Your search keyword '"Solorio-Sánchez FJ"' showing total 11 results

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

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Author

Piñeiro-Vázquez, AT, primary, Canul-Solís, JR, additional, Alayón-Gamboa, JA, additional, Chay-Canul, AJ, additional, Ayala-Burgos, AJ, additional, Aguilar-Pérez, CF, additional, Solorio-Sánchez, FJ, additional, and Ku-Vera, JC, additional more...

Published

2015

2. Voluntary Intake, Rumen Protein Degradation Kinetic and In Vitro Gas Production in Sheep Consuming Leucaena

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Author

Barros-Rodríguez, MA, Solorio-Sánchez, FJ, Sandoval-Castro, CA, Klieve, AV, Rojas-Herrera, RA, Briceño-Poot, EG, Ku-Vera, JC, Barros-Rodríguez, MA, Solorio-Sánchez, FJ, Sandoval-Castro, CA, Klieve, AV, Rojas-Herrera, RA, Briceño-Poot, EG, and Ku-Vera, JC more...

Published

2014

3. Effect of Chitosan and Naringin on Enteric Methane Emissions in Crossbred Heifers Fed Tropical Grass.

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Author

Jiménez-Ocampo R, Montoya-Flores MD, Herrera-Torres E, Pámanes-Carrasco G, Arceo-Castillo JI, Valencia-Salazar SS, Arango J, Aguilar-Pérez CF, Ramírez-Avilés L, Solorio-Sánchez FJ, Piñeiro-Vázquez ÁT, and Ku-Vera JC more...

Abstract

In order to meet consumer needs, the livestock industry is increasingly seeking natural feed additives with the ability to improve the efficiency of nutrient utilization, alternatives to antibiotics, and mitigate methane emissions in ruminants. Chitosan (CHI) is a polysaccharide with antimicrobial capability against protozoa and Gram-positive and -negative bacteria, fungi, and yeasts while naringin (NA) is a flavonoid with antimicrobial and antioxidant properties. First, an in vitro gas production experiment was performed adding 0, 1.5, 3.0 g/kg of CHI and NA under a completely randomized design. The substrate containing forage and concentrate in a 70:30 ratio on a dry matter (DM) basis. Compounds increased the concentration of propionic acid, and a significant reduction in methane production was observed with the inclusion of CHI at 1.5 g/kg in in vitro experiments ( p < 0.001). In a dry matter rumen degradability study for 96 h, there were no differences in potential and effective degradability. In the in vivo study, six crossbred heifers fitted with rumen cannulas were assigned to a 6 × 6 Latin square design according to the following treatments: control (CTL), no additive; chitosan (CHI1, 1.5 g/kg DMI); (CHI2, 3.0 g/kg DMI); naringin (NA1, 1.5 g/kg DMI); (NA2, 3.0 g/kg DMI) and a mixture of CHI and NA (1.5 + 1.5 g/kg DMI) given directly through the rumen cannula. Additives did not affect rumen fermentation ( p > 0.05), DM intake and digestibility of ( p > 0.05), and enteric methane emissions ( p > 0.05). CHI at a concentration of 1.5 g/kg DM in in vitro experiments had a positive effect on fermentation pattern increasing propionate and reduced methane production. In contrast, in the in vivo studies, there was not a positive effect on rumen fermentation, nor in enteric methane production in crossbred heifers fed a basal ration of tropical grass. more...

Published

2021

4. Influence of energy supplementation on dietary nitrogen utilization and milk production in cows fed foliage of Leucaena leucocephala.

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Author

Arjona-Alcocer VA, Aguilar-Pérez CF, Ku-Vera JC, Ramírez-Avilés L, and Solorio-Sánchez FJ

Subjects

Animal Feed analysis, Animal Nutritional Physiological Phenomena, Animals, Blood Urea Nitrogen, Cattle metabolism, Female, Fermentation, Lactation, Lactose metabolism, Milk metabolism, Milk Proteins, Rumen metabolism, Starch metabolism, Cattle physiology, Diet veterinary, Dietary Supplements, Fabaceae, Nitrogen metabolism

Abstract

The aim of the study was to assess the effect of four energy supplements (two highly fermentable; two starch-based carbohydrates) on blood urea nitrogen (BUN), urinary urea excretion, and milk yield, in dual-purpose cows fed foliage of Leucaena leucocephala (Leucaena). Five Holstein-Zebu cows with 450 kg body weight in their second third of lactation were used in a 5 × 5 Latin square design. Cows were fed (dry basis) a mixture of 45% Leucaena and 55% Pennisetum purpureum grass. Treatments were supplementation with (i) sugarcane molasses (Mo), (ii) sorghum grain (So), (iii) fresh citrus pulp (CitP) or (iv) rice polishing (RP), all of them incorporated into the diet at 25 MJ of ME/cow/day. There was a control group (Cont) without energy supplementation. The study comprised five periods of 20 days (15 days adaptation, 5 days measurements). Dry matter intake (kg/day) was lower (P < 0.05) for Cont (9.4) compared with Mo (12.1), So (12.0), CitP (11.9) and RP (11.9) but no difference was observed among energy supplements (P > 0.05). Milk yield (kg/day) was higher (P < 0.05) in cows supplemented with starch supplements (4.7 for So; 4.9 for RP) compared with Cont (3.3). Milk yield from highly fermentable supplements (Mo and CitP) did not differ (P > 0.05) from Cont or other treatments. Milk protein, fat and lactose were not different among treatments (P > 0.05). Blood urea nitrogen and urinary urea excretion were both reduced (P < 0.05) by energy supplementation. Urinary urea excretion was not different (P > 0.05) among cows fed different sources of energy. It is concluded that in dual-purpose cows fed Leucaena foliage, supplementation with sugarcane molasses, citrus pulp or rice polishing reduced blood urea nitrogen and urinary urea excretion. Milk yield was increased by sorghum and rice polishing whereas energy supplementation did not affect milk composition. more...

Published

2020

5. Review: Strategies for enteric methane mitigation in cattle fed tropical forages.

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Author

Ku-Vera JC, Castelán-Ortega OA, Galindo-Maldonado FA, Arango J, Chirinda N, Jiménez-Ocampo R, Valencia-Salazar SS, Flores-Santiago EJ, Montoya-Flores MD, Molina-Botero IC, Piñeiro-Vázquez AT, Arceo-Castillo JI, Aguilar-Pérez CF, Ramírez-Avilés L, and Solorio-Sánchez FJ more...

Subjects

Animal Feed analysis, Animals, Cattle, Diet veterinary, Milk, Poaceae, Rumen, Ruminants, Greenhouse Gases, Methane

Abstract

Methane (CH4) is a greenhouse gas (GHG) produced and released by eructation to the atmosphere in large volumes by ruminants. Enteric CH4 contributes significantly to global GHG emissions arising from animal agriculture. It has been contended that tropical grasses produce higher emissions of enteric CH4 than temperate grasses, when they are fed to ruminants. A number of experiments have been performed in respiration chambers and head-boxes to assess the enteric CH4 mitigation potential of foliage and pods of tropical plants, as well as nitrates (NO3-) and vegetable oils in practical rations for cattle. On the basis of individual determinations of enteric CH4 carried out in respiration chambers, the average CH4 yield for cattle fed low-quality tropical grasses (>70% ration DM) was 17.0 g CH4/kg DM intake. Results showed that when foliage and ground pods of tropical trees and shrubs were incorporated in cattle rations, methane yield (g CH4/kg DM intake) was decreased by 10% to 25%, depending on plant species and level of intake of the ration. Incorporation of nitrates and vegetable oils in the ration decreased enteric CH4 yield by ∼6% to ∼20%, respectively. Condensed tannins, saponins and starch contained in foliages, pods and seeds of tropical trees and shrubs, as well as nitrates and vegetable oils, can be fed to cattle to mitigate enteric CH4 emissions under smallholder conditions. Strategies for enteric CH4 mitigation in cattle grazing low-quality tropical forages can effectively increase productivity while decreasing enteric CH4 emissions in absolute terms and per unit of product (e.g. meat, milk), thus reducing the contribution of ruminants to GHG emissions and therefore to climate change. more...

Published

2020

6. Role of Secondary Plant Metabolites on Enteric Methane Mitigation in Ruminants.

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Author

Ku-Vera JC, Jiménez-Ocampo R, Valencia-Salazar SS, Montoya-Flores MD, Molina-Botero IC, Arango J, Gómez-Bravo CA, Aguilar-Pérez CF, and Solorio-Sánchez FJ

Abstract

The rumen microbiome plays a fundamental role in all ruminant species, it is involved in health, nutrient utilization, detoxification, and methane emissions. Methane is a greenhouse gas which is eructated in large volumes by ruminants grazing extensive grasslands in the tropical regions of the world. Enteric methane is the largest contributor to the emissions of greenhouse gases originating from animal agriculture. A large variety of plants containing secondary metabolites [essential oils (terpenoids), tannins, saponins, and flavonoids] have been evaluated as cattle feedstuffs and changes in volatile fatty acid proportions and methane synthesis in the rumen have been assessed. Alterations to the rumen microbiome may lead to changes in diversity, composition, and structure of the methanogen community. Legumes containing condensed tannins such as Leucaena leucocephala have shown a good methane mitigating effect when fed at levels of up to 30-35% of ration dry matter in cattle as a result of the effect of condensed tannins on rumen bacteria and methanogens. It has been shown that saponins disrupt the membrane of rumen protozoa, thus decreasing the numbers of both protozoa and methanogenic archaea. Trials carried out with cattle housed in respiration chambers have demonstrated the enteric methane mitigation effect in cattle and sheep of tropical legumes such as Enterolobium cyclocarpum and Samanea saman which contain saponins. Essential oils are volatile constituents of terpenoid or non-terpenoid origin which impair energy metabolism of archaea and have shown reductions of up to 26% in enteric methane emissions in ruminants. There is emerging evidence showing the potential of flavonoids as methane mitigating compounds, but more work is required in vivo to confirm preliminary findings. From the information hereby presented, it is clear that plant secondary metabolites can be a rational approach to modulate the rumen microbiome and modify its function, some species of rumen microbes improve protein and fiber degradation and reduce feed energy loss as methane in ruminants fed tropical plant species., (Copyright © 2020 Ku-Vera, Jiménez-Ocampo, Valencia-Salazar, Montoya-Flores, Molina-Botero, Arango, Gómez-Bravo, Aguilar-Pérez and Solorio-Sánchez.) more...

Published

2020

7. Effect of Dried Leaves of Leucaena leucocephala on Rumen Fermentation, Rumen Microbial Population, and Enteric Methane Production in Crossbred Heifers.

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Author

Montoya-Flores MD, Molina-Botero IC, Arango J, Romano-Muñoz JL, Solorio-Sánchez FJ, Aguilar-Pérez CF, and Ku-Vera JC

Abstract

The effects of dietary inclusion of dried Leucaena leucocephala leaves (DLL) on nutrient digestibility, fermentation parameters, microbial rumen population, and production of enteric methane (CH 4 ) in crossbred heifers were evaluated. Four heifers were used in a 4 × 4 Latin square design consisting of four periods and four levels of inclusion of DLL: 0%, 12%, 24%, and 36% of dry matter (DM) intake. Results showed that DM intake (DMI), organic matter intake, and gross energy intake (GEI) were similar ( p > 0.05) among treatments. Apparent digestibility of organic matter, neutral detergent fiber, and energy decreased with increasing levels of DLL in the ration ( p < 0.05). In contrast, digestible crude protein (CP) was higher ( p < 0.05) in treatments with 12% and 24% DM of DLL. The inclusion of DLL did not affect ( p > 0.05) rumen pH and total volatile fatty acids. Rumen microbial community was not affected ( p > 0.05) by treatment. There was a linear reduction ( p < 0.05) in CH 4 emissions as the levels of DLL in the ration were increased. Results of this study suggest that an inclusion of 12% DM of ration as DLL enhances digestible CP and reduces daily production of enteric CH 4 without adversely affecting DMI, rumen microbial population, and fermentation parameters. more...

Published

2020

8. Effect of grazing cows in an intensive silvopastoral system with Leucaena leucocephala on Panela cheese properties: yield, composition, fatty acid profile and sensory acceptability.

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Author

Moneeb AHM, Aguilar-Pérez CF, Ayala-Burgos AJ, Solorio-Sánchez FJ, and Ku-Vera JC

Subjects

Animals, Cattle, Fabaceae, Fatty Acids, Omega-3 analysis, Fatty Acids, Unsaturated analysis, Female, Herbivory, Nutritive Value, Poaceae, Cheese analysis, Fatty Acids analysis, Milk chemistry

Abstract

Yield, chemical composition, fatty acid profile, and sensory acceptability of Panela cheese produced from cows grazing in an intensive silvopastoral system (ISS) with Leucaena leucocephala and Cynodon nlemfuensis were evaluated and compared with Panela cheese from cows grazing a monoculture system (MS) of C. nlemfuensis only. The experiment lasted for 9 weeks in a tropical area in Mexico using ten crossbred cows (30-90 days of milking) assigned homogenously as five cows in each experimental group. No significant differences were found between the two systems for milk and cheese gross composition. Panela cheese from ISS showed lower content of the hypercholesterolemic fatty acids, accompanied with higher content of omega-3, omega-6 and polyunsaturated fatty acids. In addition, Panela cheese from ISS showed higher preference for the attributes of appearance, texture, flavor, and overall acceptability. It is concluded that Panela cheese from cows grazing in ISS has better acceptability and nutritional properties than that produced from MS with grass only., (© 2019 Japanese Society of Animal Science.) more...

Published

2019

9. Effects of feeding ground pods of Enterolobium cyclocarpum Jacq. Griseb on dry matter intake, rumen fermentation, and enteric methane production by Pelibuey sheep fed tropical grass.

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Author

Albores-Moreno S, Alayón-Gamboa JA, Ayala-Burgos AJ, Solorio-Sánchez FJ, Aguilar-Pérez CF, Olivera-Castillo L, and Ku-Vera JC

Subjects

Animal Feed analysis, Animals, Dietary Fiber, Dietary Supplements, Eating, Fatty Acids, Volatile metabolism, Male, Pennisetum, Rumen metabolism, Rumen parasitology, Saponins metabolism, Sheep, Sheep, Domestic, Digestion drug effects, Fabaceae, Fermentation drug effects, Methane metabolism, Saponins administration & dosage

Abstract

An experiment was carried out to determine the effect of supplementing ground pods of Enterolobium cyclocarpum in a basal ration of Pennisetum purpureum grass on feed intake, rumen volatile fatty acids (VFAs), and protozoa and methane (CH 4 ) production by hair sheep. Four male sheep (Pelibuey × Katahdin) with a mean live weight of 27.0 kg (SD ± 0.5) were supplemented with 0.00, 0.15, 0.30, and 0.45 kg of dry matter (DM) of E. cyclocarpum pods daily; equivalent to 0.00, 4.35, 8.70, and 13.05 g of crude saponins, respectively. Dry matter intake (DMI), organic matter intake (OMI), and molar proportions of propionic acid increased linearly (P < 0.05) as pods of E. cyclocarpum in the ration were increased. Higher intakes of DM and OM were found when lambs were fed 0.45 kg DM per day of E. cyclocarpum, and the highest proportion of propionic acid (0.21 and 0.22, respectively) was obtained with 0.15 and 0.30 kg of DM per lamb of E. cyclocarpum, while apparent digestibility of neutral detergent fiber (NDF) and molar proportion of acetic acid were reduced (P < 0.05). Rumen CH 4 production decreased (P < 0.05) when 0.30 and 0.45 kg of DM/lamb/day of E. cyclocarpum were fed (21.8 and 25.3 L CH 4 /lamb/day, respectively). These results suggest that to improve the feeding of sheep fed tropical grass, it is advisable to supplement the basal ration with up to 0.30 kg DM of E. cyclocarpum pods. more...

Published

2017

10. Energy utilization, nitrogen balance and microbial protein supply in cattle fed Pennisetum purpureum and condensed tannins.

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Author

Piñeiro-Vázquez AT, Canul-Solis JR, Alayón-Gamboa JA, Chay-Canul AJ, Ayala-Burgos AJ, Solorio-Sánchez FJ, Aguilar-Pérez CF, and Ku-Vera JC

Subjects

Animal Nutritional Physiological Phenomena, Animals, Bacteria metabolism, Dietary Proteins analysis, Digestion, Energy Metabolism, Female, Purines metabolism, Animal Feed analysis, Cattle physiology, Diet veterinary, Nitrogen metabolism, Pennisetum chemistry

Abstract

The aim of the experiment was to assess the effect of condensed tannins (CT) on feed intake, dry matter digestibility, nitrogen balance, supply of microbial protein to the small intestine and energy utilization in cattle fed a basal ration of Pennisetum purpureum grass. Five heifers (Bos taurus × Bos indicus) with an average live weight of 295 ± 19 kg were allotted to five treatments consisting of increasing levels of CT (0, 1, 2, 3 and 4% CT/kg DM) in a 5 × 5 Latin square design. Dry matter intake (DMI) was similar (p > 0.05) between treatments containing 0, 1, 2 and 3% of CT/kg DM and it was reduced (p < 0.05) to 4% CT (5.71 kg DM/day) with respect to that observed with 0% CT (6.65 kg DM/day). Nitrogen balance, purine derivatives excretion in urine, microbial protein synthesis and efficiency of synthesis of microbial nitrogen in the rumen were not affected (p ≥ 0.05) by the increase in the levels of condensed tannins in the ration. Energy loss as CH 4 was on average 2.7% of the gross energy consumed daily. Metabolizable energy intake was 49.06 MJ/day in cattle fed low-quality tropical grass with a DMI of 6.27 kg/day. It is concluded that concentrations of CT between 2 and 3% of DM of ration reduced energy loss as CH 4 by 31.3% and 47.6%, respectively, without affecting intakes of dry and organic matter; however, digestibilities of dry and organic matter are negatively affected., (Journal of Animal Physiology and Animal Nutrition © 2016 Blackwell Verlag GmbH.) more...

Published

2017

11. Rumen function in vivo and in vitro in sheep fed Leucaena leucocephala.

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Author

Barros-Rodríguez MA, Solorio-Sánchez FJ, Sandoval-Castro CA, Klieve A, Rojas-Herrera RA, Briceño-Poot EG, and Ku-Vera JC

Subjects

Animal Husbandry, Animals, Diet veterinary, In Vitro Techniques, Male, Sheep, Animal Feed, Animal Nutritional Physiological Phenomena, Fabaceae, Rumen metabolism

Abstract

The effect of Leucaena leucocephala inclusion in sheep diets upon rumen function was evaluated. Nine Pelibuey sheep, 32.6 ± 5.33 kg live weight (LW), fitted with rumen cannula were used. A complete randomized block design was employed. Two experimental periods of 60 days each, with 60-day intervals between them, were used. Experimental treatments were as follows (n = 6): T1 (control), 100 % Pennisetum purpureum grass; T2, 20 % L. leucocephala + 80 % P. purpureum; T3, 40 % L. leucocephala + 60 % P. purpureum. In situ rumen neutral detergent fiber (aNDF) and crude protein (CP) degradation, dry matter intake (DMI), volatile fatty acids (VFA) production, estimated methane (CH4) yield, rumen pH, ammonia nitrogen (N-NH3), and protozoa counts were measured. The aNDF in situ rumen degradation of P. purpureum and leucaena was higher (P < 0.05) in T2 and T3. Leucaena CP degradation was higher in T2 and T3 but for P. purpureum it was only significantly higher in T3. Leucaena aNDF and CP degradation rate (c) was 50 % higher (P < 0.05) in T2 and T3, but only higher in T3 for P. purpureum. Voluntary intake and rumen (N-NH3) was higher in T2 and T3 (P = 0.0001, P = 0.005, respectively). Molar VFA proportions were similar for all treatments (P > 0.05). Protozoa counts and in vitro gas production (48 h) were lower in T2 and T3 (P < 0.05, P < 0.0001). Estimated methane yield (mol CH4/day) was higher in sheep fed leucaena (P < 0.0001). However, CH4 yield relative to animal performance (mol CH4/g LW gain) was lower in T2 and T3 (P < 0.0001). In summary, these results indicate that including L. leucocephala in sheep diets did not modify rumen fermentation pattern (same VFA ratios) nor reduce the amount of CH4 per unit of DMI (mol CH4/g DMI). However, leucaena inclusion does increase rumen N-NH3, aNDF and CP digestibility, and voluntary intake. more...

Published

2015