Three experiments were conducted to study the effects of dietary potassium intake on magnesium metabolism.

In experiment 1, 24 wether lambs were used in two metabolism trials to determine the minimum level of potassium that depresses magnesium absorption. Two magnesium levels (.1 and .2%) were fed with four levels of potassium (.6, 1.2, 2.4 and 4.8%) in a 2 x 4 factorial arrangement of treatments. Each trial consisted of a 10-day preliminary period followed by a 10-day collection period. Greater amounts (P<.05) of magnesium were absorbed and retained when animals were fed the high level of magnesium (.2%). Increasing the level of potassium in the diet increased (P<.05) fecal magnesium excretion. Magnesium absorption decreased linearly with increasing levels of potassium. The greatest depression in magnesium absorption occurred when the potassium level was increased from 1.2 to 2.4%. A further large decrease in absorption occurred when the potassium level was increased from 2.4 to 4.8%. Serum magnesium was depressed when higher levels of potassium were fed. Potassium absorption was not affected by level of dietary magnesium, but increased (P<.05) with increasing levels of dietary potassium.

In experiment 2, two metabolism trials were conducted with 18 wether lambs, equipped with abomasal and ileal cannulae, in a 2 x 3 factorial arrangement. Two levels of magnesium (.1 and .2%) and three levels of potassium (.6, 2.4, and 4.8%) were used. Chromic oxide was used as an indicator to determine digesta flow. Each trial consisted of a 10-day preliminary period, a 7-day collection of feed, feces and urine, and a 6-day sampling of feed, abomasal and ileal fluid and feces. Magnesium was absorbed mainly prior to reaching the small intestine, followed by a low net absorption in the large intestine. Increasinq potassium level resulted in a linear decrease in magnesium absorption. Preintestinal magnesium absorption decreased (P<.05) with each increase in dietary potassium. Large amounts of magnesium flowed into the small and large intestines and was excreted in the feces when higher levels of potassium were fed. Lambs fed the high level of magnesium (.2%) absorbed larger amounts of magnesium from the stomach. Magnesium absorbed, expressed as a percent of intake, was not affected by level of magnesium.

Experiment 3 consisted of three metabolism trials with six Angus x Simmental steer calves, per trial, equipped with abomasal and ileal cannulae. Steers were fed .1% magnesium and three levels of potassium, .6, 2.4 and 4.8%. Procedures were similar to those used in Experiment 2. Magnesium absorption decreased linearly (P<.05) when high levels of potassium were fed. The primary site of magnesium absorption was the preintestinal region, followed by a net secretion into the small and large intestines. Preintestinal magnesium absorption was decreased approximately 50% when steers were fed 4.8% potassium. Small amounts of magnesium tended to be secreted into the small intestine when the high level of potassium was fed. As observed in experiment 1, serum magnesium levels were depressed when increasing amounts of potassium were fed. Potassium absorption increased with increasing levels of dietary potassium. The effect of high dietary potassium on magnesium absorption was similar to those reported in experiments 1 and 2 with sheep.