Powder and agglomerated free-choice minerals for grazing cattle: animal responses and chemical and physical alterations of the mineral mixture

The aim was to evaluate the animal response and the chemical and physical changes of free-choice mineral mixtures fed to grazing cattle. Growing beef cattle were fed either powder (POW) or agglomerated (AGL) mineral mixtures in three different experiments (Exp.), carried out in pastures of Brachiari...

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Bibliographic Details
Published in:Archives of animal nutrition 2023-10, Vol.77 (5), p.403-419
Main Authors: Paranhos da Silva, Manoel Gustavo, Pereira Neves, Andrei, Baptaglin Montagner, Denise, Vinhas Ítavo, Luís Carlos, de Nadai Bonin, Márcio, Marson, Bruno, da Costa Gomes, Rodrigo
Format: Article
Language:English
Subjects:
Animal Feed - analysis
Animals
Beef cattle
Body weight
Body weight gain
Cattle
Chemical composition
Diet - veterinary
Dietary Supplements
Grazing
mineral nutrition
mineral supplements
Mineralization
Minerals
Mixtures
Pasture
pastures
Phosphorus
Physical characteristics
Physical properties
Powders
Reduction
Serum levels
Supplements
Weight Gain
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Summary:The aim was to evaluate the animal response and the chemical and physical changes of free-choice mineral mixtures fed to grazing cattle. Growing beef cattle were fed either powder (POW) or agglomerated (AGL) mineral mixtures in three different experiments (Exp.), carried out in pastures of Brachiaria grass. In Exp. 1 and 2, the mineral mixtures were disposed in unsheltered troughs (POWun vs. AGLun), being delivered once (D0, Exp.1) or twice (D0 and D8, Exp. 2), throughout 14-day periods. In Exp. 3, POWun and AGLun were additionally compared to POW in sheltered troughs (POWshe), and the mineral mixtures were disposed in D0, throughout 21-day periods. Non-consumed supplement was removed and sampled on D14 (Exp. 1 and 2) or D21 (Exp. 3). Evaluations included average daily body weight gain (ADG), daily disappearance of the supplement (DSD), penetration force of the supplement mass, faecal chemical composition and serum levels of Ca, P and Mg. In Exp. 1, no effects were observed on ADG and faecal mineral concentrations, however, changes in mineral concentrations and a 40% reduction in Na concentration in the supplement were observed, compared to the initial concentration. AGLun had a lower penetration force. In Exp. 2, there were no effects on DSD and faecal mineral concentrations. POWun showed a smaller reduction in Na content compared to AGLun, and AGLun showed lower penetration force. In Exp. 3, the treatments did not affect ADG, but there was a trend towards higher DSD and serum phosphorus (P) concentration for AGLun (p = 0.08). Higher faecal Na concentration was observed for AGLun and higher Na concentration occurred in non-consumed mixture of POWshe. Mineral supplements offered in uncovered troughs showed altered chemical and physical characteristics, with possible effects on supplement intake. However, the general changes are unlikely to alter animal performance.
ISSN:1745-039X
1477-2817
DOI:10.1080/1745039X.2023.2281809