Lithium salts as a marker of intake of supplements by cattle

Dixon, R. M.; Smith, Douglas R.; Reid, Angela M.

doi:10.1071/ea01155

Cited by 9 publications

(8 citation statements)

References 27 publications

(36 reference statements)

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“…The high variation in the distribution among heifers of intakes of LMM supplements, and the substantial proportion of non-consumers of the LMM supplement on the day on which the lithium-labelled supplements were fed, observed in the present study are in agreement with previous reports of large variation among individuals and high proportions of nonconsumers in groups of cattle fed LMM (Dixon et al 2000(Dixon et al , 2001 or feed block supplements (Murray et al 1978;Eggington et al 1990;Dixon et al 2003b). The procedure using lithiumlabelled supplements to estimate the distribution in supplement intake among animals in herds has been validated, including for circumstances similar to the present study where animals were blood sampled~24 h after ingestion of lithium-labelled supplements (Dixon et al 2003a); larger errors may occur if there is a shorter interval between ingestion of the lithiumlabelled supplement and blood sampling (McLennan 1999). In addition, as the paddock groups of heifers in the present study were observed to behave as a single group, ingestion of the lithium-labelled supplement would have been over an interval much shorter than the 6 h during which the labelled supplement was offered.…”

Section: Discussionsupporting

confidence: 91%

“…Following the procedures described by Suharyono (1992) and Dixon et al (2003a) lithium was used as a marker on two occasions to estimate the distribution of ingested supplement among individual heifers in each paddock group. Lithiumlabelled LMM supplements were prepared by mixing lithium sulfate monohydrate (6-12 g lithium/kg supplement) with the ingredients during preparation; the amount of lithium sulfate added was intended to provide~1.5 mg lithium/kg LW.…”

Section: Methodsmentioning

confidence: 99%

“…The net concentrations of lithium in plasma, the LW of the individual heifers, and the total intake of lithium-labelled supplement by each paddock group, were used to calculate the distribution of supplement intakes among the heifers in each paddock on the day on which the lithiumlabelled supplement was fed. Non-consumer animals were defined as those consuming less than 1 g of lithium-labelled supplement during the interval during which it was provided (Dixon et al 2003a).…”

Section: Methodsmentioning

confidence: 99%

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Inclusion of cottonseed meal into loose mineral mix supplements increases the voluntary intake of the supplement by grazing heifers

Dixon

Anderson²,

Petherick

2017

Anim. Prod. Sci.

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Loose mineral mix (LMM) supplements based on ingredients such as salt, urea and minerals offered ad libitum are widely used to provide additional nutrients to grazing cattle, but it is often difficult to achieve target intakes. An experiment with heifers grazing mature tropical pasture examined the effects of substituting 80, 160 or 320 g/kg of the salt in a LMM supplement with cottonseed meal on the voluntary intake of the LMM supplements by paddock groups of heifers over 10 weeks. Average voluntary intake of a LMM containing (g/kg) 640 salt, 300 urea and 60 ammonium sulfate (40.2 g DM and 6.14 g total nitrogen/day) was increased linearly (P < 0.001) to 50.8 g DM and 8.88 g total nitrogen/day when up to 320 g/kg cottonseed meal was substituted for salt in the LMM. This increase in intake of nitrogen in LMM was due to the increase in voluntary intake of the supplement rather than the increased nitrogen concentration of supplement. The distribution of daily intake of supplement within paddock groups of heifers was estimated during Weeks 5 and 10 using supplements labelled with lithium sulfate. Neither the coefficient of variation within paddock groups of heifers in supplement intake (mean 96%), nor the proportion of non-consumers of supplement (mean 17%), was changed (P > 0.05) by substitution of salt with cottonseed meal. In conclusion, the inclusion of a palatable protein meal into LMM increased the voluntary intake of this type of supplement.

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Section: Discussionsupporting

confidence: 91%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Inclusion of cottonseed meal into loose mineral mix supplements increases the voluntary intake of the supplement by grazing heifers

Dixon

Anderson²,

Petherick

2017

Anim. Prod. Sci.

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“…These recovery values are to be expected, as urinary Li concentration followed a curvilinear pattern in accordance with a marker approaching plateau concentration after long-term continuous infusion, and simply reflect the time of sampling in relation to marker kinetics of Li and its movement between pools such as the digestive tract and the plasma. Dixon et al (2003) found that the change in plasma lithium concentration over 96 h following intravenous injection was most adequately described by three exponential compartments. They hypothesised that the third compartment principally represented renal excretion, while the first and second compartments could have been associated with kinetic compartments in the extracellular fluid, rumen and post-ruminal digesta, and other body pools, or with mixing of lithium in these pools.…”

Section: Discussionmentioning

confidence: 99%

“…Chromium complexed with ethylenediamine tetra-acetic acid (CrEDTA; Downes and -Present address: Department of Primary Industries and Fisheries, PO Box 6014, CQMC, Rockhampton, QLD 4702, Australia. E-mail: maree.bowen@ dpi.qld.gov.au McDonald, 1964;Stacy and Thorburn, 1966) and lithium salts (Suharyono, 1992;Dixon et al, 2003) have been investigated for suitability as markers to examine such factors as the rate of flow and volume of rumen fluid, and the intake of supplements, by ruminants. The application of these substances as intravenously administered markers for estimating urine output in grazing ruminants requires knowledge of the recovery of the marker in the urine and of the diurnal variation in marker concentration, or the metabolite : marker ratio, in the urine.…”

Section: Introductionmentioning

confidence: 99%

Recovery of intravenously infused chromium EDTA and lithium sulphate in the urine of cattle and their use as markers to measure urine volume

Bowen

Poppi

McLennan³

2009

Animal

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A series of metabolism experiments investigated the recovery of continuous-, intravenously infused chromium complexed with ethylenediamine tetra-acetic acid (CrEDTA) and lithium sulphate in the urine of cattle with a view to using the markers to estimate urine and metabolite output in grazing cattle. The recovery of Cr in urine from these infusions was similar (90%) in metabolism trials when cattle consumed three very contrasting diets: high-grain formulated pellet, lucerne hay (Medicago sativa) or low-quality native grass hay (predominantly Heteropogon contortus). By contrast, Li recovery in urine averaged 46.3 6 0.40% and 72.6 6 0.43% for native pasture and lucerne hays, respectively, but was not constant across days. There was negligible transfer of Cr from CrEDTA in blood serum to the rumen or faeces, whereas appreciable quantities of infused Li were found in both. The ratio of urine volume estimated by spot samples and marker dilution of Cr, to urine volume measured gravimetrically, was 1.05. In grazing studies using rumen-fistulated (RF) steers grazing seven different tropical and temperate grass and legume pastures, the ratio of concentrations of purine derivatives (PD) to Cr in spot samples of urine was shown to vary diurnally in the range of 49% to 157% of the average 24 h value. This finding indicated the need for regular sampling of urine to achieve an accurate average value for the PD : Cr ratio in urine for use in estimating urinary PD excretion and hence microbial protein production in the rumen. It was concluded that continuous, intravenous infusion of CrEDTA resulted in a constant recovery of Cr in the urine of cattle across diets and, provided an intensive sampling regime was followed to account for diurnal variation, it would be suitable as a marker to estimate urine volume and urinary output of PD in grazing cattle.

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