Processamento de milho (floculado vs. laminado a vapor) e adição de monensina para bezerras leiteiras, pré e pós-desmama precoce

Bittar, Carla Maris Machado; Santos, Flávio Augusto Portela; Zopollatto, Maity; Pires, Alexandre Vaz; Morais, Janice Barreto de

doi:10.1590/s1516-35982003000100029

Cited by 19 publications

(35 citation statements)

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“…There were no significant treatment effects for plasma glucose concentration in any of the evaluated periods. Observed values are in agreement with those found in the literature for calves of similar age (Quigley and Bernard, 1992;Nussio et al, 2003a).Owing to the ruminal fermentation pattern modification, as a result of monensin supplementation, with higher propionate concentrations (McGuffey et al, 2001), a higher plasma glucose concentration was expected for calves fed starter containing the ionophore. Similarly, the direct supplementation of propionate via calcium propionate should have resulted in the same response, since propionate is the main glucose precursor in the liver (Bergman, 1990).…”

supporting

confidence: 89%

Section: Resultsmentioning

confidence: 64%

“…Martin et al (1959) replaced calves' diets with organic acid salts infused directly into the rumen and observed a reduction in plasma glucose concentration with progressing age. Other authors have also found a similar pattern for glucose plasma concentrations according to animal age (Quigley et al, 1991a;Nussio et al, 2003a). However, Quigley and Bernard (1992) have not seen reductions in glucose levels according to week of age during the milk-feeding phase, probably because of the low DM intake observed and consequent delayed rumen development.…”

Section: Resultsmentioning

confidence: 65%

“…However, Nussio et al (2003a) observed low intake by calves receiving starter with or without monensin inclusion during the milk feeding period, which may have decreased animal performance during the subsequent period.…”

Section: Resultsmentioning

confidence: 87%

“…However, these effects would be seen only in animals with the rumen already developed. Nussio et al (2003a) also have not observed differences in plasma glucose concentration in calves fed starter with or without monensin.Even though there were no differences among treatments, a significant age effect was observed on plasma glucose concentration. A reduction of the glucose concentration as animals aged, response correlated to the rumen development and the transition of calves from pre-ruminant to functional ruminant, was observed.…”

mentioning

confidence: 64%

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Performance and plasma metabolites of dairy calves fed starter containing sodium butyrate, calcium propionate or sodium monensin

Ferreira

Bittar

2011

Animal

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This study was conducted to examine the influence of supplementation of sodium butyrate, sodium monensin or calcium propionate in a starter diet on the performance and selected plasma metabolites (plasma glucose, non-esterified fatty acids and b-hydroxybutyrate) of Holstein calves during pre-and post-weaning periods. Twenty-four newborn Holstein calves were housed in individual hutches until 10 weeks of life, receiving water free choice, and fed four liters of milk daily. Calves were blocked according to weight and date of birth, and allocated to one of the following treatments, according to the additive in the starter: (i) sodium butyrate (150 g/kg); (ii) sodium monensin (30 mg/kg); and (iii) calcium propionate (150 g/kg). During 10 weeks, calves received starter ad libitum, while coast cross hay (Cynodon dactylon (L.) pers.) was offered after weaning, which occurred at the 8th week of age. Weekly, calves were weighted and evaluated for body measurements. Blood samples were taken weekly after the fourth week of age, 2 hours after the morning feeding, for determination of plasma metabolites. No differences were observed among treatments for starter or hay intake, BW and daily gain of the animals. Mean concentrations of selected plasma metabolites were similar in calves fed a starter supplemented with sodium butyrate, sodium monensin and calcium propionate. There was significant reduction in the concentrations of plasma glucose as calves aged. The inclusion of sodium butyrate, calcium propionate or sodium monensin as additives in starter feeds resulted in equal animal performance, before and after weaning, suggesting that sodium monensin may be replaced by organic acid salts. Keywords: additives, early weaning, ionophores, ruminal development ImplicationsThis study was conducted to evaluate organic acid salts inclusion in calf starters as a replacement to the traditional use of ionophore, since these antibiotics were banned as growth promoters in the European Union. Since all commercial starters include ionophores, an alternative additive that could result in the same pattern of animal performance should be studied. The organic acid salts were chosen because they lack the antibiotic effect but could have beneficial effects on the rumen development processes. In addition, as seen in the non-ruminant industry, acidified feeds may have a beneficial effect on the health of the lower gastrointestinal tract. IntroductionCalf rumen development, crucial for the early weaning program, is strongly related to the intake of fermentable organic matter and the resulting short-chain fatty acids (SCFA; Greenwood et al., 1997). Ruminal metabolism studies have pointed out butyric and propionic acids as the main stimuli for rumen development and the maturation process , which suggests that additives that furnish higher SCFA concentrations or alter the rumen fermentation pattern may be used as a tool for reducing the milk feeding period.The inclusion of ionophores in ruminant diets has shown changes in the SCFA concentrations, mainl...

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supporting

confidence: 89%

Section: Resultsmentioning

confidence: 64%