The effect of a high monounsaturated fat diet on body weight, backfat and loin muscle growth in high and medium-lean pig genotypes
Abstract
The objective of this study was to evaluate whether the use of a diet rich in oleic acid could have an effect on daily weight gain, backfat and loin muscle (Longissimus thoracis) depth. One hundred and ninety-two barrows and gilts, from two genotypes were fed a grain and soy diet (CONTROL with 28% C18:1) or a similar diet enriched with oleic acid (HO with 43% C18:1, Greedy-Grass OLIVA®). The pigs were housed in 16 pens in groups of 12 according to their sex, diet and genotype. From 75 days of age every three weeks, the pigs were weighed and the backfat and loin muscle depth were ultrasonically recorded (PIGLOG®). The inclusion of the dietary fat had no significant effect on the growth variables nor on the backfat and loin muscle depth measurements taken. However, the barrows resulted in higher live weight and backfat compared to the gilts at the end of the trial. Conversely, the gilts showed higher loin depth. Moreover, York-sired pigs were heavier than Pietrain-sired pigs during the whole trial and showed higher backfat at the last two measurements. Pietrain-sired pigs had higher loin muscle depth at the last measurements. The results of the present study suggest that the addition of a dietary fat into diets aiming at modifying the meat fatty acid profile has no detrimental effects on performance variables, or on backfat and loin muscle growth and thus, no negative economic impact for producers.
Downloads
References
Apple JK, Maxwell CV, Galloway DL, Hamilton CR, Yancey JWS, 2009. Interactive effects of dietary fat source and slaughter weight in growing-finishing swine: III. Carcass and fatty acid compositions. J Anim Sci 87: 1441-1454. http://dx.doi.org/10.2527/jas.2008-1455 PMid:19066247
Bee G, Gebert S, Messikommer R, 2002. Effect of dietary energy supply and fat source on the fatty acid pattern of adipose and lean tissues and lipogenesis in the pig. J Anim Sci 80: 1564-1574. PMid:12078738
Blasco A, Gou P, Gispert M, Estany J, Soler Q, Diestre A, Tibau J, 1994. Comparison of five types of pig crosses. I. Growth and carcass traits. Livest Prod Sci 40: 171-178. http://dx.doi.org/10.1016/0301-6226(94)90046-9
Busboom JR, Rule DC, Colin D, Heald T, Mazhan A, 1991. Growth, carcass characteristics, and lipid composition of adipose tissue and muscle of pigs fed canola. J Anim Sci 69: 1101-1108. PMid:2061242
Campbell RG, Taverner MR, 1988. Genotype and sex effects on the relationship between energy intake and protein deposition in growing pigs. J Anim Sci 66: 676-686. PMid:3378925
Castell AG, 1977. Effects of cultivar on the utilisation of ground rapeseed in diets for growing-finishing pigs. Can J Anim Sci 57: 111-120. http://dx.doi.org/10.4141/cjas77-013
Castell AG, Falk L, 1980. Effects of dietary canola seed on pig performance and backfat composition. Can J Anim Sci 60: 795-802. http://dx.doi.org/10.4141/cjas80-092
Cisneros F, Ellis M, McKeith FK, McCaw J, Fernando RL, 1996. Influence of slaughter weight on growth and carcass characteristics, commercial cutting and curing yields, and meat quality of barrows and gilts b from two genotypes. J Anim Sci 74: 925-933. PMid:8726722
Corino C, Musella M, Mourot J, 2008. Influence of extruded linseed on growth, carcass composition, and meat quality of slaughtered pigs at one hundred ten and one hundred sixty kilograms of liveweight. J Anim Sci 86: 1850–1860. http://dx.doi.org/10.2527/jas.2007-0155 PMid:18441078
De la Llata M, Dritz SS, Tokach MD, Goodband RD, Nelssen JL, Loughin TM, 2001. Effects of dietary fat on growth performance and carcass characteristics of growing-finishing pigs reared in a commercial environment. J Anim Sci 53: 2643-2650.
Eggert JM, Grant AL, Schinkel AP, 2007. Factors affecting fat distribution in pork carcasses. The Profes Anim Scient 23: 42-53.
Engel J, Smith II JW, Unruh JA, Goodbank RD, O’Quinn PR, Tockach MD, Nelssen JL, 2001. Effects of choice white grease or poultry fat on growth performance, carcass leanness, and meat quality characteristics of growing-finishing pigs. J Anim Sci 79: 1491-1501. PMid:11424686
FEDNA, 2006. Necesidades nutricionales para el ganado porcino: Normas FEDNA. Ed. FEDNA, Madrid.
Folch JM, Lees M, Sloane Stanley GH, 1957. A simple method for the isolation and purification of total lipids from animal tissues. J Biol Chem 226: 497-509. PMid:13428781
García-Macías JA, Gispert M, Oliver MA, Diestre A, Alonso P, Muñoz-Luna A, Siggens K, Cuthbert-Heavens D, 1996. The effect of cross, slaughter weight and halothane genotype on lean and meat and fat quality in pig carcasses. Anim Sci 63: 487-496. http://dx.doi.org/10.1017/S1357729800015381
Gonzalez E, Olivares A, Tejeda JF, 2005. Uso de piensos engrasados ricos en ácido oleico en la alimentación del cerdo ibérico. Comunicación libre. III World Congress on dry-cured ham, pp: 375-377. [In Spanish].
Hamilton DN, Ellis M, Wolter BF, Schinckel AP, Wilson ER, 2003. The growth performance of the progeny of two swine sire lines reared under different floor space allowance. J Anim Sci 81: 1126-1135. PMid:12772838
Hazel LN, Kline EA, 1959. Ultrasonic measurements of fatness in swine. J Anim Sci 18: 815-819.
Kanis E, Koops J, 1990. Daily gain, food intake and food efficiency in pigs during the growing period. Anim Prod 50: 353-364. http://dx.doi.org/10.1017/S0003356100004803
Langlois A, Minvielle F, 1989. Comparisons of three-way and backcross swine: II. Wholesale cuts and meat quality. J Anim Sci 67: 2025-2032.
Latorre MA, Lazaro R, Gracia MI, Nieto M, Mateos GG, 2003. Effect of sex and terminal sire genotype on performance, carcass characteristics, and meat quality of pigs slaughtered at 117 kg body weight. Meat Sci 65: 1369-1377. http://dx.doi.org/10.1016/S0309-1740(03)00059-7
Latorre MA, Lazaro R, Valencia DG, Medel P, Mateos GG, 2004. The effects of gender and slaughter weight on the growth performance, carcass traits, and meat quality characteristics of heavy pigs. J Anim Sci 82: 526-533. PMid:14974552
Lauridsen C, Højsgaard S, Sørensen MT, 1999. Influence of dietary rapeseed oil, vitamin E and copper on the performance and the antioxidative and oxidative status of pigs. J Anim Sci 77: 906-916. PMid:10328356
Lopez-Bote C, Ruiz J, Rey A, Daza A, 2005. Effect of the feeding in the quality of fat in Teruel Ham. III Dry Cured Ham World Congress on Science, Technology and Marketing. Sessions book, pp: 33-38.
Martin D, Muriel E, Gonzalez E, Viguera J, Ruiz J, 2008. Effect of dietary conjugated linoleic acid and monounsaturated fatty acids on productive, carcass and meat quality traits of pigs. Livest Sci 177: 155-164. http://dx.doi.org/10.1016/j.livsci.2007.12.005
Mas G, Llavall M, Coll D, Roca R, Diaz I, Oliver MA, Gispert M, Realini CE, 2010. Carcass and meat quality characteristics and fatty acid composition of tissues from Pietrain-sired barrows and gilts fed an elevated monounsaturated fat diet. Meat Sci 85: 707-714. http://dx.doi.org/10.1016/j.meatsci.2010.03.028 PMid:20416793
Mas G, Llavall M, Coll D, Roca R, Diaz I, Oliver MA, Gispert M, Realini CE, 2011. Effect of an elevated monounsaturated fat diet on pork carcass and meat quality traits and tissue fatty acid composition from York-crossed barrows and gilts. Meat Sci 89: 419-425. http://dx.doi.org/10.1016/j.meatsci.2011.05.011 PMid:21632183
Miller M F, Shackelford SD, Hayden KD, Reagan JO, 1990. Determination of the alteration in fatty acid profiles, sensory characteristics and carcass traits of swine fed elevated levels of monounsaturated fats in diet. J Anim Sci 68: 1624-1631. PMid:2384362
Morel PC, McIntosh JC, Janz JAM, 2006. Alteration of the fatty acid profile of pork by dietary manipulation. Asian-Australian J Anim Sci 19: 413-437.
Myer RO, Lamkey JW, Walker WR, Brandemuhl JH, Combs GE, 1992. Performance and carcass characteristics of swine when fed diets containing Canola oil and added copper to alter the unsaturated: saturated ratio of pork fat. J Anim Sci 70: 1417-1423. PMid:1526910
Neville JN, 1990. On matters of the hearth: past, present and future. J Am Dietetic Assoc 90: 211-213. PMid:2406329
Pettigrew JE, Moser RL, 1991. Fat in swine nutrition. In: Swine nutrition (Miller ER, Ullrey DE, Lewis AJ, eds). Butterworth-Heinemann, Stoneham, MA, USA, pp: 133-146.
Rhee KS, Ziprin YA, Ordóñez G, Bohac CE, 1988. Fatty acid profiles and of the total lipids and lipid oxidation in pork muscles as affected by canola oil in the animal diet and muscle location. Meat Sci 23: 201-210. http://dx.doi.org/10.1016/0309-1740(88)90034-4
Ruiz-Gutierrez V, Suriana FJ, Guerrero A, Cert AM, Villar J, 1996. Plasma lipids, erythrocyte membrane lipids and blood pressure of hypertensive women after ingestion of dietary oleic acid from two different sources. J Hypertens 12: 1483-1490. http://dx.doi.org/10.1097/00004872-199612000-00016
Wild JJ, 1950. The use of ultrasonic pulses for the measurement of biological tissues and the detection of tissue density changes. Surgery 27: 183-188. PMid:15403775
Wood JD, Richardson RI, Nute GR, Fisher AV, Campo MM, Kasapidou E, Sheard PR, Enser M, 2003. Effects of fatty acids on meat quality: a review. Meat Sci 66: 21-32. http://dx.doi.org/10.1016/S0309-1740(03)00022-6
© CSIC. Manuscripts published in both the printed and online versions of this Journal are the property of Consejo Superior de Investigaciones Científicas, and quoting this source is a requirement for any partial or full reproduction.
All contents of this electronic edition, except where otherwise noted, are distributed under a “Creative Commons Attribution 4.0 International” (CC BY 4.0) License. You may read here the basic information and the legal text of the license. The indication of the CC BY 4.0 License must be expressly stated in this way when necessary.
Self-archiving in repositories, personal webpages or similar, of any version other than the published by the Editor, is not allowed.
