Dietary silage supplement modifies fatty acid composition and boar taint in pork fat

Aaslyng M.D., Støier S., Lund B.W., Nielsen D.B. (2019). Slaughtering of entire male pigs seen from the slaughterhouse perspective. IOP Conference Series: Earth Environ. Sci., 333: 012003. Search in Google Scholar

Álvarez-Rodríguez J., Villalba D., Cubiló D., Babot D., Tor M. (2016). Organic practices and gender are effective strategies to provide healthy pork loin. J. Integr. Agricult., 15: 608–617. Search in Google Scholar

AOAC (2000). Official methods of analysis Association of Official Analytical Chemists. 17th ed., Arlington, VA. Search in Google Scholar

AOCS (1998). Official methods and recommended practices of the American Oil Chemists’ Society (AOCS). 5th ed OACS Champaign IL. Search in Google Scholar

Argemí-Armengol I., Villalba D., Tor M., Bertolín J.R., Latorre M.A., Álvarez-Rodríguez J. (2020). Effects of dietary roughage on organic pig performance behaviour and antioxidants accretion in perirenal adipose tissue. Livest. Sci., 241: 104255. Search in Google Scholar

Bach Knudsen K.E. (2001). The nutritional significance of ‘dietary fibre’ analysis. Anim. Feed Sci. Technol., 90: 3–20. Search in Google Scholar

Bonneau M., Chevillon P. (2012). Acceptability of entire male pork with various levels of androstenone and skatole by consumers according to their sensitivity to androstenone. Meat Sci., 90: 330–337. Search in Google Scholar

Bonneau M., Kempster A.J., Claus R., Claudi-Magnussen C., Diestre A., Tornberg E., Walstra P., Chevillon P., Weiler U., Cook G.L. (2000). An international study on the importance of androstenone and skatole for boar taint: I Presentation of the programme and measurement of boar taint compounds with different analytical procedures. Meat Sci., 54: 251–259. Search in Google Scholar

Borrisser-Pairó F., Panella-Riera N., Zammerini D., Olivares A., Garrido M.D., Martínez B., Gil M., García-Regueiro J.A., Oliver M.A. (2016). Prevalence of boar taint in commercial pigs from Spanish farms. Meat Sci., 111: 177–182. Search in Google Scholar

Capraro D., Buccioni A., Piasentier E., Spanghero M. (2017). Feeding finishing heavy pigs with corn silages: effects on backfat fatty acid composition and ham weight losses during seasoning. It. J. Anim. Sci., 16: 588–592. Search in Google Scholar

Daza A., Olivares A., Latorre M.A., Rey A.I., Callejo A., López-Bote C.J. (2017). Fatty acid composition of different adipose tissues in heavy pigs. It. J. Anim. Sci., 29: 657–666. Search in Google Scholar

Font i Furnols M., Guerrero L., Serra X., Rius M.À., Oliver M.À.. (2000). Sensory characterization of boar taint in entire male pigs. J. Sensory Stud., 15: 393–409. Search in Google Scholar

Font i Furnols M., Gispert M., Diestre A., Oliver M.A. (2003). Acceptability of boar meat by consumers depending on their age gender culinary habits and sensitivity and appreciation of androstenone odour. Meat Sci., 64: 433–440. Search in Google Scholar

Fontanillas R., Barroeta A., Baucells M.D., Codony R. (1997). Effect of feeding highly cismonounsaturated trans or n-3 fats on lipid composition of muscle and adipose tissue of pigs. J. Agricult. Food Chem., 45: 3070–3075. Search in Google Scholar

Garcia-Regueiro J.A., Rius M.A. (1998). Rapid determination of skatole and indole in pig back fat by normal-phase liquid chromatography. J. Chromat. A, 809: 246–251. Search in Google Scholar

Gläser K., Wenk C., Scheeder M.R.L. (2002). Effects of feeding pigs increasing levels of C 18:1 Trans fatty acids on fatty acid composition of backfat and intramuscular fat as well as backfat firmness. Arch. Tierernahr., 56: 117–130. Search in Google Scholar

Gray J.I., Pearson A.M. (1994). Lipid-derived off-flavours in meat-formation and inhibition. In: Flavor of meat and meat products, Shahidi F. (ed.). Springer, Boston, MA. Search in Google Scholar

Grela E.R., Kowalczuk-Vasilev E., Klebaniuk R. (2013). Performance pork quality and fatty acid composition of entire males surgically castrated or immunocastrated males and female pigs reared under organic system. Pol. J. Vet. Sci., 16: 107–114. Search in Google Scholar

Hansen L.L., Claudi-Magnussen C., Jensen S.K., Andersen H.J. (2006). Effect of organic pig production systems on performance and meat quality. Meat Sci., 74: 605–615. Search in Google Scholar

Hansen L.L., Stolzenbach S., Jensen J.A., Henckel P., Hansen-Møller J., Syriopoulos K., Byrne D.V. (2008). Effect of feeding fermentable fibre-rich feedstuffs on meat quality with emphasis on chemical and sensory boar taint in entire male and female pigs. Meat Sci., 80: 1165–1173. Search in Google Scholar

Hathwar S.C., Rai A.K., Modi V.K., Narayan B. (2012). Characteristics and consumer acceptance of healthier meat and meat product formulations-a review. J. Food Sci. Technol., 49: 653–664. Search in Google Scholar

INRA (2008). Equations and coefficients. Version 13. Inra Afz Ajinomoto Eurolysine Sas, pp.1–20. http://www.evapig.com Search in Google Scholar

ITAB (2014). Alimentation des porcs en agriculture biologique, Roinsard A., Catherine C., Maupertuis F., Alibert L., Ferchaud S., Uzereau A., Carrière J., Bordes A. (eds). ITAB – Institut Technique de l’Agriculture Biologique. Cah. Tech., pp. 1–40. Search in Google Scholar

Jensen M.T., Hansen L.L. (2006). Feeding with chicory roots reduces the amount of odorous compounds in colon and rectal contents of pigs. Animal Sci., 82: 369–376. Search in Google Scholar

Liu Q.H., Wu J.X., Dong Z.H., Wang S.R., Shao T. (2020). Effects of overnight wilting and additives on the fatty acid profile α-tocopherol and β-carotene of whole plant oat silages. Anim. Feed Sci. Technol., 260: 114370. Search in Google Scholar

Mathur P.K., Ten Napel J., Bloemhof S., Heres L., Knol E.F., Mulder H.A. (2012). A human nose scoring system for boar taint and its relationship with androstenone and skatole. Meat Sci., 91: 414–422. Search in Google Scholar

Mörlein D., Tholen E. (2014). Fatty acid composition of subcutaneous adipose tissue from entire male pigs with extremely divergent levels of boar taint compounds – An exploratory study. Meat Sci., 99: 1–7. Search in Google Scholar

Nguyen L.Q., Nuijens M.C.G.A., Everts H., Salden N., Beynen A.C. (2003). Mathematical relationships between the intake of n-6 and n-3 polyunsaturated fatty acids and their contents in adipose tissue of growing pigs. Meat Sci., 65: 1399–1406. Search in Google Scholar

NRC (2012). Nutrient requirements of swine. National Research Council. National Academies Press. 11th ed., 215 pp. Search in Google Scholar

Panella-Riera N., Blanch M., Kallas Z., Chevillon P., Garavaldi A., Gil M., Gil J.M., Font-i-Furnols M., Oliver M.A. (2016). Consumers’ segmentation based on the acceptability of meat from entire male pigs with different boar taint levels in four European countries: France, Italy, Spain, and United Kingdom. Meat Sci., 114: 137–145. Search in Google Scholar

Parois S., Bonneau M., Chevillon P., Larzul C., Quiniou N., Robic A., Prunier A. (2018). Odeurs indésirables de la viande de porcs mâles non castrés : problèmes et solutions potentielles. INRA Productions Animales, 31: 23–36. Search in Google Scholar

Pauly C., Luginbühl W., Ampuero S., Bee G. (2012). Expected effects on carcass and pork quality when surgical castration is omitted – Results of a meta-analysis study. Meat Sci., 92: 858–862. Search in Google Scholar

Raes K., De Smet S., Demeyer D. (2004). Effect of dietary fatty acids on incorporation of long chain polyunsaturated fatty acids and conjugated linoleic acid in lamb beef and pork meat: A review. Anim. Feed Sci. Technol., 113: 199–221. Search in Google Scholar

Rey A.I., Daza A., López-Carrasco C., López-Bote C.J. (2006). Feeding Iberian pigs with acorns and grass in either free-range or confinement affects the carcass characteristics and fatty acids and tocopherols accumulation in Longissimus dorsi muscle and backfat. Meat Sci., 73: 66–74. Search in Google Scholar

Rius M.A., Hortós M., García-Regueiro J.A. (2005). Influence of volatile compounds on the development of off-flavours in pig back fat samples classified with boar taint by a test panel. Meat Sci., 71: 595–602. Search in Google Scholar

Sarria P.I.B., Martens S.D. (2013). The voluntary intake in growing pigs of four ensiled forage species. Agricult. Food Sci., 22: 201–216. Search in Google Scholar

Sauvant D., Tran G., Heuzé V., Bastianelli D., Archimède H. (2013). Feedipedia: une encyclopédie mondiale des ressources alimentaires pour les animaux d’élevage. https://www.feedipedia.org Search in Google Scholar

Sobol M., Raj S., Skiba G. (2016). Effect of fat content in primal cuts of pigs fed diet enriched in n-3 polyunsaturated fatty acids on health-promoting properties of pork. J. Anim. Feed Sci., 25: 20–28. Search in Google Scholar

Średnicka-Tober D., Barański M., Seal C., Sanderson R., Benbrook C., Steinshamn H., Gromadzka-Ostrowska J., Rembiałkowska E., Skwarło-Sońta K., Eyre M., Cozzi G., Larsen M.K., Jordon T., Niggli U., Sakowski T., Calder P.C., Burdge G.C., Sotiraki S., Stefanakis A., Yolcu H., Stergiadis S., Chatzidimitriou E., Butler G., Stewart G., Leifert C. (2016). Composition differences between organic and conventional meat: a systematic literature review and meta-analysis. Brit. J. Nutr., 23: 1–18. Search in Google Scholar

Sukhija P.S., Palmquist D.L. (1988). Rapid method for determination of total fatty acid content and composition of feedstuffs and feces. J. Agricult. Food Chem., 36: 1202–1206. Search in Google Scholar

Thomsen R., Bonde M., Kongsted A.G., Rousing T. (2012). Welfare of entire males and females in organic pig production when reared in single-sex groups. Livest. Sci., 149: 118–127. Search in Google Scholar

Wallenbeck A., Rundgren M., Presto M. (2014). Inclusion of grass/clover silage in diets to growing/finishing pigs – Influence on performance and carcass quality. Acta Agricult. Scand., A-Anim. Sci., 64: 145–153. Search in Google Scholar

Wood J.D., Richardson R.I., Nute G.R., Fisher A.V., Campo M.M., Kasapidou E., Sheard P.R., Enser M. (2004). Effects of fatty acids on meat quality: a review. Meat Sci., 66: 21–32. Search in Google Scholar

Yagoubi Y., Joy M., Ripoll G., Mahouachi M., Bertolín J.R., Atti N. (2018). Rosemary distillation residues reduce lipid oxidation increase alpha-tocopherol content and improve fatty acid profile of lamb meat. Meat Sci., 136: 23–29. Search in Google Scholar

Zamaratskaia G., Squires E.J. (2009). Biochemical, nutritional and genetic effects on boar taint in entire male pigs. Animal, 3: 1508–1521. Search in Google Scholar