The effect of urea on the utilization of ground, pelleted roughage by penned sheep: III. Mineral supplements

Coombe, JB; Christian, K. R.; Holgate, M. D.

doi:10.1017/s0021859600023613

Cited by 10 publications

(2 citation statements)

References 65 publications

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“…Hemsley (1964) suggested that under some conditions the mineral component of molasses may contribute substantially to the molasses effect when urea and molasses is used. Coombe, Christian and Holgate (1971) supplemented sheep with urea and minerals, and obtained higher intakes of dry matter compared with sheep supplemented with urea alone. Further work showed sulphur to be the most important mineral.…”

Section: Digestibility Dmmentioning

confidence: 98%

Effect of supplements of molasses and urea on intake and digestibility of native pasture hay by steers

Ernst¹,

Limpus²,

O'Rourke³

1975

Aust. J. Exp. Agric.

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Ten steers (five Shorthorns and five Brahman crossbreds) were individually housed in digestibility crates and fed low quality native pasture hay (0.47 per cent N) with the following supplements-1 . nil ; 2. molasses ; 3. urea ; 4. urea-molasses ; 5. urea-molasses. The hay was fed ad libitum except in treatment 5 where it was fed at the same level of roughage intake as in treatment 2. Intake and digestibility were recorded.Treatments 2, 3 and 4 had roughage dry matter intakes 27.8 per cent, 14.6 per cent and 65.4 per cent respectively greater than the hay alone group. There was no significant effect of treatment compared with the control group on the apparent digestibility of dry matter or organic matter, but the apparent digestibility of crude protein was significantly improved by a supplement containing urea. There was no effect of breed on apparent digestibility of dry matter, organic matter or crude protein but Brahman crossbreds consumed 20.0 per cent more dry matter than Shorthorns after intakes had been corrected for metabolic size.T h e practice of using urea as a nitrogen supplement fed through roller drum lickers (Mutch 1966) with water and molasses as carriers is now generally accepted in north Queensland (Condon, Smith and Winks 1970). Despite this, there is little information from controlled experiments on the effect of ureamolasses supplements on the utilization of low quality roughage diets by cattle. Experiments by Winks, Alexander and Lynch (1970) with grazing weaner cattle during the dry season have shown a significant improvement in liveweight performance. Based on measurements offaecal output these authors concluded that there was a greater intake of dry matter by cattle supplemented with urea-molasses than by unsupplemented cattle. I n the work described in this paper the two predominant breeds of cattle (Shorthorns and Brahman crossbreds) in north Queensland were fed a diet of native pasture hay plus a supplement. The hay was typical of the forage available in the spear grass region of north Queensland during the dry season.The aims were to determine the intake of D.M. and the digestibility ofthe D.M., O.M., C.P. of the hay and the effect on these factors of supplements of urea and molasses. This information would help to explain the deductions by Winks, Alexander and Lynch (1970) concerning intake based on fae.ca1 outputs lacking in field experiments but which can be provided by this experimental approach. Further, some clarification of the effects of urea-molasses on digestibility of low quality diets within a tropical environment and with tropical breeds of cattle is warranted. Materials and methods HayThe hay used was cut from a selected area of native pasture at Millaroo, 760 km south of Townsville. The pasture was growing on an Oakey soil (Christian et al. 1953), and was harvested after maturity in April 1970.The Authors-Mr. A. J. Ernst, Department of Primav Industries

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Section: Digestibility Dmmentioning

confidence: 98%

Effect of supplements of molasses and urea on intake and digestibility of native pasture hay by steers

Ernst¹,

Limpus²,

O'Rourke³

1975

Aust. J. Exp. Agric.

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“…Furthermore, increasing use of poor-quality roughages and by-products such as sugar-beet pulp, generally deficient in P, tends to exacerbate the problem. It has frequently been shown that feeding P-deficient diets could lead to decreased voluntary feed intake (Preston & Pfander, 1964;Coombe et al 1971 ;Smith, 1984) with consequent effects on growth rate, milk production, etc. (Hemingway, 1967).…”

mentioning

confidence: 99%

Effect of different levels of phosphorus on rumen microbial fermentation and synthesis determined using a continuous culture technique

Komisarczuk¹,

Merry²,

McAllan³

1987

Br J Nutr

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I , A continuous culture technique was used to study the phosphorus requirements of rumen micro-organisms. Solutions of artificial saliva containing 120, 80, 40 and 0 mg inorganic phosphorus (PJ/I were infused into the reaction vessels previously inoculated with rumen contents, resulting in Pi concentrations in the vessel contents of 48, 28, 4 and < 1 mg/l respectively. Various fermentative and synthetic characteristics were examined.2. In the vessel contents, concentrations of protozoa (about 0.9 x 105/ml) were not significantly affected by pi concentration. Total volatile fatty acids (VFA) produced averaged about 6.83 mmol/h with Pi levels of 48 and 28 mg/l. Reduction in Pi concentrations to 4 and < 1 mg/l resulted in significant reductions in total VFA to approximately 6.25 and 3.75 mmol/h respectively, accompanied by a rise in pH from 6.5 to 7.3. Ammonia-nitrogen values, which averaged about 131 mg/l at the higher I: concentrations, also increased with the lowest level of P, 5.It was estimated that the minimum pi concentrations required in rumen fluid in vivo to maintain maximum degradative and synthetic microbial activities was in the range 75-100 mg/l and that the over-all P requirement of the microbes was of the order of 5.1 g/kg apparently digested organic matter intake. Phosphorus deficiency is a major problem in many areas of the world. Most of the normal forages consumed by ruminants are little more than adequate with respect to their P content. Furthermore, increasing use of poor-quality roughages and by-products such as sugar-beet pulp, generally deficient in P, tends to exacerbate the problem. It has frequently been shown that feeding P-deficient diets could lead to decreased voluntary feed intake (Preston & Pfander, 1964;Coombe et al. 1971 ;Smith, 1984) with consequent effects on growth rate, milk production, etc. (Hemingway, 1967). These effects may be at least in part a result of impaired rumen function (Fishwick et al. 1977, Bass et al. 198 1 ;Durand et al. 1982; Breves & Holler, 1983). In general, ruminant feeds sustain the symbiotic rumen micro-organisms and only indirectly the host animal (Hungate, 1966) and it has been suggested that the P requirements of these organisms may be greater than that of the host animal (Preston & Pfander, 1964). There is, however, a strong interaction between the host animal and the rumen micro-organisms with respect to P supply and utilization, and in order to ascertain precise requirements of the micro-organisms, studies need to be carried out in situations which are not influenced by the host animal.In vitro work with pure cultures of rumen bacteria have shown the essentiality of P for growth (Bryant et al. 1959) and its effects on growth rates and yields (Caldwell et al. 1973;

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Urea supplementation compared with pretreatment. 1. Effects on intake, digestion and live-weight change by sheep fed a rice straw

Djajanegara

Doyle

1989

Animal Feed Science and Technology

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The effect of urea on the utilization of ground, pelleted roughage by penned sheep: III. Mineral supplements

Cited by 10 publications

References 65 publications

Effect of supplements of molasses and urea on intake and digestibility of native pasture hay by steers

Effect of supplements of molasses and urea on intake and digestibility of native pasture hay by steers

Effect of different levels of phosphorus on rumen microbial fermentation and synthesis determined using a continuous culture technique

Urea supplementation compared with pretreatment. 1. Effects on intake, digestion and live-weight change by sheep fed a rice straw

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