Lactational Effect of Propionic Acid and Duodenal Glucose in Cows

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Lactational Effect of Propionic Acid and Duodenal Glucose in Cows

S. Rigout^*, C. Hurtaud^*, S. Lemosquet^*, A. Bach and H. Rulquin^*

^* Unité Mixte de Recherches Production du Lait, Institut National de Recherche Agronomique, 35590 Saint-Gilles, France
Agribrands Europe San Juan 189 Barcelona, Spain

Corresponding author:
Sophie Rigout; e-mail:
rigout{at}st-gilles.rennes.inra.fr.

Five dairy cows were arranged in a 5 x 5 Latin square designto compare the effects of two amounts of either duodenal glucoseor ruminal propionic acid (C3) on milk yield and composition.Treatments consisted of a grass silage-based diet supplementedwith glucogenic nutrients either infused in the rumen as a mixtureof volatile fatty acids (control) or pure C3 (1.72 and 3.45Mcal/d) or in the duodenum as glucose (1.72 and 3.45 Mcal/d).Treatments were isoenergetic and isonitrogenous and contained100 and 115% of energy and protein requirements according toINRA (1989), respectively. Only C3 treatments significantlymodified ruminal volatile fatty acid composition and linearlyincreased C3 percentage (up to 25.5%). Both treatments substantiallydecreased milk fat yield and content, and linearly increasedmilk and protein yields. Although no significant differencesbetween glucose and C3 were highlighted for milk yield and composition,it seems that mechanisms involved in milk fat decrease are different.Indeed, whereas C3 treatments decreased fatty acid productionin an homogeneous way, short- and long-chain fatty acids decreasedand medium-chain fatty acid production increased with glucosetreatments. A bibliographical study confirmed that increasingglucogenic precursors (GP) supply curvilinearly increase milkyield, linearly increase milk protein content (+ 0.04% per Mcalof GP) and curvilinearly decrease milk fat content (- 0.14%per Mcal of GP). Thus, it appears important to account for thenature of energy supplied by the ration in formulation.

Key Words: propionic acid • glucose • dairy cow • milk composition

Abbreviation key: C3 = propionic acid, GP = glucogenic precursors, PDI = protein truly digested in the small intestine

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				S. Couvreur, C. Hurtaud, C. Lopez, L. Delaby, and J. L. Peyraud The linear relationship between the proportion of fresh grass in the cow diet, milk fatty acid composition, and butter properties. J Dairy Sci, June 1, 2006; 89(6): 1956 - 1969. [Abstract] [Full Text] [PDF]

				D. R. Stein, D. T. Allen, E. B. Perry, J. C. Bruner, K. W. Gates, T. G. Rehberger, K. Mertz, D. Jones, and L. J. Spicer Effects of Feeding Propionibacteria to Dairy Cows on Milk Yield, Milk Components, and Reproduction J Dairy Sci, January 1, 2006; 89(1): 111 - 125. [Abstract] [Full Text] [PDF]

				J. M. DeFrain, A. R. Hippen, K. F. Kalscheur, and R. S. Patton Effects of Feeding Propionate and Calcium Salts of Long-Chain Fatty Acids on Transition Dairy Cow Performance J Dairy Sci, March 1, 2005; 88(3): 983 - 993. [Abstract] [Full Text] [PDF]

				B. J. Bradford and M. S. Allen Milk Fat Responses to a Change in Diet Fermentability Vary by Production Level in Dairy Cattle J Dairy Sci, November 1, 2004; 87(11): 3800 - 3807. [Abstract] [Full Text] [PDF]

				S. Lemosquet, S. Rigout, A. Bach, H. Rulquin, and J. W. Blum Glucose Metabolism in Lactating Cows in Response to Isoenergetic Infusions of Propionic Acid or Duodenal Glucose J Dairy Sci, June 1, 2004; 87(6): 1767 - 1777. [Abstract] [Full Text] [PDF]

				D. Remond, J. I. Cabrera-Estrada, M. Champion, B. Chauveau, R. Coudure, and C. Poncet Effect of Corn Particle Size on Site and Extent of Starch Digestion in Lactating Dairy Cows J Dairy Sci, May 1, 2004; 87(5): 1389 - 1399. [Abstract] [Full Text] [PDF]