Publications
Found 10 results
Filters: Author is Zened, A. [Clear All Filters]
Enzymatic Study of Linoleic and Alpha-Linolenic Acids Biohydrogenation by Chloramphenicol-Treated Mixed Rumen Bacterial Species. Frontiers in Microbiology. 2018;9:Non paginé.
. Rumen microbiota and dietary fat : a mutual shaping. Journal of Applied Microbiology. 2017;123(4):782-797.
. Microbial ecology of the rumen evaluated by 454 GS FLX pyrosequencing is affected by starch and oil supplementation of diets. FEMS Microbiology Ecology. 2013;83:504–514. doi:10.1111/1574-6941.12011.
Starch plus sunflower oil addition to the diet of dry dairy cows results in a trans-11 to trans-10 shift of biohydrogenation. Journal of Dairy Science. 2013;96:451–459. doi:10.3168/jds.2012-5690.
. Analyse comparée des écosystèmes digestifs du rumen de la vache et du caecum du lapin. INRA - Productions Animales. 2012;25:395–406. Available at: http://www6.inra.fr/productions-animales.
Analyse comparée des écosystèmmes digestifs du rumen de la vache et du caecum du lapin. INRA - Productions Animales. 2012;25:395–406. Available at: http://www6.inra.fr/productions-animales.
Effects of oil and natural or synthetic vitamin E on ruminal and milk fatty acid profiles in cows receiving a high starch diet. Journal of Dairy Science. 2012;95:5916–5926. doi:10.3168/jds.2012-5326.
. In vitro study of dietary factors affecting the biohydrogenation shift from trans-11 to trans-10 fatty acids in the rumen of dairy cows. Animal. 2012;6:459–467. doi:10.1017/s1751731111001777.
. Starch and oil in the donor cow diet and starch in substrate differently affect the in vitro ruminal biohydrogenation of linoleic and linolenic acids. Journal of Dairy Science. 2011;94:5634–5645. doi:10.3168/jds.2011-4491.
Spatial and temporal variations of the bacterial community in the bovine digestive tract. Journal of Applied Microbiology. 2009:1642–1650.