Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Growth performance, and carcass and meat quality traits in progeny of Poll Nellore, Angus and Brahman sires under tropical conditions

A. S. C. Pereira E I , F. Baldi G , R. D. Sainz A , B. L. Utembergue H , H. L. J. Chiaia G , C. U. Magnabosco B , F. R. Manicardi C , F. R. C. Araujo D , C. F. Guedes E , R. C. Margarido F , P. R. Leme E and P. J. A. Sobral E
+ Author Affiliations
- Author Affiliations

A Department of Animal Science, University of California, Davis, CA 95616, USA.

B Embrapa Cerrados, Planaltina – DF, Brazil.

C Guaporé Pecuária – Pontes e Lacerda – MT, Brazil.

D Aval Serviços Tecnológicos, Uberaba – MG, Brazil.

E Faculty of Animal Science and Food Engineering, University of São Paulo, Pirassununga – SP, Brazil.

F Usina Vale do Rosário, Orlândia – SP, Brazil.

G Department of Animal Science, São Paulo State University (FCAV/UNESP), Jaboticabal, SP, Brazil.

H Department of Animal Production and Nutrition, Faculty of Veterinary Medicine and Animal Science, University of São Paulo, Pirassununga, SP, Brazil.

I Corresponding author. Email: angelpereira@usp.br

Animal Production Science 55(10) 1295-1302 https://doi.org/10.1071/AN13505
Submitted: 26 November 2013  Accepted: 2 September 2014   Published: 24 December 2014

Abstract

This study aimed to characterise progeny of sires representing major families in the Poll Nellore breed. Fourteen Poll Nellore sires, two Angus sires and one Brahman sire were mated by AI to ~400 multiparous Poll Nellore dams. Calves were raised and stocked on pasture in central Brazil until reaching ~18 months of age, then fed a sugarcane bagasse-based diet on an ad libitum basis until reaching market weight and finish (average 23 months). There were 236 Poll Nellore (N), 38 Angus × Poll Nellore (AN) and 31 Brahman × Poll Nellore (BN) calves born in total. The weaning and 423-day weight weights, and growth rates and pre- and post-weaning were greater (P < 0.05) in males than in female calves, and were influenced by breed and by sire within the N animals. The weaning weights were higher (P < 0.05) in AN and BN than in N calves. The 423-day weight weights were greater (P < 0.05) in AN calves, followed by BN, with straightbred N being lightest. Feedlot average daily gain was unaffected (P > 0.05) by sex or by sire within N, but was lowest (P < 0.05) in N cattle, and highest in AN and BN animals, which did not differ (P > 0.05). Heifers reached the end of the study with lower bodyweight (BW) and dressing percentage than steers, resulting in lower carcass weights, smaller longissimus muscle areas (LMA), but greater 12th to 13th rib backfat (BF) and similar marbling score and mean shear force. However, the proportion of carcasses grading Choice or Prime was numerically greater in heifers than in steers (23.6% vs 9.8%). AN cattle reached greater harvest weights than BN, and those were heavier than N cattle (P < 0.001). However, dressing percentages were lowest in AN animals, so that there was no significant difference in carcass weight between AN and BN cattle. AN carcasses also had greater LMA, BF and marbling scores than the N carcasses. The proportion of carcasses grading Choice or Prime was numerically greater in AN cattle than in the BN and N groups (25.9%, 11.8% and 15.9%, respectively). Steaks from AN calves were more tender than N steaks, with the BN steaks being intermediate. There was significant variation among N sires for final BW, dressing percentage, carcass weight, LMA and marbling score, but not for BF or mean shear force. The percentages of carcasses of N cattle grading Choice or Prime ranged from 0% to 61.5%. Three N sires produced progeny with greater than 40% of carcasses grading Choice or above (Berílio OB, Furador OB, and Litoral OB). Likewise, three N sires (Blitz OB, Furador OB and Sossego OB) had progeny with 67%, 62% and 75%, respectively, of steaks classified as tender. This study confirmed that Zebu cattle have inferior carcass and meat quality relative to AN crossbreds under tropical conditions, however there is substantial variation within the N breed for these traits, and several sires have a proportion of their progeny comparable in terms of meat tenderness to those of Angus sires.

Additional keywords: carcass, cattle, crossbreeding, growth, meat quality, Poll Nellore.


References

ANUALPEC (2012) ‘Anuário da pecuária brasileira.’ (FNP Consultoria & Comércio: São Paulo) 400 pp.

Baldi F, Espigolan R, Oliveira HN, Souza FP, Gordo DG, Magalhães AFB, Albuquerque LG (2013) Genetic parameter estimates for carcass and meat traits in Poll Nellore cattle. In ‘Fifty-ninth international congress of meat science and technology, 2013, Izmir’. (Elsevier: Amsterdam)

Boleman SL, Boleman SJ, Morgan WW, Hale DS, Griffin DB, Savell JW, Ames RP, Smith MT, Tatum JD, Field TG, Smith GC, Gardner BA, Morgan JB, Northcutt SL, Dolezal HG, Gill DR, Ray FK (1998) National Beef Quality Audit-1995: survey of producer-related defects and carcass quality and quantity attributes. Journal of Animal Science 76, 96–103.

Bouton PE, Carrol FD, Harris PV, Shorthose WR (1973) Influence of pH and fibre contraction state upon factors affecting the tenderness of bovine muscle. Journal of Food Science 38, 404–407.
Influence of pH and fibre contraction state upon factors affecting the tenderness of bovine muscle.Crossref | GoogleScholarGoogle Scholar |

Brown MA, Brown AH, Jackson WG, Miesner JR (1993) Genotype × environment interactions in postweaning performance to yearling in Angus, Brahman, and reciprocal-cross calves. Journal of Animal Science 71, 3273–3279.

Buainain AM, Batalha MO (2007) Cadeia Produtiva da Carne Bovina. Série de Agronegocios. Ministério da Agricultura, Pecuária e Abastecimento, Janeiro v. 8, Instituto Interamericano de Cooperaçãopara a Agricultura (IICA), Brasilia.

Burrow HM, Moore SS, Johnston DJ, Barendse W, Bindon BM (2001) Quantitative and molecular genetic influences on properties of beef: a review. Australian Journal of Experimental Agriculture 41, 893–919.
Quantitative and molecular genetic influences on properties of beef: a review.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXotlGhtbY%3D&md5=2e84e6b2dc13af00092a1a1c94262ebaCAS |

Choat WT, Paterson JA, Rainey BM, King MC, Smith GC, Belk KE, Lipsey RJ (2006) The effects of cattle sex on carcass characteristics and longissimus muscle palatability. Journal of Animal Science 84, 1820–1826.
The effects of cattle sex on carcass characteristics and longissimus muscle palatability.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28Xmt1aqt7o%3D&md5=54e4fbcae1b578e0ba1594434f6cda45CAS | 16775066PubMed |

Cundiff LV (2004) Breeds and genetics. In ‘Encyclopedia of animal science’. (Eds WG Pond, AW Bell) pp. 800–830. (Ithaca: Cornell)

Cundiff LV, Gregory KE, Koch RM (1998) Germplasm evaluation in beef cattle: Cycle IV: birth and weaning traits. Journal of Animal Science 76, 2528–2535.

Dow JS, Moore JD, Bailey CM, Foote WD (1982) Onset of puberty in heifers of diverse beef breeds and crosses. Journal of Animal Science 55, 1041–1047.

Ferriani L, Albuquerque LG, Baldi F, Venturini G, Bignardi AB, Silva JAV, Chud TCS, Munari DP, Oliveira JA (2013) Parâmetros genéticos de características de carcaça e de crescimento de bovinos da raça Nelore. Archivos de Zootecnia 62, 123–129.
Parâmetros genéticos de características de carcaça e de crescimento de bovinos da raça Nelore.Crossref | GoogleScholarGoogle Scholar |

Forni S, Albuquerque LG (2005) Estimates of genetic correlations between days to calving and reproductive and weight traits in Poll Nellore cattle. Journal of Animal Science 83, 1511–1515.

Franke DE (1997) Postweaning performance and carcass merit of F1 steers sired by Brahman and alternative subtropically adapted breeds. Journal of Animal Science 75, 2604–2608.

Garrick DJ (2011) The nature, scope and impact of genomic prediction in beef cattle in the United States. Genetics, Selection, Evolution. 43, 17
The nature, scope and impact of genomic prediction in beef cattle in the United States.Crossref | GoogleScholarGoogle Scholar | 21569623PubMed |

Gregory KE, Laster DB, Cundiff LV, Smith GM, Koch RM (1979) Characterization of biological types of cattle – Cycle III: II. Growth rate and puberty in females. Journal of Animal Science 49, 461–471.

Honikel KO (1998) Reference methods for the assessment of physical characteristics of meat. Meat Science 49, 447–457.
Reference methods for the assessment of physical characteristics of meat.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BC3MbntlCntw%3D%3D&md5=15c1d3124d0fa1beb8d1613f463f18cdCAS | 22060626PubMed |

Huffman RD, Williams SE, Hargrove DD, Johnson DD, Marshall TT (1990) Effects of percentage Brahman and Angus breeding, age-season of feeding and slaughter end point on feedlot performance and carcass characteristics. Journal of Animal Science 68, 2243–2252.

Lunstra DD, Cundiff LV (2003) Growth and pubertal development in Brahman-, Boran-, Tuli-, Belgian Blue-, Hereford- and Angus-sired F1 bulls. Journal of Animal Science 81, 1414–1426.

Martínez-Velázquez GK, Gregory E, Bennett GL, Van Vleck LD (2003) Genetic relationships between scrotal circumference and female reproductive traits. Journal of Animal Science 81, 395–401.

Menezes LFG, Restle J, Brondani IL, Kuss F, Alves Filho DC, da Silveira MF, Leite DT (2007) Internal organs and gastrointestinal tract of feedlot finished steers of advanced generations of rotational crossbreeding between Charolais and Poll Nellore. Revista Brasileira de Zootecnia 36, 120–129.
Internal organs and gastrointestinal tract of feedlot finished steers of advanced generations of rotational crossbreeding between Charolais and Poll Nellore.Crossref | GoogleScholarGoogle Scholar |

Newman S, Reverter A, Johnston DJ (2002) Purebred-crossbred performance and genetic evaluation of postweaning growth and carcass traits in Bos indicus × Bos taurus crosses in Australia. Journal of Animal Science 80, 1801–1808.

Paschal JC, Sanders JO, Herr JL, Lunts DK, Herring AD (1995) Postweaning and feedlot growth and carcass characteristics of Angus-, Gray Brahman-, Gir-, Indu-Brazil-, Poll Nellore-, and Red Brahman-sired F1 calves. Journal of Animal Science 73, 373–380.

Pinto LFB, Ferraz JBS, Meirelles FV, Eler JP, Rezende FM, Carvalho ME, Almeida HB, Silva RCG (2010) Association of SNPs on CAPN1 and CAST genes with tenderness in Nellore cattle. Genetics and Molecular Research 9, 1431–1442.
Association of SNPs on CAPN1 and CAST genes with tenderness in Nellore cattle.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXpsVamu7k%3D&md5=d675c4073b231202474cb92160018708CAS |

Pringle TD, Williams SE, Johnson DD, West RL (1997) Carcass characteristics, the calpain proteinase system, and aged tenderness of Angus and Brahman crossbred steers. Journal of Animal Science 75, 2955–2961.

Ribeiro E, Hernandez J, Zanella E, Shimokomaki M, Prudencio-Ferreira S, Youssef E, Ribeiro H, Reeves J (2005) Weight and carcass characteristics of Poll Nellore, Guzerat-Poll Nellore and Brahman-Poll Nellore steers. Journal of Animal Science 83, 265–269.

Riley DG, Chase CC, Coleman SW, Olson TA (2007) Evaluation of birth and weaning traits of Romosinuano calves as purebreds and crosses with Brahman and Angus. Journal of Animal Science 85, 289–298.
Evaluation of birth and weaning traits of Romosinuano calves as purebreds and crosses with Brahman and Angus.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXht1emu7k%3D&md5=a861385e71df3fdff319ab489d8e8b3aCAS | 17235015PubMed |

Schutt KM, Burrow HM, Thompson JM, Bindon BM (2009a) Brahman and Brahman crossbred cattle grown on pasture and in feedlots in subtropical and temperate Australia. 1. Carcass quality. Animal Production Science 49, 426–438.
Brahman and Brahman crossbred cattle grown on pasture and in feedlots in subtropical and temperate Australia. 1. Carcass quality.Crossref | GoogleScholarGoogle Scholar |

Schutt KM, Burrow HM, Thompson JM, Bindon BM (2009b) Brahman and Brahman crossbred cattle grown on pasture and in feedlots in subtropical and temperate Australia. 2. Meat quality and palatability. Animal Production Science 49, 452–460.
Brahman and Brahman crossbred cattle grown on pasture and in feedlots in subtropical and temperate Australia. 2. Meat quality and palatability.Crossref | GoogleScholarGoogle Scholar |

Shackelford SD, Morgan JB, Cross HR, Savell JW (1991) Identification of threshold levels for Warner-Bratzler shear force in beef top loin steaks. Journal of Muscle Foods 2, 289–296.
Identification of threshold levels for Warner-Bratzler shear force in beef top loin steaks.Crossref | GoogleScholarGoogle Scholar |

Shackelford SD, Wheeler TL, Koohmaraie M (1995) Relationship between shear force and trained sensory panel tenderness ratings of 10 major muscles from Bos indicus and Bos taurus cattle. Journal of Animal Science 73, 3333–3340.

Silva JA, Patarata L, Martins C (1999) Influence of ultimate pH on bovine meat tenderness during ageing. Meat Science 52, 453–459.
Influence of ultimate pH on bovine meat tenderness during ageing.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BC3MbnsFWmtA%3D%3D&md5=5933d8665c7d27aa979b1fd3a275d65cCAS | 22062710PubMed |

Smith T, Domingue JD, Paschal JC, Franke DE, Bidner TD, Whipple G (2007) Genetic parameters for growth and carcass traits of Brahman steers. Journal of Animal Science 85, 1377–1384.
Genetic parameters for growth and carcass traits of Brahman steers.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXls1antrk%3D&md5=e2576f3e15da87500813f52e5821034eCAS | 17339417PubMed |

Thallman RM, Cundiff LV, Gregory KE, Koch RM (1999) Germplasm evaluation in beef cattle – Cycle IV: postweaning growth and puberty of heifers. Journal of Animal Science 77, 2651–2659.

Turner JW (1980) Genetic and biological aspects of Zebu adaptability. Journal of Animal Science 50, 1201–1205.

USDA (1999) ‘Official United States standards for grades of carcass beef.’ Agric. Marketing Serv. (USDA: Washington, DC)

Wheeler TL, Savell JW, Cross HR, Lunt DK, Smith SB (1990) Mechanisms associated with the variation in tenderness of meat from Brahman and Hereford cattle. Journal of Animal Science 68, 4206–4220.

Wheeler TL, Cundiff LV, Shackelford SD, Koohmaraie M (2001) Characterization of biological types of cattle (Cycle V): Carcass traits and longissimus palatability. Journal of Animal Science 79, 1209–1222.