Francisco Javier Solorio-Sánchez

Potential of condensed tannins for the reduction of emissions of enteric methane and their effect on ruminant productivity

El metano (CH4) es un gas subproducto de la fermentacion de los carbohidratos en el rumen. La agricultura contribuye con el 47% de las emisiones antropogenicas de CH4, siendo los rumiantes responsables del 39% de las emisiones de metano enterico. Este gas de efecto invernadero (GEI) tiene un potencial de calentamiento global 25 veces mas que el CO2 y representa una perdida de hasta el 12% de la energia total consumida por los rumiantes. Este trabajo describe los mecanismos de accion de los taninos condensados contenidos en follajes y frutos y su efecto en los microbios del rumen, asi como su potencial en la mitigacion de las emisiones de CH4. Los hallazgos sugieren que los taninos condensados reducen la poblacion de protozoos hasta 79%, reduciendo ademas los metanogenos del rumen hasta en 33%. Los taninos condensados se unen a proteinas y polisacaridos formando complejos, reduciendo asi la digestibilidad de la meteria seca y organica y la produccion de H2 metabolico, el que es usado por metanogenos para la reduccion del CO2 a CH4. Estudios in vitro sugieren que los taninos condensados pueden reducir el CH4 en el rumen hasta 63%, mientras que in vivo se han registrado reducciones hasta 58% en la produccion de CH4. Ademas, la incorporacion de taninos condensados en la racion de rumiantes tiene el potencial de aumentar la ganancia de peso en 26%, relacionando esto al aumento en el flujo de proteina de baja degradacion ruminal al intestino delgado o la reduccion de la energia perdida en forma de CH4 en el rumen. Se concluye que la incorporacion de taninos condensados en la racion de los rumiantes en concentracion de 3-6% de materia seca puede reducir las emisiones de CH4 asi como mejorar la ganancia de peso y produccion de leche de los animales productivos.

Milk production and reproduction of dual-purpose cows with a restricted concentrate allowance and access to an association of Leucaena leucocephala and Cynodon nlemfuensis

The aim of the study was to evaluate the productive and reproductive performance of dual-purpose (DP) cows with a restricted concentrate allowance and access to a forage association of Leucaena (Leucaena leucocephala) and Stargrass (Cynodon nlemfuensis). Twenty-four multiparous Holstein × Zebu cows were used during the first 98 days postpartum. Treatments were control (CT): nightly grazing of Stargrass + commercial concentrate (3.97 kg dry matter [DM]/d), and Leucaena (LT): nightly grazing of Stargrass + commercial concentrate (1.97 kg DM/d) + 4 h grazing on an association of Leucaena/Stargrass. The actual time spent browsing Leucaena represented 38% of the total time of consumption. The bite rate of Leucaena was 22 5 bites/min with a bite size of 0.541 ± 0.08 g DM. The estimated intake of Leucaena per cow was 503 ± 228 g DM/d. Milk yield per cow was similar (P > 0.05) between treatments (CT = 12.28 ± 0.6 kg/d, LT = 11.97 ± 0.6, TL = 11.9 0.6) with a similar composition (P > 0.05). There were no differences (P > 0.05) between treatments for changes in live weight (CT −29.6 kg, LT −33.3 kg) and body condition (CT −1.3, LT −1.4, in a 1–9 scale). Population of ovarian follicles per cow was similar between treatments throughout the experiment. Pregnancy rate was 33% for CT and 25% for LT, with no significant differences (P > 0.05). Grazing an association of Leucaena and Stargrass can replace part of the concentrate without detrimental effects on production and reproduction in DP cows.

Effect of supplementation with saponins from Yucca schidigera on ruminal methane production by Pelibuey sheep fed Pennisetum purpureum grass

The aim of the work was to determine the effect of increasing concentrations of saponins from Yucca schidigera in the diet on voluntary intake, rumen fermentation and methane (CH4) production in Pelibuey sheep fed a tropical grass Pennisetum purpureum. Five male sheep (32.2 ± 1.1 kg liveweight) were fed chopped P. purpureum grass in a 5 × 5 Latin square design. Sheep were supplemented with 0.0, 1.5, 3.0, 4.5 or 6.0 g per day of saponins from Y. schidigera mixed with ground corn, before the grass was offered. Feed intake, feed refusal and total faecal output were recorded for 20 days of the adaptation period and 5 days of the experimental period. Apparent digestibility of dry matter (DMD), organic matter (OMD), neutral detergent fibre (NDFD) and acid detergent fibre (ADFD) were determined. Ruminal methane emission was estimated using stoichiometric balance and the molar proportion of volatile fatty acids was determined by gas chromatography. Voluntary intake, DMD, OMD, NDFD, ADFD, volatile fatty acids and CH4 emission were not affected (P > 0.05) by increasing inclusion levels of saponins in the ration of sheep. Nonetheless, CH4 production increased as the voluntary intake of NDF augmented. Addition of 6 g of saponins per day as a supplement to Pelibuey sheep fed a tropical grass did not affect voluntary intake and digestibility of DM, OM, NDF and ADF, or ruminal methane production.

Effect of intake of diets containing tannins and saponins on in vitro gas production and sheep performance

The aim of this study was to evaluate the effect of the intake of leucaena, Enterolobium cyclocarpum, fruits and a mixture of both feeds on in vitro gas production and in vivo sheep productive performance. The experiment was conducted at the University of Yucatan, Mexico. Twenty-four Pelibuey sheep, 20.28 ± 2.99 kg average liveweight (LW), were used. Animals were randomly assigned to the following experimental treatments: T1: 100% Pennisetum purpureum, T2: 30% Leucaena leucocephala foliage + 70% P. purpureum, T3: 30% E. cyclocarpum fruits + 70% P. purpureum, T4: 30% L. leucocephala foliage + 30% E. cyclocarpum fruits + 40% P. purpureum. Voluntary intake was higher in T4 (grass + leucaena + E. cyclocarpum) (P = 0.0001). Higher LW gain was observed in animals fed with T4 (P = 0.0001) and the lowest LW gains were recorded with grass (T1) and grass + leucaena (T2) (78.9 and 99.2 g/day, respectively). Similarly, the feed conversion efficiency was improved with treatment T4 (P = 0.0030). The in vitro gas production (48 h) was lower by 30 mL/0.5 g fermented DM in T4 compared with the other treatments (P = 0.0001). Apparent DM digestibility was higher in T3 and T4 (P = 0.0005). The protozoa counts were lower in T2, T3 and T4 (P = 0.0001). Higher intake, digestibility and sheep performance with diets containing grass + leucaena + E. cyclocarpum mixture arise from an improved nutritional diet as these sources have higher protein, lower cell walls and higher DM digestibility.