Title: Effect of supplementing orchardgrass herbage with a total mixed ration or flaxseed fermentation profile and bacterial protein synthesis in continuous culture Authors
Submitted to: Journal of Dairy Science
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: February 10, 2013
Publication Date: May 1, 2013
Citation: Soder, K.J., Brito, A., Rubano, M.D. 2013. Effect of supplementing orchardgrass herbage with a total mixed ration or flaxseed fermentation profile and bacterial protein synthesis in continuous culture. Journal of Dairy Science. 96:3228-3237. Interpretive Summary: Grazing dairy farmers often supplement pasture with a total mixed ration to increase energy and fiber intake and provide a more stable ruminal environment. More recently, interest has increased in supplementing pasture-based diets with a single energy source such as flaxseed. We compared ruminal fermentation across three diets: all pasture vs. pasture-based supplemented with a total mixed ration vs. pasture-based supplemented with flaxseed. Supplementing pasture with a total mixed ration improved ruminal fermentation which could potentially translate into better animal performance. Flaxseed shows promise as an energy alternative for pasture-based diets and may provide additional benefits such as improved fatty acid profile in the milk.
Technical Abstract: A 4-unit dual-flow continuous culture fermentor system was used to evaluate the effects of herbage, a total mixed ration (TMR) and flaxseed on nutrient digestibility and microbial N synthesis. Treatments were randomly assigned to fermentors in a 4 x 4 Latin square design. Each fermentor was fed a total of 70 g of dry matter (DM)/d of one of four diets: 1)100% freeze-dried orchardgrass herbage (Dactylis glomerata L.; HERB); 2) 100% freeze-driedTMR (100TMR); 3) 50% orchardgrass herbage supplemented with 50% TMR (50TMR); or 4) 90% orchardgrass herbage supplemented with 10% ground flaxseed (Linum usitatissimum L.; FLAX). Apparent DM and organic matter digestibilities were higher for the HERB diet while neutral detergent fiber digestibility was higher for the two herbage-based diets (HERB and FLAX). True DM and organic matter digestibilities were not affected by diet, averaging 78 and 81%, respectively. Mean and minimum pH was higher for the herbage-based diets (HERB and FLAX) while maximum pH was not affected by diet, averaging 6.66. Concentration of total volatile fatty acids, and molar proportions of acetate, propionate and isovalerate, as well as the acetate to propionate ratio, were higher, while molar propotions of isobutyrate were lower, for the two diets containing the TMR (100TMR and 50TMR). Ammonia-N concentrations tended to be lower for the 100TMR diet. Apparent crude protein digestibility and bacterial N synthesis did not differ across treatments. While TMR-based diets decreased nutrient digestibility slightly, TMR offered advantages in microbial fermentation in relation to volatile fatty acid production, which could potentially translate into better animal performance. Flaxseed shows promise as an energy alternative for herbage-based diets.