Chemical and ruminal in vitro evaluation of Canadian canola meals produced over 4 years
Künye
Broderick, G. A., Colombini, S., Costa, S., Karsli, M. A., & Faciola, A. P. (2016). Chemical and ruminal in vitro evaluation of Canadian canola meals produced over 4 years. Journal of dairy science, 99(10), 7956–7970.Özet
To test the effects of year and processing plant on the nutritional value of canola meal (CM), 3 CM samples/yr were collected from each of 12 Canadian production plants over 4 yr (total = 144). Samples of CM were analyzed for differences in chemical composition and for in vitro ruminal protein degradability using the Michaelis-Menten inhibitor in vitro (MMIIV) method. In the MMIIV method, protein degradation rate (k(d)) was estimated by 2 methods: from net release (i.e., blank corrected) of (1) ammonia plus AA determined by o-phthaldialdehyde fluorescence (OPA(F)) assay or (2) ammonia, AA, plus oligopeptides determined by o-phthaldialdehyde absorbance (OPA(A)) assay; rumen-undegradable protein (RUP) was computed assuming passage rates of 0.16 and 0.06/h for, respectively, soluble and insoluble protein. Casein, solvent soybean meal (SSBM), and expeller soybean meal (ESBM) were included in all incubations as standard proteins. Differences among years and plants were assessed using the mixed procedures of SAS. Small but significant differences were found in CM among years for chemical composition, including N solubility; some of these differences may have been related to changes in our analytical methods over time. However, adjustment of degradation activity of individual in vitro incubations based on the mean degradation activity over all incubations yielded k(d) and RUP that did not differ by year using either assay. Simultaneously incubating CM samples from 2 yr in the same in vitro runs confirmed that no year effects existed for k(d) or RUP. Differences existed in chemical composition of CM among the 12 processing plants over the 4 yr of sample collection. Moreover, consistent differences in k(d) and RUP were observed among plants: k(d) ranged from 0.069 to 0.113/h (OPA(A) assay) and 0.075 to 0.120/h (OPA(F) assay), and RUP estimates ranged from 51 to 43% (OPA(A) assay) and 49 to 41% (OPA(F) assay). Regression of k(d) on insoluble N content of CM yielded correlation coefficients (R-2) = 0.40 (OPA(A) assay) and 0.42 (OPA(F) assay), and regressions of k(d) on NDIN and N-fraction B-3 yielded R-2 < 0.02. Mean estimates from both OPAA and OPAF assays for casein, SSBM, ESBM, and CM were, respectively, k(d) = 0.764, 0.161, 0.050, and 0.093/h and RUP = 18, 33, 56, and 45%. A range of 8 percentage units from lowest to highest RUP suggests that substantial differences exist in metabolizable protein content of CM produced by different processing plants.