Effect of Fat Source on Duodenal Flow of Trans-C18:1 Fatty Acids and Milk Fat Production in Dairy Cows

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Effect of Fat Source on Duodenal Flow of Trans-C_18:1 Fatty Acids and Milk Fat Production in Dairy Cows

K. F. Kalscheur ¹, B. B. Teter ¹, L. S. Piperova ¹, and R. A. Erdman ¹

¹ University of Maryland, College Park 20742

The objective of the study was to determine the effects ofdietary fat source on duodenal flow, apparent absorption, andmilk fat incorporation of trans-C_18:1 fatty acids. Four ruminallyand duodenally cannulated multiparous Holsteins cows in midto late lactation were fed a basal diet containing 36% cornsilage, 24% alfalfa haylage, and 40% concentrate (dry matterbasis). Diets contained 0% supplemental fat (control diet),3.7% high oleic sunflower oil, 3.7% high linoleic sunfloweroil, or 3.7% partially hydrogenated vegetable shortening; treatmentswere administered in a 4 x 4 Latin square design with 3-wk experimentalperiods. The flow of trans-C_18:1 to the duodenum was higherfor cows fed diets supplemented with fat than for cows fed thecontrol diet (283 vs. 64 g/d). Incomplete biohydrogenation accountedfor the increased flow of trans-C_18:1 to the duodenum in cowsfed diets containing high oleic and high linoleic sunfloweroil. Increased flow of trans-C_18:1 in cows fed the diet containingpartially hydrogenated vegetable shortening most likely originatedfrom the trans-C_18:1 in the diet. Milk fat percentages were3.48, 3.07, 3.18, and 3.38% for cows fed the control diet anddiets containing high oleic sunflower oil, high linoleic sunfloweroil, and vegetable shortening, respectively. Milk trans-C_18:1increased from 2.9 to 11.2% of the total fatty acids for cowsfed the control diet and the diets supplemented with fat, respectively.Milk trans-C_18:1 were equal across all diets supplemented withfat. Ruminal and total tract digestion of organic matter, neutraldetergent fiber, and N did not change with fat supplementation.Results showed that trans-C_18:1 is increased in the milk ofcows with reduced milk fat; however, excessive amounts of trans-C_18:1in milk do not necessarily correspond directly to milk fat depression.

Key Words: trans-C_18:1 fatty acids • fat • milk fat depression • biohydrogenation

Submitted on August 9, 1996
Accepted on March 3, 1997

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				M. W. Chichlowski, J. W. Schroeder, C. S. Park, W. L. Keller, and D. E. Schimek Altering the Fatty Acids in Milk Fat by Including Canola Seed in Dairy Cattle Diets J Dairy Sci, September 1, 2005; 88(9): 3084 - 3094. [Abstract] [Full Text] [PDF]

				I. R. Ipharraguerre and J. H. Clark Impacts of the Source and Amount of Crude Protein on the Intestinal Supply of Nitrogen Fractions and Performance of Dairy Cows J Dairy Sci, May 1, 2005; 88(e_suppl_1): E22 - E37. [Abstract] [Full Text] [PDF]

				E. J. Scholljegerdes, B. W. Hess, G. E. Moss, D. L. Hixon, and D. C. Rule Influence of supplemental cracked high-linoleate or high-oleate safflower seeds on site and extent of digestion in beef cattle J Anim Sci, December 1, 2004; 82(12): 3577 - 3588. [Abstract] [Full Text] [PDF]

				L. S. Piperova, U. Moallem, B. B. Teter, J. Sampugna, M. P. Yurawecz, K. M. Morehouse, D. Luchini, and R. A. Erdman Changes in Milk Fat in Response to Dietary Supplementation with Calcium Salts of Trans-18:1 or Conjugated Linoleic Fatty Acids in Lactating Dairy Cows J Dairy Sci, November 1, 2004; 87(11): 3836 - 3844. [Abstract] [Full Text] [PDF]

				X. Qiu, M. L. Eastridge, K. E. Griswold, and J. L. Firkins Effects of Substrate, Passage Rate, and pH in Continuous Culture on Flows of Conjugated Linoleic Acid and Trans C18:1 J Dairy Sci, October 1, 2004; 87(10): 3473 - 3479. [Full Text] [PDF]

				A. A. AbuGhazaleh, D. J. Schingoethe, A. R. Hippen, and K. F. Kalscheur Conjugated Linoleic Acid Increases in Milk When Cows Fed Fish Meal and Extruded Soybeans for an Extended Period of Time J Dairy Sci, June 1, 2004; 87(6): 1758 - 1766. [Abstract] [Full Text] [PDF]

				J. R. Sackmann, S. K. Duckett, M. H. Gillis, C. E. Realini, A. H. Parks, and R. B. Eggelston Effects of forage and sunflower oil levels on ruminal biohydrogenation of fatty acids and conjugated linoleic acid formation in beef steers fed finishing diets J Anim Sci, December 1, 2003; 81(12): 3174 - 3181. [Abstract] [Full Text] [PDF]

				P. Bas, H. Archimede, A. Rouzeau, and D. Sauvant Fatty Acid Composition of Mixed-Rumen Bacteria: Effect of Concentration and Type of Forage J Dairy Sci, September 1, 2003; 86(9): 2940 - 2948. [Abstract] [Full Text] [PDF]

				H. V. Petit Digestion, Milk Production, Milk Composition, and Blood Composition of Dairy Cows Fed Formaldehyde Treated Flaxseed or Sunflower Seed J Dairy Sci, August 1, 2003; 86(8): 2637 - 2646. [Abstract] [Full Text] [PDF]

				L. S. Piperova, B. B. Teter, I. Bruckental, J. Sampugna, S. E. Mills, M. P. Yurawecz, J. Fritsche, K. Ku, and R. A. Erdman Mammary Lipogenic Enzyme Activity, trans Fatty Acids and Conjugated Linoleic Acids Are Altered in Lactating Dairy Cows Fed a Milk Fat-Depressing Diet J. Nutr., October 1, 2000; 130(10): 2568 - 2574. [Abstract] [Full Text]

				J. M. Griinari, B. A. Corl, S. H. Lacy, P. Y. Chouinard, K. V. V. Nurmela, and D. E. Bauman Conjugated Linoleic Acid Is Synthesized Endogenously in Lactating Dairy Cows by {Delta}9-Desaturase J. Nutr., September 1, 2000; 130(9): 2285 - 2291. [Abstract] [Full Text]