The effects of levamisole treatments and cobalt bullet therapy on the performance of yearling beef cattle in south-east Queensland

Nicol, DC; Smith, L. J.; Ck, Dimmock; Green, PE; Murphy, GM; Barry, G

doi:10.1071/ea9830116

Cited by 4 publications

(2 citation statements)

References 5 publications

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“…Trace element deficiencies found or suspected of limiting livestock productivity in northern Australia include Cu deficiency over extensive areas of Queensland and the Northern Territory (Gartner et al 1980;Murphy et al 1981;Wesley-Smith and Schlink 1990), Co deficiency along the coastal areas of Queensland (Nicol et al 1983;Rosbrook et al 1992) and in restricted areas of the Northern Tablelands of New South Wales (Duncan et al 1986), Se deficiency in the central and coastal areas of Queensland (K. McGuigan pers. comm.)…”

Section: Trace Elementsmentioning

confidence: 99%

Mineral disorders in grazing livestock and the usefulness of soil and plant analysis in the assessment of these disorders

Judson¹,

McFarlane²

1998

Aust. J. Exp. Agric.

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Summary. This paper briefly describes common mineral disorders affecting livestock at pasture in Australia, their mineral requirements, factors affecting these requirements and laboratory methods of assessing the mineral status of the animal. The benefits and limitations of mineral analyses of soil and pasture samples for the purposes of identifying and preventing mineral disorders of the grazing animal are discussed. Mineral analyses of pasture are of particular value in the identification of the causes of copper and magnesium deficiency and of acute calcium deficiency in livestock. Selective grazing, adventitious ingestion of soil and variability in the mineral reserves of the animal, however, limit the usefulness of pasture analyses to identify a mineral disorder in the grazing animal.

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Section: Trace Elementsmentioning

confidence: 99%

Mineral disorders in grazing livestock and the usefulness of soil and plant analysis in the assessment of these disorders

Judson¹,

McFarlane²

1998

Aust. J. Exp. Agric.

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“…In a review, Gardiner (1977) stated that "although not yet clear cut, a plasma level of B12 of about 150 pg/ml (110 pmolilitre) may be expected to be associated with noticeable deficiency signs in cattle, and around 100 pg/ml (74 pmolilitre) with frank deficiency". Nicol et al (1983) reported mean serum vitamin B 12 levels of 10 and 19 pmolilitre in untreated cattle during a period of growth response to cobalt supplementation. However, Reid & McQueen (1985) reported no responses at serum concentrations of 61-70 pmolilitre, whereas McPherson (1981) noted serum vitamin B12 concentrations as low as 37 pmolilitre without evidence of a growth response to supplementation.…”

Section: Introductionmentioning

confidence: 99%

Absence of a weight gain response to vitamin B₁₂supplementation in weaned beef cattle grazing pastures of marginal cobalt content

Clark

Ellison

Kirk

et al. 1986

New Zealand Journal of Agricultural Research

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Forty female Angus crossbred calves aged 8 months were allocated to 2 groups based on liver vitamin BIZ levels and bodyweight. The treatment group was given monthly subcutaneous injections of 2000 J-tg hydroxycobalamin. From each group, . 5 animals were liver biopsied and 10 animals: serum and urine sampled at monthly intervals for 10 months. Pasture cobalt content in washed and unwashed samples averaged 0.051 mg/kg (0.866 J-tmollkg) and 0.061 mg/kg (1.04 J-tmollkg) DM respectively over the trial period. Mean liver vitamin B12 levels of the untreated group dropped during the spring and summer to 400 nmollkg, while the treated group remained above 640 nmollkg. Serum vitamin BIZ levels of the untreated group during the spring and summer averaged 87 pmolilitre, with the lowest mean monthly level of 73 pmolilitre occurring in November. Mean urinary methyl malonic acid remained low (less than 36 J-tmolilitre) in both groups. There was no weight gain response to vitamin BIZ treatment.

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Current issues in trace element nutrition of grazing livestock in Australia and New Zealand

Masters¹,

Judson²,

White³

et al. 1999

Aust. J. Agric. Res.

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Improving trace element nutrition of grazing animals, in a way that is cost effective and that meets consumer perceptions and preferences, is a continuing challenge. This review focuses on research over the past 10 years, addressing issues and perspectives on the roles, risks of inadequacy, and supplementary remedies of key trace elements, both essential and deleterious, which have an impact on the productivity and product quality of grazing livestock throughout Australia and New Zealand. The emphasis is on copper (Cu), cobalt (Co), iodine (I), selenium (Se), and, to a lesser extent, zinc (Zn) — the trace elements most frequently found to be deficient in parts of Australia and New Zealand. Research continues to elucidate new roles for trace elements in the animal, and as this leads to a better understanding of requirements, diagnostic criteria and supplementation strategies need re-evaluation. Newer perspectives on marginal deficiency for Cu, I, Se, and Zn are given and issues for risk management discussed. Advances in sustained delivery of trace elements such as Co (as vitamin B12), I, and Se are reported. The diagnosis and management of marginal Cu deficiency continue to be difficult, especially in New Zealand where recent work has shown that dietary antagonists [iron (Fe), molybdenum (Mo), and sulfur (S)] may impair Cu absorption at lower intakes than previously thought. There is still a dearth of scientific data on the advantages of using so-called organic trace element supplements (metals complexed or chelated with amino acids or peptides). Nevertheless their usage continues to increase. There is increasing evidence that trace elements influence the pathophysiology arising from the ingestion of toxins. This review summarises recent work on the role of Co in annual ryegrass toxicity; Cu, Se, and Zn in lupinosis; Cu and alkaloid toxicity; Zn and facial eczema; and Co and white liver disease. Trace elements are required to support immune function (e.g. as imposed parasite infection) and marginal deficiencies may be exacerbated by an immunological challenge. The roles of Cu, Co, Mo, Se, and, to a lesser extent, chromium and Zn have attracted attention and under conditions of stress there may be an additional need for these elements. Diversification in farming has led to the introduction of species such as deer (Cervus), alpacas (Camilids), emus, and ostriches (Ratites) and the paucity of information on trace element requirements for these species, and also for horses, indicates the need for further work. The effect of supplementation on trace element composition of meat, milk, and wool is also reviewed, both in terms of product characteristics and human health. Of the deleterious elements, cadmium has attracted the most interest and concern because of its introduction into the pastoral system from phosphate-based fertilisers.

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The effects of levamisole treatments and cobalt bullet therapy on the performance of yearling beef cattle in south-east Queensland

Cited by 4 publications

References 5 publications

Mineral disorders in grazing livestock and the usefulness of soil and plant analysis in the assessment of these disorders

Mineral disorders in grazing livestock and the usefulness of soil and plant analysis in the assessment of these disorders

Absence of a weight gain response to vitamin B₁₂supplementation in weaned beef cattle grazing pastures of marginal cobalt content

Current issues in trace element nutrition of grazing livestock in Australia and New Zealand

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The effects of levamisole treatments and cobalt bullet therapy on the performance of yearling beef cattle in south-east Queensland

Cited by 4 publications

References 5 publications

Mineral disorders in grazing livestock and the usefulness of soil and plant analysis in the assessment of these disorders

Mineral disorders in grazing livestock and the usefulness of soil and plant analysis in the assessment of these disorders

Absence of a weight gain response to vitamin B12supplementation in weaned beef cattle grazing pastures of marginal cobalt content

Current issues in trace element nutrition of grazing livestock in Australia and New Zealand

Contact Info

Product

Resources

About

Absence of a weight gain response to vitamin B₁₂supplementation in weaned beef cattle grazing pastures of marginal cobalt content