The bioavailability of zinc-methio-nine (ZnMET) was compared to that of feed-grade ZnSO4 • H2O using three different diets: purified (crystalline amino acid [AA]), semipurified (soy isolate), and complex (corn-soybean [C-SBM]) diet. With the Zn-deficient purified or semipurified diet, weight gain and tibia Zn responded linearly to both ZnSO4· H2O and ZnMET supplementation. Common-intercept, multiple linear regression indicated differences in Zn bioavailability between ZnMET and ZnSO4· H2O for both diets as indicated by bone Zn. With the ZnSO4 · H2O standard set at 100%, bioavailability of Zn from ZnMET was 117% (P < .05) in the AA diet and 177% (P < .01) in the soy isolate diet. The ZnMET was also compared to ZnSO4· H2O in a C-SBM diet containing 117 mg of Zn/kg. When high levels of Zn were added to this diet (0, 250, 500, and 750 mg/kg of supplemental Zn), consistent tissue Zn responses did not occur beyond the first increment. Addition of lower levels of supplemental Zn (0, 5, 10, 20, 30, 40 and 50 mg/kg) to a Zn-unsupplemented C-SBM basal diet (45 mg/kg of Zn), however, resulted in a broken-line, two-slope response in tibia Zn for both ZnMET and ZnSO4 · H2O. Inflection points occurred at 60 and 54 mg of Zn/kg of diet for ZnSO4 · H2O and ZnMET, respectively. The ratio of slopes (ZnMET:ZnSO4· H2O) below the inflection points was 206% (P < .01), indicating that Zn was considerably more bioavailable in ZnMET than in ZnSO4 · H2O for chicks consuming C-SBM diets. When feed-grade ZnO was compared to feed-grade ZnSO4· H2O in chicks consuming C-SBM diets, bone Zn slopes below the respective inflection points indicated that Zn was 61% bioavailable in ZnO relative to ZnSO4· H2O.