Fat, meat quality and sensory attributes of Large White × Landrace barrows fed with crude glycerine

  1. Linares Padierna, M. Belén
  2. Teruel Gutiérrez, María Rocío
  3. Egea Clemenz, Macarena
  4. Villodre, Carmen M.
  5. Hernández Ruipérez, Fuensanta
  6. Madrid Sánchez, Josefa
  7. Garrido Fernández, María Dolores
Revista:
Spanish journal of agricultural research

ISSN: 1695-971X 2171-9292

Año de publicación: 2014

Volumen: 12

Número: 3

Páginas: 717-726

Tipo: Artículo

DOI: 10.5424/SJAR/2014123-6058 DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Otras publicaciones en: Spanish journal of agricultural research

Resumen

The use of alternative raw materials like crude glycerine in animal feed to reduce final costs could be of interest as the sector seeks to increase its competitiveness. The aims of the present work were to evaluate the effect of crude glycerine on back-fat thickness and the proximate composition of pork and to examine the effect on pork quality of using growing-finishing feeds with different percentages of crude glycerine added. For this purpose 60 crossbreed (Large White × Landrace) barrows were subdivided into three groups according to the crude glycerine concentration administered in feed: C, control diet, no crude glycerine; and G2.5 and G5 with 2.5% and 5% added crude glycerine, respectively. This study evaluated proximate composition, pH, cooking losses, texture, colour coordinates, fatty acid profile, and sensorial analysis. No differences were found in any of the three groups studied (C, G2.5, G5) for measurements performed both before (with ultrasound equipment) and after slaughter (millimetre ruler). The proximate composition and the physical-chemical parameters of longissimus dorsi were similar between groups. There were no differences detected (p>0.05) between the three groups as regards the CIELab coordinates, textural profile and sensory attributes. Therefore, 5% crude glycerine to replace corn could be used as an ingredient in pig feed without appreciably affecting the back-fat and meat quality characteristics

Referencias bibliográficas

  • Airhart JC, Bidner TD, Southern LL, 2002. Effect of oral glycerol administration with and without betaine on carcass composition and meat quality of late-finishing barrows. J Anim Sci 80: 71 (Abstr).
  • Alexandre L, Aragao-Leoneti V, Borges SVW, 2012. Glycerol as a byproduct of biodiesel production in Brazil: Alternatives for the use of unrefined glycerol. Renew Energ 45: 138-145. http://dx.doi.org/10.1016/j.renene.2012.02.032
  • Berenchtein B, Batista Costa L, Barbosa Braz D, Vezzoni de Almeida V, Panhoza Tse ML, Shigueru Miyada V, 2010. Utilização de glicerol na dieta de suínos em crescimento e terminação. Rev Bras Zootecn 39(7): 1491-1496. http://dx.doi.org/10.1590/S1516-35982010000700014
  • Bourne M, 2002. Food texture and viscosity. Concept and measurement. Academic Press, London. 427 pp.
  • Caine WR, Aalhus JL, Best DR, Dugan MER, Jeremiah LE, 2003. Relationship of texture profile analysis and Warner-Bratzler shear force with sensory characteristics of beef rib steaks. Meat Sci 64: 333–339. http://dx.doi.org/10.1016/S0309-1740(02)00110-9
  • Cerneau P, Mourot J, Peyronnet C, 1994. Effect du glycérol alimentaire sur la qualité de la viande de porc et le rendement technologique du jambon cuit. Journées de la Recherche Porcine en France 26: 193–198. [in French, English abstract].
  • Chiloane EK, Kanengoni AT, Siebrits FK, 2013. Effect of crude glycerol from South African biodiesel production on growth, carcass characteristics and pork quality of pigs. South Afr J Anim Sci 43 (2): 159-166.
  • Della Casa G, Bochicchio D, Faeti V, Marchetto G, Poletti E, Garavaldi A, Panciroli A, Brogna N, 2009. Use of pure glycerol in fattening heavy pigs. Meat Sci 81: 238-244. http://dx.doi.org/10.1016/j.meatsci.2008.07.030
  • Duttlinger AJ, DeRouchey, MD, Tokach MD, Dritz SS, Goodband RD, Nelssen JL, Houser TA, Sulabo RC, 2012. Effects of increasing crude glycerol and dried distillers grains with soluble on growth performance, carcass characteristics and carcass fat quality of finishing pigs. J Anim Sci 90: 840-852. http://dx.doi.org/10.2527/jas.2011-4126
  • Duttlinger W, Tokach MD, Dritz SS, Derouchey JM, Nelssen JL, Goodband RD, Prusa KJ, 2008. Effects of increasing dietary glycerol and dried distillers grains with solubles on growth performance of finishing pigs. J Anim Sci 86(2): 607.(Abstr.)
  • Gipe A, 2008. Effects of dried distillers grains with soluble on pork loin quality and sow fat quality. Thesis, Kansas State University. 72 pp.
  • Granados MV, 2001. Influencia del genotipo y la dieta sobre calidad de la canal y de la carne porcina. Efecto del α-tocoferol acetato sobre la estabilidad de la oxidación de la carne. Thesis. Universidad de Murcia, Murcia. 248 pp.
  • Grau R, Hamm R, 1953. Eine enfache Methode zur Bestimmung der Wasserbindung im Mukel. Natuwissenschaften 40: 29-30. http://dx.doi.org/10.1007/BF00595734
  • Hanczakowska E, Węglarz K, Szymczyky B, Hanczakowski P, 2010. Effect of adding crude or refined glycerol to pig diets on fattening performance, nutrient digestibility and carcass evaluation. Anim Sci 10(1): 67-73.
  • Hansen CF, Hernandez A, Mullan BP, Moore K, Trezona-Murray M, King RH, Pluske JR, 2009. A chemical analysis of samples of crude glycerol from the production of biodiesel in Australia, and the effects of feeding crude glycerol to growing-finishing pigs on performance, plasma metabolites and meat quality at slaughter. Anim Prod Sci 49: 154-161. http://dx.doi.org/10.1071/EA08210
  • Honikel KO, 1998. Reference methods for the assessment of physical characteristics of meat. Meat Sci 49: 447-457. http://dx.doi.org/10.1016/S0309-1740(98)00034-5
  • Kerr BJ, Dozier WA, Bregendahl K, 2007. Nutritional value of crude glycerin for nonruminants. Proc 23rd Annual Carolina Swine Nutrition Conference, November 13, Raleigh, NC, USA. pp: 6-18.
  • Kijora C, Kupsch RD, BergnerH, Wenk C, Prabucki AL, 1997. Comparative investigations on the utilization of glycerol, free fatty acids, free fatty acids in combination with glycerol and vegetable oil in fattening pigs. J Anim Physiol Anim Nutr 77: 127-138. http://dx.doi.org/10.1111/j.1439-0396.1997.tb00747.x
  • Kijora C, Kupsch RD. 1996. Evaluation of technical glycerols from "biodiesel" production as a feed component in fattening pigs. Lipid/Fett. 98: 240-245.
  • Kovacs P, Zsedely E, Kovacs A, Virag G, Schmidt J, 2011. Apparent digestible and metabolizable energy content of glycerol in feed of growing pigs. Livest Sci. 142: 229-234. http://dx.doi.org/10.1016/j.livsci.2011.07.019
  • Lammers PJ, Kerr BJ, Honeyman MS, Stalder K, Dozier WA, Weber TE, Kidd MT, Bregendahl K, 2008c. Nitrogen-corrected apparent metabolizable energy value of crude glycerol for laying hens. Poultry Sci 87: 104-107. http://dx.doi.org/10.3382/ps.2007-00255
  • Lammers PJ, Kerr BJ, Weber TE, Bregendahl K, Lonergan SM, Prusa KJ, Ahn DU, Stoffregen, WC, Dozier, WA, Honeyman, MS, 2008b. Growth performance, carcass characteristics, meat quality, and tissue histology of growing pigs fed crude glycerin-supplemented diets. J Anim Sci 86: 2962-2970. http://dx.doi.org/10.2527/jas.2008-0972
  • Lammers PJ, Kerr BJ, Weber TE, Dozier WA, Kidd MT, Bregendahl K, Honeyman MS, 2008a. Digestible and metabolizable energy of crude glycerol for growing pigs. J Anim Sci 86 (3): 602-608. http://dx.doi.org/10.2527/jas.2007-0453
  • Macfie HJ, Bratchell N, Greenhoff K, Vallis LV, 1989. Designs to balance the effect of order of presentation and first-order carry-over effects in hall tests. J Sens Stud 4: 129-148. http://dx.doi.org/10.1111/j.1745-459X.1989.tb00463.x
  • Mendoza OF, Ellis M, McKeith FK, Gaines AM, 2010. Metabolizable energy content of refined glycerin and its effects on growth performance and carcass and pork quality characteristics of finishing pigs. J Anim Sci 88: 3887-3895. http://dx.doi.org/10.2527/jas.2010-2873
  • Mourot J, Aumaitre A, Mouner A, Peiniau PA, Fracois A, Peyronnet C, Jamet JP, 1993. Effect of glycerol in the diet on growth performances and on meat quality in The Large White Pig. Journées de la Recherche Porcine en France. 25: 29-36.
  • Mourot J, Aumaitre A, Mounier A, Peiniau P, François AC, 1994. Nutritional and physiological effects of dietary glycerol in the growing pig. Consequences on fatty tissues and post morten muscular parameters. Livest Prod Sci 38: 237–244. http://dx.doi.org/10.1016/0301-6226(94)90175-9
  • Nitayavardhana S, Khanal SK, 2011. Biodiesel-derived crude glycerol bioconversion to animal feed: A sustainable option for a biodiesel refinery. Bioresour Technol 102: 5808-5814. http://dx.doi.org/10.1016/j.biortech.2011.02.058
  • Parker AJ, Dobson GP, Fitzpartrick LA, 2007. Physiological and metabolic effects of prophylactic treatment with the osmolytes glycerol and betaine on Bos indicus steers during long duration transportation. J Anim Sci 85: 2916-2923. http://dx.doi.org/10.2527/jas.2006-193
  • Quispe CsAG, Coronado CJR, Carvalho J, 2013. Glycerol: Production, consumption, prices, characterization and new trends in combustion. Renew Sust Energ Rev 27: 475-493. http://dx.doi.org/10.1016/j.rser.2013.06.017
  • Sa-udo C, Sánchez A, Alfonso M, 1998. Small ruminant production systems and factors affecting lamb meat quality. Meat Sci 49(1): 29-64.
  • Schieck GC, Shurson BJ, Kerr BJ, Johnston LJ, 2010. Evaluation of glycerol, a biodiesel co-product, in grow-finish pig diets to support growth and pork quality. J Anim Sci 88: 3927-3935. http://dx.doi.org/10.2527/jas.2010-2858
  • Stevens JA, Schinckel M, Latour D, Kelly D, Sholly B, Legan B, Richert B, 2008. Effects of feeding increasing levels of glycerol with or without distillers dried grains with solubles in the diet on grow-finish pig growth performance and carcass quality. J Anim Sci 86: 606 (Abstr).
  • Teixeira A, Rodrigues, 2013. Pork meat quality of Preto Alentejano and Commercial Largewhite landrace cross. J Integrat Agr 12: 1961-1971. http://dx.doi.org/10.1016/S2095-3119(13)60634-6
  • Tible SJ, Cook DR, Balfagon A, Van Kempen T, 2007. Novedades en la alimentación de lechones. XXIII Curso de Especialización FEDNA, Fundación Espa-ola para el Desarrollo de la Nutrición Animal, Madrid.
  • Velázquez PA, 2000. Predicción del contenido de cortes primarios en canales porcinas y en cerdos vivos. Available in http://www.disa.bi.ehu.es/spanish/asignaturas/17223/Alimentacion_Corte_Carne.pdf.