ADVERSE EFFECT OF WIDE CALCIUM PHOSPHORUS RATIOS ON SUPPLEMENTAL PHYTASE EFFICACY FOR WEANLING PIGS FED 2 DIETARY PHOSPHORUS LEVELS/

Ninety-six weanling pigs (initial BW = 9.3 kg, initial age = 37 d) wer e used in a 4-wk experiment to evaluate the response to three Ca: tota l (t) P ratios (1.2:1, 1.6:1, or 2.0:1) fed in combination with two P levels (.07 or .16% available that correspond to .36 or .45% tP) and t wo phytase levels (PY; 700 or 1,050 units/kg of diet). A 3 x 2 x 2 fac torial arrangement of treatments was employed using a corn-soybean mea l diet. Performance, serum mineral concentrations and alkaline phospha tase (ALP) activity, Ca and P digestibility and excretion, and bone me chanical measurements were examined. Average daily gain (P < .001), av erage daily feed intake (P < .01), and gain:feed (P < .05) were decrea sed linearly as the Ca:tP ratio became wider. The digestibility of P a nd Ca were decreased (P < .001) linearly as the Ca:tP ratio became wid er. The digestibility of P (P < .001) and fecal P excretion (P < .01) were increased at the higher level of P. Increasing PY from 700 to 1,0 50 units (U)/kg of diet increased (P < .05) P digestibility and decrea sed (P < .01) P excretion but did not improve bone measurements. Shear force, stress and energy, and percentage of ash of both metacarpal an d 10th rib linearly decreased (P < .001 to .05) as the Ca:tP ratio bec ame wider, and bone measurements were generally greater for pigs fed t he higher P level. Serum Ca concentration increased (P < .01) and the P concentration decreased (P < .001) as the Ca:tP ratio increased, but Mg, Zn, and ALP activity were not influenced by the Ca:tP ratio. Seru m Ca and P concentrations were affected by PY supplementation over the 4-wk trial, but serum Mg and Zn concentrations were not affected by d ietary treatments. Adverse effects of a wide Ca:tP ratio were greater at the low P diet for all responses. In addition, the activity of supp lemental PY in diets seemed to be decreased as the Ca:tP ratio became wider and this negative effect of Ca:tP ratio seemed greater at the lo w P level, and seemed to parallel the effects of Ca:tP ratio on perfor mance, P digestibility, bone, and serum measurements. Narrowing the di etary Ca:total P ratio from 2.0:1 to 1.2:1 led to an approximate 16% i ncrease in phytase efficacy for improving performance, digestibility, bone measurements, and serum Ca levels.