in a 5 x 2 factorial arrangement of treatments. Steers were assigned to one of five dietary treatments: 1) dry-rolled corn (DRC), 2) 35% WCGF fed d 1 to 132, 3) 86.5% WCGF fed d 1 reduced to 35% WCGF by d 19 and increasing the proportion of DRC, 4) 86.5% WCGF fed d 1 to 132, or 5) 94.5% WCGF fed d 1 to 132. Final diets for Treatments 1 through 4 contained 92% concentrate and 8% alfalfa hay (DM basis). Treatment 5 was a 100% concentrate diet. All diets were fed with or without the addition of escape protein. During d 19 to 24, steers fed WCGF had less (P < .05) DMI variation than steers fed the control diet. Steers fed 86.5 and 94.5% WCGF had lower (P < .05) DMI and ADG than steers fed TReatments 1 through 3, although gain/feed was mot different (P > .10) In Exp. 2, three ruminally fistulated steers (615 +/- 36 kg BW) were used in a repeated 3 x 3 Latin square design. On d 14 of each period, 7.9 kg (DM) of 100% DRC, 50% DRC:50% WCGF, of 100% WCGF was intraruminally dosed as an acidosis challenge. Area within the curve below ruminal pH 6.0 was greater (P < .05) over a 24-h period for steers dosed with 100% DRC than for steers dosed with 50% DRC: 50% WCGF or 100% WCGF. In addition, more (P < .05) ruminal VFA accumulated over 24 h for steers dosed with 100% DRC. These data suggest that feeding WCGF does nor eliminate ruminal acidosis but may reduce the length of time cattle are exposed to the insult.