Manipulating the Dietary Cation-Anion Difference via Drenching to Early-Lactation Dairy Cows Grazing Pasture

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Manipulating the Dietary Cation-Anion Difference via Drenching to Early-Lactation Dairy Cows Grazing Pasture

J. R. Roche, S. Petch and J. K. Kay

Dexcel Ltd., Hamilton, New Zealand

Corresponding author: John Roche; e-mail: john.roche{at}dexcel.co.nz.

Diets offered to grazing dairy cows can vary considerably intheir dietary cation-anion difference (DCAD) and are often wellin excess of what has been considered optimal. The effects ofa range of DCAD on the health and production of pasture-baseddairy cows in early lactation was examined in a randomized blockdesign. Four groups of 8 cows were offered a generous allowanceof pasture (45 ± 6 kg/d of dry matter (DM) per cow) for35 d and achieved mean pasture intakes of approximately 17 kg/dof DM per cow. Cows were drenched twice daily with varying combinationsof mineral compounds to alter the DCAD. Dietary cation-aniondifference ranged from +23 to +88 mEq/100 g of DM. A linearincrease in blood pH and HCO₃^– concentration and bloodbase excess, and a curvilinear increase in the pH of urine withincreasing DCAD indicated a nonrespiratory effect of DCAD onmetabolic acid-base balance. Plasma concentrations of Mg, K,and Cl declined as DCAD increased, whereas Na concentrationincreased. Urinary excretion of Ca decreased linearly as DCADincreased, although the data suggest that the decline may becurvilinear. These results in conjunction with the increasedconcentrations of ionized Ca suggest that intestinal absorptionof Ca or bone resorption, or both, increased as DCAD declined.Dry matter intake, as measured using indigestible markers, wasnot significantly affected by DCAD. However, the linear increasein the yield of linolenic acid, vaccenic acid, and cis-9, trans-11conjugated linoleic acid in milk, as DCAD increased is consistentwith a positive effect of DCAD on DM intake. Increasing DCADdid not significantly affect milk yield or milk protein, butthe concentration and yield of milk fat linearly increased withincreasing DCAD. The increased milk fat yield was predominantlya result of increased de novo synthesis in the mammary epithelialcells, although an increase in the yield of preformed fattyacids also occurred. Milk production results suggest that DCADfor optimal production on pasture diets may be higher than the+20 mEq/100 g of DM previously identified for total mixed rations.

Key Words: lactating cow • dietary cation-anion difference • pasture • milk fatty acids

Abbreviation key: DCAD = dietary cation-anion difference, CLA = cis-9, trans-11 conjugated linoleic acid, Creat = creatinine, ICP-ES = inductively coupled plasma emission spectroscopy, SFC₁₀ = solid fat content at 10°C, [SID] = strong ion difference, [SID_B] = serum [SID], [SID_U] = urine [SID], VA = vaccenic acid

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