Effect of calcium propionate and monensin on in vitro digestibility and gas production

Osorio-Teran, Amada Isabel; Mendoza-Martínez, Germán David; Miranda‐Romero, Luis Alberto; Martínez-Gómez, Daniel; Hernández-García, Pedro Abel; Martínez-García, José Antonio

doi:10.1590/s1806-92902017000400011

Cited by 9 publications

(7 citation statements)

References 24 publications

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“…When CaPr is supplemented alone, it undergoes hydrolysis within the acidic pH of the rumen, resulting in the formation of Ca 2+ and propionic acid [7]. This process yields several effects at the rumen level, including (1) alteration of the volatile fatty acid (VFA) pattern [5]; (2) reduction in methane production; (3) improved digestibility of the DM; (4) enhanced fermentation efficiency [4]; and (5) improved responsiveness of insulin in glucose metabolism [6], which plays a role in both fat deposition and muscle growth. As a cumulative outcome of these mechanisms, there is a promotion of energy status achieved through the heightened synthesis of glucose via gluconeogenesis [7].…”

Section: Productive Performancementioning

confidence: 99%

“…It has been observed that the gluconeogenic precursor calcium propionate (CaPr) alters energy metabolism in two ways when supplemented in ruminant diets: firstly, by altering rumen fermentation through improvements in ruminal dry matter (DM) digestibility, thereby increasing the proportion of ruminal propionate, and decreasing methane production [4,5]. Another way is by improving insulin's action on glucose metabolism [6], thereby promoting an increase in energy status through enhanced glucose synthesis via gluconeogenesis in the liver [7].…”

Section: Introductionmentioning

confidence: 99%

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Effects of Duration of Calcium Propionate Supplementation in Lambs Finished with Supplemental Zilpaterol Hydrochloride: Productive Performance, Carcass Characteristics, and Meat Quality

Carrillo-Muro,

Rivera-Villegas,

Hernandez-Briano

et al. 2023

Animals

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Forty-five male non-castrated crossbred Dorper lambs (40.17 ± 0.35 kg body weight, BW) were employed in a completely randomized design with five treatments to investigate the effects of the duration of calcium propionate (CaPr) supplementation (10 g CaPr/lamb/d for 0, 14, 28, or 42 d before slaughter) on lambs finished with zilpaterol hydrochloride (ZH, 7.2 mg/lamb/d for a fixed period of 28 d before slaughter) regarding their productive performance, carcass characteristics, and meat quality. Treatments consisted of the following: (1) No additives (CTL), (2) 0 days on CaPr plus 28 d on ZH, (3) 14 days on CaPr plus 28 d on ZH, (4) 28 days on CaPr plus 28 d on ZH, and (5) 42 days on CaPr plus 28 d on ZH. When compared with CTL, ZH lambs exhibited a similar average daily gain (ADG) but had lower dry matter intake (DMI), leading to increased feed efficiency. Supplementing with ZH alone did not affect carcass traits, visceral mass, whole cuts, or meat quality. Lambs that received both CaPr 28 d and ZH exhibited quadratic increases (p < 0.05) in final body weight (FBW), ADG, and dressing percentage (D%). These increases were optimal at estimated inclusion durations of 26 d for FBW, 30 for ADG, and 39 d for D%. The ADG:DMI ratio and the longissimus muscle area (LMA) both exhibited quadratic increases (p < 0.05). The optimal duration of CaPr supplementation for ADG:DMI ratio was found to be 28 d, while for LMA, it was 14 d. As the period of CaPr supplementation increased, there was a linear increase (p < 0.05) in hot carcass weight, leg circumference, and whole cuts of breast IMPS209 and shoulder IMPS207. Cook loss percent increased quadratically (p < 0.05), and was higher when CaPr was included for an estimated duration of 26 d. As the duration of CaPr supplementation increased, the purge loss percentage (PRL) also increased linearly (p < 0.05). In conclusion, including CaPr in the diet for a duration of 28 d in lambs improved the response to ZH supplementation on the productive performance, carcass weight, and some whole cuts. However, it can also have a negative effect on PRL%.

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Section: Productive Performancementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effects of Duration of Calcium Propionate Supplementation in Lambs Finished with Supplemental Zilpaterol Hydrochloride: Productive Performance, Carcass Characteristics, and Meat Quality

Carrillo-Muro,

Rivera-Villegas,

Hernandez-Briano

et al. 2023

Animals

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“…This leads to an acetate:propionate ratio decline [3,[84][85][86], which in turn favours the recovery of energy used by the animal [79]. Additionally, SM reduces the formation of methane and lactic acid produced by other microorganisms [87,88].…”

Section: Fatty Acid Profilementioning

confidence: 99%

Natural Oregano Essential Oil May Replace Antibiotics in Lamb Diets: Effects on Meat Quality

et al. 2020

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A study was conducted to investigate the effect of oregano essential oil (OEO) and monensin sodium on the oxidative stability, colour, texture, and the fatty acid profile of lamb meat (m. Longissimus lumborum). Twenty Dorper x Pelibuey lambs were randomly divided into five treatments; control (CON), monensin sodium (SM, Rumensin 200® 33 mg/kg), a low level of OEO (LO, 0.2 g/kg dry matter (DM)), a medium level of OEO (MO, 0.3g/ kg DM), and a high level of OEO (HO, 0.4 g/kg DM). Dietary supplementation of OEO at any concentration lowered the compression strength in comparison with CON and SM. MO had the highest a* values (7.99) and fatty acid concentration (C16:1n7, C18:1n9c, C18:1n6c, C20:1n9, and C18:2n6c) during storage for 7 d at 3 °C. Lipid oxidation was not promoted (p > 0.05) by the moderated supplementation of oregano essential oil; however, OEO at 0.3 g/kg DM showed a slight lipid pro-oxidant effect. Dietary supplementation of MO and SM had the same effect on colour, tenderness, and the fatty acid profile of lamb (L. lumborum). It was demonstrated that oregano essential oil was beneficial for lambs feeding, and it could be a natural alternative to replace monensin in lamb diets with improvements in the quality of the meat.

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“…(29). En otro estudio in vitro con 10% de Pr-Ca, el volumen de gas aumentó el cual fue atribuido a los efectos sobre pH y a la presión osmótica (8). En una evaluación in vivo con toros recibieron 20 g/d de Pr-Ca, no afectaron la fermentación ni la población microbiana (30), pero la dosis fue muy baja.…”

Section: Discussionunclassified

“…El propionato de calcio (Pr-Ca) como una fuente de alimentación no convencional ha sido utilizado en corderos para reducir el uso de granos, incrementando el propionato ruminal (7). Su potencial para reducir el metano se explica porque durante su disociación captura el ion de hidrógeno reduciendo su disponibilidad para formar metano (8). Las emisiones de GEI pueden reducirse si se mejora la digestibilidad, lo cual se alcanza cubriendo las necesidades nutricionales, particularmente en rumiantes alimentados con dietas con forrajes de baja calidad (9).…”

Section: Introductionunclassified

Efecto de bloques con propionato de calcio sobre respuestas productivas en corderos y GEI in vitro

et al. 2019

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Objetivo. Evaluar dos bloques multinutricionales formulados para mejorar el crecimiento de los corderos alimentados con una dieta basal de bajo valor nutritivo, con y sin propionato de calcio (Pr-Ca), evaluando el crecimiento de los corderos, digestibilidad y las emisiones de gases efecto invernadero in vivo e in vitro. Materiales y métodos. Se utilizaron doce borregos (20.17 ± 2.35 Katahdin x criollo) en tres tratamientos: Dieta basal (DB 70% paja de avena; 30% concentrado), DB+ Bloque sin Pr-Ca y DB + Bloque con 1.5% de Pr-Ca, por 50 días. Se midió producción de gas (PG) in vitro y se estimaron los parámetros de cinética (Vmax, S, Lag). Se estimaron la digestibilidad, CH4 y CO2 in vitro e in vivo. Resultados. El consumo fue menor (P<0.0001) en borregos sin bloque (753 g/d) en comparación con bloque sin (839 g) o con Pr-Ca (828 g) emisiones de metano mayor con bloques (16.16 y 16.18 g/d; 0 y 1.5% Pr-Ca respectivamente) que con DB (13.93 g/d). La PG in vitro fue mayor (P=0.0001) con la DB (380.76 ml) sin diferencias entre bloques (335.76 y 341.13 ml, 0 y 1.5% Pr-Ca respectivamente), y la DB tuvo mayor (P=0.0001) producción de CH4 (47.16 mol) y CO2 (200.04 mol) que con bloques (42.25 y 41.58 mol CH4; 179.21 y 176.39 moles CO2; 0 y 1.5% Ca-Pr respectivamente). Conclusiones. La suplementación con bloques mejora el consumo. In vitro los bloques redujeron la producción de gas e incrementaron la digestibilidad reduciendo CH4 y CO2.

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Effect of calcium propionate and monensin on in vitro digestibility and gas production

Cited by 9 publications

References 24 publications

Effects of Duration of Calcium Propionate Supplementation in Lambs Finished with Supplemental Zilpaterol Hydrochloride: Productive Performance, Carcass Characteristics, and Meat Quality

Effects of Duration of Calcium Propionate Supplementation in Lambs Finished with Supplemental Zilpaterol Hydrochloride: Productive Performance, Carcass Characteristics, and Meat Quality

Natural Oregano Essential Oil May Replace Antibiotics in Lamb Diets: Effects on Meat Quality

Efecto de bloques con propionato de calcio sobre respuestas productivas en corderos y GEI in vitro

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