Pelleting in Associated with Sodium Monensin Increases the Conjugated Linoleic Acids Concentration in the Milk of Dairy Cows Fed Canola Seeds.

Francilaine Eloise De Marchi,Geraldo Tadeu Dos Santos,Julio Cesar Damasceno,Lúcia Maria Zeoula,Paula Adriana Grande,Jakeline Vieira Romero

doi:10.5713/ajas.14.0865

Abstract

To evaluate the effects of the pelleting and the addition of sodium monensin on production, the chemical and lipid composition of milk and butter physical characteristics, 4 Holstein dairy cows (135 days of lactation) with an average milk production of 14.7 kg/d, were supplemented with a concentrate containing ground canola seeds. The cows were assigned to a 4×4 Latin square design with a 2×2 factorial arrangement of treatments: i) ground maize, soybean meal, mineral and vitamin supplements, and ground canola seeds (CG); ii) CG concentrate with 31.5 mg of monensin added per kg of dry matter (DM); iii) CG pelleted concentrate; iv) CG concentrate with monensin addition pelleted. There was no difference in milk production and composition. The addition of monensin increased milk concentration of polyunsaturated fatty acids (PUFA), the PUFA/saturated fatty acids (SFA) ratio, and omega 6. The pelleting increased the concentration of monounsaturated fatty acids, the PUFA/SFA ratio, and the omega 6/omega 3 ratio, but decreased the concentration of SFA. The association between pelleting and the addition of monensin increased the concentration of conjugated linoleic acids by 46.9%. The physical characteristics of butter were not affected by the evaluated diets. We concluded that the concentrate with 31.5 mg of monensin added per kg DM basis combined with the pelleting improves the lipid composition of milk from Holstein cows that are on pasture and supplemented with ground canola seeds, without changing the production, milk composition, and spreadability of butter.

Highlights

Fatty acids (FA) of the omega 3 and omega 6 families as well as conjugated linoleic acids (CLA) and its isomers have been shown to have an important function in preventing human diseases (Cichosz and Czeczot, 2012)
The addition of oilseeds or their oils in the diet of dairy cows have been effective in improving milk fatty acid profile because they decrease saturated fatty acids (SFA)
The dry matter intake (DMI) of total diet was 12.7±0.83 kg/d (Table 2); being 5.4±0.6 kg was from the concentrate, and 7.8±0.6 kg was from the roughage

Summary

Introduction

Fatty acids (FA) of the omega 3 and omega 6 families as well as conjugated linoleic acids (CLA) and its isomers have been shown to have an important function in preventing human diseases (Cichosz and Czeczot, 2012). Submitted Nov. 11, 2014; Revised Jan. 9, 2015; Accepted Feb. 10, 2015 and increase polyunsaturated fatty acids (PUFA) levels in the form of CLA, omega 3, and omega 6 FA (Mohammed et al, 2011). Another factor that can potentiate this increase is keeping animals on pasture (Schroeder et al, 2004); because α-linolenic and linoleic FA are abundant in grasses. Canola seed has low digestibility, unless the hull is broken and the core exposed In this case, PUFA are exposed for ruminal biohydrogenation. If ruminal biohydrogenation can be controlled, it will be possible to

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