Impact of molybdenum on the copper status of red deer (Cervus elaphus)

Authors: Grace ND, Wilson PR, Quinn AK
Publication: New Zealand Veterinary Journal, Volume 53, Issue 2, pp 137-141, Apr 2005
Publisher: Taylor and Francis

Animal type: Deer, Livestock, Production animal, Ruminant
Subject Terms: Clinical pathology, Diagnostic procedures, Copper, Trace elements, Diet/rations/food, Nutrition/metabolism, Fertiliser, Liver/hepatic disease, Minerals/elememts, Pasture/crop, Poisoning - chemical
Article class: Scientific Article

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Abstract: AIM: To determine the effect of increasing molybdenum (Mo) intakes on serum and liver copper (Cu) concentrations and growth rates of grazing red deer (Cervus elaphus).
METHODS: Molybdenum- and Cu-amended fertilisers were applied to six 1.1-ha paddocks in a 3 x 2 design. Three levels of Mo were applied on two paddocks at each level in mid April (designated Day 1); levels were: none (control), 0.5 (medium) and 1.0 (high) kg Mo/ha as sodium molybdate. In late May (Day 39), two levels of Cu (none and 3.0 kg Cu/ha, as copper sulphate) were applied to each of the three levels of Mo-treated paddocks. Pasture Mo, Cu and sulphur (S) concentrations were measured at about fortnightly intervals. In late June (Day 74), ten 6-month-old red deer hinds were placed on the six experimental pastures, and serum and liver Cu concentrations were monitored at about monthly intervals for 102 days. The hinds were weighed on four occasions during the trial.
RESULTS: Mean pasture Mo concentrations on Day 56 were 2, 4.6 and 11.3 mg/kg dry matter (DM) for the untreated control, medium and high Mo-treated pastures, respectively. Pasture Cu concentration was 95 mg/kg DM on Day 59, 53 mg/kg DM on Day 90, and 9 mg/kg DM by Day 153. Mean S concentration in pasture was 3.3 (range 3.03–3.45) g/kg DM. Copper application to pasture had no significant effect on serum and liver Cu concentrations in deer so data were pooled within Mo treatment. Mean initial (Day 74) serum Cu concentration was 9.2 μmol/L. In the deer grazing the control Mo pasture, this increased to 10.3 μmol/L on Day 112, before decreasing to 6.4 μmol/L on Day 176. In deer grazing the medium and high Mo-treated pastures, mean serum Cu concentrations were 3.8 and 3.9 μmol/L, respectively, on Day 112, and 2.5 and 3.3 μmol/L, respectively, on Day 176. Mean initial (Day 74) liver Cu concentration was 131 μmol/kg fresh tissue. In the deer grazing the control Mo pasture, this declined to 120 and 52 μmol/kg on Days 112 and Day 176, respectively. In deer grazing the medium and high Mo-treated pastures, liver Cu concentrations decreased to 55 and 52 μmol/kg fresh tissue, respectively, on Day 112, and 21 and 20 μmol/kg fresh tissue, respectively, on Day 176. Mean serum and liver Cu concentrations were not significantly different between deer grazing the medium and high Mo-treated pastures, and were lower (serum p=0.003, liver p<0.001) in those groups than in deer grazing the untreated control pastures. No clinical signs of Cu deficiency associated with lameness were observed. Deer grazing pastures that had Mo concentrations >10 mg/kg DM had lower (p=0.002) growth rates (100 vs 130 g/day) than those on pastures containing <2.4 mg Mo/kg DM.
CONCLUSION: Increasing pasture Mo concentrations from 2 mg/kg DM to ≥4.6 mg/kg DM significantly reduced serum and liver Cu concentrations in grazing deer. Reduced growth rate was observed at pasture Mo concentrations >10 mg/kg DM.
KEY WORDS: Deer, copper, molybdenum, pasture, serum, liver

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