VetSRev
Database of veterinary systematic reviews
Database of veterinary systematic reviews
Animal Feed Science and Technology (2012) 176: 61–69
DOI: 10.1016/j.anifeedsci.2012.07.008
This study examined the role of supplementation of several bioactive compounds (BC) and the chemical composition of the diet used as substrate for in vitro incubations, on in vitro ruminal fermentation profile and nutrient degradation. A meta-analytical approach was used to weigh the sample size used in each experiment, and account for the random effect of each as well as unequal variance among studies. A total of 20 recently conducted experiments with 354 treatments, each including one control (i.e., no BC supplementation), fulfilled the criteria for inclusion. Doses of BC supplementation varied from 0.03 to 500 mg/g dry matter (DM) of incubated diet. Contents of crude protein (CP) and neutral detergent fibre (NDF) of the incubated diets (DM basis) ranged from 139 to 189 g/kg and 160 to 420 g/kg, respectively. Results indicate that supplementation of BC linearly decreased (137.4 versus 116.5 mmol/L; P\textless0.05) concentration of total volatile fatty acids (VFA) and proportion of acetate (P\textless0.05). Also, the concentration of ammonia in the in vitro rumen fluid was lower with BC supplementation (22.9 versus 15.6 mg/dL; P\textless0.05). Analysis by backward elimination correlation analysis revealed that inclusion of the chemical composition of the incubated diet into the model with BC supplementation improved the accuracy of estimation of responses of fermentation variables. Thus, higher NDF and CP contents of the substrate and higher BC dosage were associated with lower concentrations of total VFA (r²=0.54), whereas both lower CP contents of the substrate and BC supplementation lowered the concentration of ammonia (r²=0.32). This analysis showed negative associations between BC supplementation and in vitro disappearance of DM and NDF, and positive correlations with dietary NDF content. In contrast, higher BC inclusion and lowering NDF content in the diet was accompanied with decreased in vitro CH₄ formation (r²=0.21). Results indicate that BC supplementation and chemical composition of the incubated diet are determining factors which impact responses of in vitro ruminal fermentation and degradation.
Klevenhusen, F., Muro-Reyes, A., Khiaosa-Ard, R., Metzler-Zebeli, B. U., & Zebeli, Q. (2012). A meta-analysis of effects of chemical composition of incubated diet and bioactive compounds on in vitro ruminal fermentation. Animal Feed Science and Technology, 176(1), 61–69. https://doi.org/10.1016/j.anifeedsci.2012.07.008 [Indexed using CAB Thesaurus terms], cattle, meta-analysis, ruminants, techniques, Techniques and Methodology [ZZ900], Animal Nutrition (General) [LL500], Animal Nutrition (Physiology) [LL510], diets, rumen, data analysis, research, studies, diet, fiber, fibre, animal nutrition, composition, crude protein, feeding stuffs, feeds, Forage and Feed Products (Non-human) [RR000], ammonia, chemical composition, correlation analysis, dry matter, essential oils, estimation, fatty acids, fermentation, in vitro, oils, rumen fermentation, rumen fluid, volatile fatty acids