Effects of dietary cadmium chloride throughout gestation on blood and tissue metabolites of primigravid and neonatal dairy cattle.

Thirty-six postpubertal Holstein heifers were allocated to three groups and fed the same diet, which differed only in the concentration of Cd: control group (.25 ppm of Cd), low-Cd group (1 ppm of Cd), and high-Cd group (5 ppm of Cd). Cadmium was supplemented to the low-Cd and high-Cd groups using CdCl2. Liver, kidney cortex, and abdominal muscle were biopsied for mineral analysis from one-half of the heifers of each group before Cd supplementation and again from the same animals within 5 d after parturition, 394 d later. Blood, liver, and muscle were collected from each calf within 5 h after birth. In the dam, 5 ppm of dietary Cd caused a 62-, 27-, and 4-fold increase in Cd of the kidney, liver, and muscle, respectively; kidney Zn and Fe increased (76%) and decreased (33%), respectively, whereas the serum Cu was reduced (31%). Liver Cu was reduced to 40 and 17% by dietary Cd of 1 and 5 ppm, respectively, in the dams. Calves from dams consuming 5 ppm of Cd had a 29 and 43% reduction in liver Cu and Zn, respectively. In these same calves, packed cell volume, hemoglobin concentration, and serum Cu were decreased by 17, 18, and 25%, respectively, whereas serum Zn was increased (55%). Serum sodium and potassium were reduced by 4 and 13%, respectively, and blood urea nitrogen was increased by 63% in calves from dams consuming 5 ppm of Cd. Feeding primigravid dairy cattle up to 5 ppm of Cd as CdCl2 throughout gestation did not influence the concentration of Cd in the neonate but caused reductions in liver Cu and Zn; teratogenesis was not apparent.