Acessibilidade / Reportar erro

Carcass characteristics and sensorial evaluation of meat from Nellore steers and crossbred Angus vs. Nellore bulls

Características de carcaça e avaliação sensorial da carne de novilhos Nelore e touros cruzados Angus vs. Nelore

ABSTRACT.

This study evaluated animal performance, carcass characteristics and meat quality of 36-month old Nellore steers finished in pastures (n = 10) and 20-month old Angus vs. Nellore bulls finished in feedlot (n = 10). Final body weight, carcass weight, characteristics, conformation and fat thickness, were higher (p < 0.001) for the Nellore steers than for Angus vs. Nellore bulls. Water losses during chilling (24 hours, 4oC) were lower (p < 0.05) for Nellore steers than for the Angus vs. Nellore bulls. Muscle percentage on the 6th rib was higher (p < 0.05) for the Nellore steers than for Angus vs. Nellore bulls; while bone percentage was lower (p < 0.05) for Nellore steers. After 7 and 14 days of ageing, the L* meat value was higher for the Nellore steers than for the Angus vs. Nellore bulls; the L* meat value was similar (p > 0.05) throughout the ageing period for the Angus vs. Nellore bulls, but higher in meat from the Nellore steers (p < 0.05). Genetic group had no effect (p > 0.05) on meat a* value (redness). Likewise, ageing time had no effect on a* in both genetic groups, and genetic group had no effect (p > 0.05) on meat b* value (yellowness). On the other hand, b* was increased after day 7 of ageing for the bulls from the two genetic groups. Thawing and cooking losses were lower for Nellore steers after day 7 of aging (p < 0.05). The meat of the Angus vs. Nellore bulls was more tender (p < 0.05) at all ageing times studied (1, 4, 7 and 14 days) than the meat of the Nellore steers. Genetic group had no effect (p > 0.05) on lipid oxidation; however, lipid oxidation increased after day7. Meat from Nellore steers contained a higher percentage of saturated fatty acids (SFA), a lower percentage of unsaturated (UFA) and monounsaturated fatty acids (MUFA) and a similar percentage of polyunsaturated fatty acids (PUFA) than the meat from Angus vs. Nellore bulls. Intramuscular fat from Nellore steers had a more favourable n-6:n-3 fatty acid ratio than that from Angus vs. Nellore bulls (4.37 vs. 11.45, respectively). Tenderness, flavour and overall acceptability were higher (p < 0.001) for meats of the Nellore steers, regardless of ageing time (1, 4, 7 and 14 days).

Keywords:
Brazil; consumer acceptability; fattening system; genetic groups; meat quality; sexual class

RESUMO.

Este estudo foi realizado para avaliar o desempenho animal, características de carcaça e qualidade da carne de novilhos Nelore terminados em pastagens e abatidos aos 36 meses de idade (n = 10) e machos não castrados Angus vs. Nelores abatidos aos 20 meses de idade (n = 10). O peso final, peso, características e conformação da carcaça e espessura de gordura de cobertura foram maiores (p < 0,001) para os novilhos Nelores do que para os mestiços Angus vs. Nelores. As perdas de água durante o resfriamento (24 horas, 4º C) foram menores (p < 0,05) para os novilhos Nelores do que para os mestiços Angus vs. Nelores. A percentagem de músculo na 6ª costela foi maior (p < 0,05) para os novilhos Nelores do que para os mestiços Angus vs. Nelores; enquanto que a percentagem de osso foi menor (p < 0,05) para os novilhos Nelores. Após 7 e 14 dias de maturação, o valor de L* da carne foi maior (p < 0,05) para os novilhos Nelores do que para os mestiços Angus vs. Nelores. O valor de L* foi similar (p > 0,05) ao longo da maturação para os mestiços Angus vs. Nelores; enquanto que o valor de L* da carne dos novilhos Nelores aumentou (p < 0,05). O grupo genético não teve efeito (p > 0,05) sobre o valor de a* (cor vermelha). Da mesma forma, o tempo de maturação não teve efeito (p > 0,05) para os animais dos dois grupos genéticos. O grupo genético não teve efeito (p > 0,05) sobre o valor de b* (cor amarela). Por outro lado, o tempo de maturação aumentou o valor de b* após o sétimo dia para os animais dos dois grupos genéticos. A perda por descongelamento e cocção foi menor (p < 0,05) para os novilhos Nelores após o sétimo dia de maturação. A carne dos mestiços Angus vs. Nelores foi mais macia (p < 0,05) em todos os tempos de maturação (1, 4, 7 e 14 dias) do que a carne dos novilhos Nelores. O grupo genético não teve efeito (p > 0,05) sobre a oxidação de lipídeos; no entanto, a oxidação de lipídeos aumentou após o sétimo dia. A carne dos novilhos Nelores continha maior percentagem de ácidos graxos saturados (AGS), menor percentagem de ácidos graxos não saturados (AGNS) e monoinsaturados (AGMI) e similar percentagem de ácidos graxos poli-insaturados (AGPI) do que a carne dos mestiços Angus vs. Nelores. A gordura intramuscular dos Nelores tinha melhor razão n-6:n-3 do que a carne dos mestiços Angus vs. Nelores (4,37 vs. 11,45, respectivamente. A maciez, aroma e aceitabilidade geral foram maiores (p < 0,001) para a carne dos novilhos Nelores, desconsiderando o tempo de maturação (1, 4, 7 e 14 dias).

Palavras-chave:
Brasil; consumidor; sistema de acabamento; grupo genético; qualidade da carne; classe sexual

Introduction

In Brazil, traditional cattle production is extensive and usually pasture-based (Ferraz & Felício, 2010Ferraz, J. B. S., & Felício, P. E. (2010). Production systems. An example from Brazil. Meat Science , 84(2), 238-243.). Zebu breeds (Bos taurus indicus), such as Nellore, are frequently used (Moreira et al., 2008Moreira, F. B., Mizubuti, I. Y., Prado, I. N., Matsushita, M., Matsubara, M. T., & Dognani, R. (2008). Protein and mineral supplementation for calves grazing a Mombaça pasture during the winter. Semina: Ciências Agrárias, 29(1), 203-210. ; Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ; Silva et al., 2010Silva, R. R., Prado, I. N., Carvalho, G. G. P., Silva, F. F., Almeida, V. V. S., Santana Júnior, H. A., ... Abreu Filho, G. (2010). Níveis de suplementação na terminação de novilhos Nelore em pastagens: aspectos econômicos. Revista Brasileira de Zootecnia , 39(9), 2091-2097.). However, this production system is characterised by a low efficiency, with an average carcass weight of around 225 kg at 36 months slaughter age and a potential negative impact on the meat quality (Prado et al., 2012Prado, I. N., Maggioni, D., Abrahão, J. J. S., Valero, M. V., Prado, R. M., & Souza, N. E. (2012). Meat quality of crossbred bulls fed with sorghum silage or sugar cane and slaughtered at two levels of fat thickness. Acta Scientiarum. Technology, 34(3), 337-344. ; Rotta et al., 2009). However, the production costs are generally lower than those of intensive systems (El-Memari et al., 2003El-Memari, A. C., Zeoula Neto, L. M., Cecato, U., Prado, I. N., Caldas Neto, S. F., Kazama, R., & Oliveira, F. C. L. (2003). Suplementação de novilhos nelore em pastejo de Brachiaria brizantha com diferentes níveis e fontes de concentrado. Revista Brasileira de Zootecnia, 32(6 suppl. 2), 1945-1955. ; Silva et al., 2010Silva, R. R., Prado, I. N., Carvalho, G. G. P., Silva, F. F., Almeida, V. V. S., Santana Júnior, H. A., ... Abreu Filho, G. (2010). Níveis de suplementação na terminação de novilhos Nelore em pastagens: aspectos econômicos. Revista Brasileira de Zootecnia , 39(9), 2091-2097.).

In Brazil, cattle production systems based on pastures are mainly located in the central-western, northern and north-eastern regions of the country (Ferraz & Felício, 2010Ferraz, J. B. S., & Felício, P. E. (2010). Production systems. An example from Brazil. Meat Science , 84(2), 238-243.). In the south-eastern and southern regions, a relative percentage of the cattle are finished in feedlots due to the high grain production in these regions. However, Zebu cattle finished in feedlots are less interesting for the consumer market than crossbred cattle (Zebu and Europeans) due to their lower feed efficiency. In addition, crossbreeding among Bos taurus taurus and Bos taurus indicus significantly reduces slaughter age and improves feed efficiency and meat quality.

This study evaluated animal performance, carcass characteristics and meat quality of 36-month old Nellore steers finished in pastures and 20-month old Angus vs. Nellore bulls.

Material and methods

Ethics committee and locality

The experiment was conducted in Campo Mourão City, Paraná State, and south Brazil. All procedures have been approved by the Department of Animal Production and the Research Ethic Committee of the State University of Maringá, following the principles of biomedical research with animals, nº 081/2014 (CIOMS, 1985).

Animals and finishing system

We used a total of 20 animals; 10 Nellore steers with a body weight of 580 kg and 10 crossbred bulls (½ Angus vs. ½ Nellore) with a body weight of 470 kg, in a completely randomised experimental design. The Nellore steers were finished in a conventional system, Brachiaria brizantha pasture in Paraná State, south Brazil. Angus vs. Nellore bulls were finished in a feedlot system commonly used in Brazil, fed with corn silage (40% DM) and concentrate (60% corn cracked grain, soy bean meal, urea and mineral salt).

Slaughtering and carcass characteristics

The animals were transported to a commercial slaughterhouse (Campo Mourão city, Paraná, south Brazil). Truck stocking density was 0.8 ± 0.2 animal m-2 and transport distance less than 80 km. According to the common practices of the Brazilian beef industry, the animals were stunned using a captive-bolt pistol. Carcasses were not subjected to electrical stimulation. Afterwards, the carcasses were medially divided, washed, labelled and stored in a cold chamber at 4oC, where they remained for a 24-h period.

Twenty-four hours later, cold carcass weight was determined. Cold carcass dressing percentage was calculated using the cold carcass weight: body weight ratio. Chilling loss percentage was defined as hot carcass weight minus cold carcass weight, divided by hot carcass weight and multiplied by 100. Carcass length was measured from the skull board to the pubis bone on the anterior side of the first rib. Leg length was evaluated with a wooden compass with metallic edges that measured the distance from the anterior border of the pubis bone to a middle point on the tarsus bone. Cushion thickness was determined with a wooden compass with metallic edges that measured the distance between the lateral face and the median at the superior part of the cushion. For carcass conformation, a point scale was used; on this scale, the highest value indicates the best conformation. The conformation was reported as superior, very good, good, regular, poor or inferior; ratings could also be reported as plus, mid and minus. Carcass muscle (MP), fat (FP), bone (BP) and others were physically separated from the Longissimus section, which corresponds to the 6th rib, and individually weighed according to Robelin and Geay (1975Robelin, J., & Geay, Y. (1975). Estimation de la composition de la carcasse des taurillons a partir de la 6ème côte. Bulletin Technique . Centre de Recherches Zootechniques et Veterinaires de Theix, 22(1), 41-44. ).

Sampling and meat characteristics

Longissimus muscle (LM) samples (6th to 13th rib) were identified, removed and stored in vacuum bags (polyamide/polyethylene pouches of 120 μm and 1 cm3 m-2 24h-1 02 permeability, 3 cm3 m-2 24h-1 CO2 permeability measured at 5°C and 75% relative humidity; water vapor transmission rate (WVTR) 3 g m-2 24h-1 at 38°C and 100% RH; the vicat softening point of sealing was reached at 97°C and had a dart drop strength of 1,300 g), then immediately transported to the Laboratory of Technology and Production of Animal Origin of the Animal Science Department at the State University of Maringá. Two-cm thick steaks were cut, vacuum-packaged (99% vacuum, with a Sulpack SVC 620 machine) and aged for one day before being frozen and stored at −18°C for further analysis.

The pH was measured in the muscle between the 12th and 13th ribs. Fat thickness was measured with a caliper, averaging three points between the 12th and the 13th ribs. Marbling was measured on the LM from the 12th rib, using the Brazilian scoring system (18 to 16 - abundant, 15 to 13 - moderate, 12 to 10 - mean, 9 to 7 - small, 6 to 4 - light and 3 to 1 - traces). The LM area was measured with a tracing made on the 12th and 13th ribs. Subsequently, a compensating planimeter was used to determine the area.

Meat colour in the CIELAB space was assessed in fresh meat before the steaks were frozen by using a Minolta CR-400 spectrophotometer (Konica, Minolta Holdings, Osaka, Japan) with a 10º view angle and a D65 illuminant at 30 min after blooming.

To estimate thawing losses, steaks were thawed over the course of 24 h under refrigeration conditions (4°C) and subsequently weighed; thawing losses were calculated as the percentage difference between the fresh and thawed weights. For determination of cooking losses, the steaks were weighed and wrapped in aluminium film. Each sample was cooked in a pre-heated grill at 200ºC until reaching an internal temperature of 55ºC, which was monitored with a penetration thermocouple. Afterwards, the sample was removed from the grill and chilled at ambient temperature. Once it reached 20oC, each steak was weighed in order to calculate the cooking loss as the difference in weight before and after cooking.

For texture analysis, the same cooked steaks were analysed by using a texture analyser Stable Micro Systems TAXT Plus (Texture Technologies 15 Corp., UK) with a Warner-Bratzler cell, while following the principles proposed by Honikel (1998Honikel, K. O. (1998). Reference methods for the assessment of physical characteristics of meat. Meat Science, 49(4), 447-457. ). The meat was cut into rectangular pieces of 1 cm2 cross-sections, perpendicular to the direction of the muscle fibres.

Lipid oxidation was quantified using the Thiobarbituric Acid Reactive Substances (TBARS) method following Pfalzgraf, Frigg and Steinhart (1995Pfalzgraf, A., Frigg, M., & Steinhart, H. (1995). Alpha tocopherol contents and lipid oxidation in pork muscle and adipose tissue during storage. Journal of Agricultural and Food Chemistry, 43(5), 1339-1342. ). Values were expressed as mg of malonaldehyde (MDA) per kg of raw meat.

The chemical composition (percentages of water, ash, crude protein, total lipids and total collagen) was determined by near infrared transmittance, using a Food Scan Lab TM (Foss NIR Systems, Inc., USA) instrument, which operates in a transmittance mode from 850 to 1,050 nm at 2-nm intervals.

For fatty acids analysis, a specific portion of intramuscular fat from the sixth rib level was extracted with a chloroform/methanol mixture. Fatty acid methyl esters (FAMEs) were prepared using methylation and analysed through a gas chromatograph (Varian Medical Systems, Palo Alto, California, USA) equipped with a flame ionisation detector and CP-7420 Select Fame fused silica capillary column (100 m x 0.25 mm ID, 0.39 µm film thickness, Varian, USA). Column temperature was 165°C for 18 min, 180°C (30°C min-1) for 22 min and 240°C (15°C min-1) for 30 min with a 45-psi pressure. Injector and detector were both maintained at 220 and 245oC, respectively. Gas fluxes (White Martins, Rio de Janeiro, Brazil) comprised 1.4 mL min-1 for carrier gas (H2), 30 mL min-1 for make-up gas (N2) and 30 mL min-1 and 300 mL min-1 for H2 and synthetic flame gas, respectively. Injection split mode was 1/80. Fatty acids were identified by comparing the relative retention time of the FAME peaks of the samples with the fatty acid methyl ester standards (Sigma, St. Louis, Missouri, USA) by spiking the samples with the standard. The peak areas were determined by the Star software (Varian, Walnut Creek, California, USA). Data are expressed as percentages for the normalised area of fatty acids.

Consumer sensory evaluation

Four steaks (2.5 cm thickness) were cut from LT between the 8th and 12th ribs from each animal. Steaks were vacuum-packed and aged for 1, 4, 7 and 14 days before being frozen at −18°C. They were thawed at 4°C for 24 h before analysis. Each steak was covered with aluminium foil codified with a random three-digit code and cooked in a pre-heated grill (Philco Grill Jumbo Inox, Philco S.A., Joinville, Brazil) at 200°C until reaching an internal temperature of 70°C, monitored with a penetration thermocouple (Incoterm, 145 mm; Incoterm Ltda, Porto Alegre, Brazil). Each steak was cut into 10 x 2 × 2 cm cubes and kept warm (50°C) until consumer evaluation (< 10 min after cooking). The consumer test for beef quality perception was performed at a Supermarket, at Campo Mourão City, Brazil south, in a private room adequately adapted to perform consumer sensory tests.

All consumers were asked to taste the meat samples and evaluate three attributes: tenderness, flavour and overall acceptability; this was achieved using a structured hedonic nine-point scale ranging from 1 = dislike extremely to 9 = like extremely, where a medium level was not included, according to the methodologies described by Font-i-Furnols et al. (2008Font-i-Furnols, M., Gispert, M., Guerrero, L., Velarde, A., Tibau, J., Soler, J., ... Oliver, M. A. (2008). Consumers’ sensory acceptability of pork from immunocastrated male pigs. Meat Science , 80(4), 1013-1018.).

Statistical analysis

The experimental design was completely randomised with two genetic groups and 10 replicates. All studied characteristics were tested for normality (Shapiro-Wilk test). Those that showed a normal distribution were analysed via analysis of variance by using the procedure proc MIXED in the SAS statistical package (Statistical Analysis System, version 8.1), with animal identity as a random effect. The experimental genetic group effect was evaluated (Nellore and Angus vs. Nellore) for all variables and the effects of ageing period (1, 4, 7 and 14 days) on water holding capacity (WHC), lipid oxidation (TBARS) and Warner-Braztler Shear Force (WBSF) variables were evaluated. The interactions were also included in the model. For consumer analysis, the consumer was considered a random factor and the session a block effect. Differences between genetic group means were assessed by using Tukey’s test (p < 0.05).

Results and Discussion

Carcass and meat characteristics

Final body weight was higher (p < 0.001) for the Nellore steers (578.4 kg) than for the crossbred Angus vs. Nellore bulls (470.8 kg; Table 1), which was a result of the different age at slaughter. The Nellore steers were slaughtered at 36 months; while Angus vs. Nellore bulls were slaughtered at 20 months. Similarly, cold carcass weight was higher (p < 0.001) for Nellore steers than for Angus vs. Nellore bulls. The correlation between final body weight and cold carcass weight was high (r² = 0.999; p < 0.0001). Carcass weight was high for Nellore steers and above the market recommendations in Brazil (225-250 kg), (Ferraz & Felício, 2010Ferraz, J. B. S., & Felício, P. E. (2010). Production systems. An example from Brazil. Meat Science , 84(2), 238-243.). However, the cattle finished in the pasture system need higher weights to meet the requirements of the Brazilian market (Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ).

Table 1
Final boy weight, carcass and meat characteristics of the Nellore and Angus vs. Nellore bulls.

Carcass dressing percentage was similar (p < 0.10) between Nellore and crossbred Nellore vs. Angus bulls. In general, in Brazil, carcass dressing percentage of Nellore or crossbred bulls can vary from 50 to 55% (Cruz et al., 2014Cruz, O. T. B., Valero, M. V., Zawadzki, F., Rivaroli, D. C., Prado, R. M., Lima, B. S., & Prado, I. N. (2014). Effect of glycerine and essential oils (Anacardium occidentale and Ricinus communis) on animal performance, feed efficiency and carcass characteristics of crossbred bulls finished in a feedlot system. ItalianJournal of Animal Science , 13(4), 790-797. ; Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ; Zawadzki et al., 2011Zawadzki, F., Prado, I. N., Marques, J. A., Zeoula, L. M., Rotta, P. P., Sestari, B. B., ... Rivaroli, D. C. (2011). Sodium monensin or propolis extract in the diets of feedlot-finished bulls: effects on animal performance and carcass characteristics. Journal of Animal and Feed Sciences, 20(1), 16-25.).

Water loss during chilling (24 hours, 4oC) was lower (p < 0.05) for Nellore steers than for crossbred Angus vs. Nellore bulls (Table 1), which may be related to fat thickness. Nellore steers were heavier and had a higher fat thickness. Mean water loss value in the carcass during chilling was 1.5%. This value is considered acceptable for the beef market in Brazil (Françozo et al., 2013Françozo, M. C., Prado, I. N., Cecato, U., Valero, M. V., Zawadzki, F., Ribeiro, O. L., ... Visentainer, J. V. (2013). Growth performance, carcass characteristics and meat quality of finishing bulls fed crude glycerin-supplemented diets. Brazilian Archives of Biology and Technology, 56(2), 327-336. ).

Carcass length was higher (p < 0.002) for crossbred Angus vs. Nellore bulls (141.4 cm) than for Nellore steers (131.8 cm). The greater carcass length for crossbred bulls can be explained by the effect of breed. European cattle have a higher carcass length when compared to Zebu cattle (Maggioni et al., 2010Maggioni, D., Marques, J. A., Rotta, P. P., Perotto, D., Ducatti, T., Visentainer, J. V., & Prado, I. N. (2010). Animal performance and meat quality of crossbred young bulls. Livestock Science, 127(2), 176-182. ; Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ). However, leg length was similar (p > 0.05) for the bulls from the two genetic groups. Cushion thickness was higher (p < 0.05) for Angus vs. Nellore bulls than for Nellore steers. In general, European cattle have a greater hindquarter and, consequently, a greater cushion thickness (Rotta et al., 2009). Carcass conformation and fattening was higher (p < 0.001) for Nellore steers than for crossbred bulls, which was correlated to the finishing degree of the cattle. Nellore steers were heavier and had a better yield grade.

Muscle percentage on the 7th rib was higher (p < 0.001) for Nellore steers than for Angus vs. Nellore bulls; while bone percentage was lower (p < 0.001) for Nellore steers. In general, carcasses from Zebu cattle presented smaller bone and more muscle percentages (Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ). Fat percentage was similar (p > 0.05) between the two genetic groups, which may be due to slaughter age. Nellore steers were slaughtered at 36 months (older); while Angus vs. Nellore bulls were slaughtered at 20 months (younger).

The pH was similar (p > 0.05) between Nellore steers and Nellore vs. Angus bulls, with a mean pH of 5.6. A low pH values, as observed in this study, shows that the animals were not stressed at slaughter time (Guerrero et al., 2016Guerrero, A., Muela, E., Valero, M. V., Prado, I. N., Campo, M. M., Olleta, J. L., ... Sañudo, C. (2016). Effect of the type of dietary fat when added as an energy source on animal performance, carcass characteristics and meat quality of intensively reared Friesian steers. Animal Production Science, 56(7), 1144-1151.; Rivaroli et al., 2016Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.).

Fat thickness was higher (p < 0.05) for Nellore steers than for Angus vs. Nellore bulls. Fat thickness can be defined as excessive for Nellore steers (8.3) and good for Angus vs. Nellore bulls (5.5 mm). The domestic meat market in Brazil requires cattle carcasses to have a fat thickness between 3 and 6 mm in order to avoid penalties. However, carcasses intended for export must have a higher fat thickness (Ngapo, Riendeau, Laberge, & Fortin, 2013Ngapo, T. M., Riendeau, L., Laberge, C., & Fortin, J. (2013). Marbling and ageing - Part 2. Consumer perception of sensory quality. Food Research International, 51(2), 985-991.).

Genetic group had no effect (p > 0.05) on meat marbling (Table 1). The mean marbling was 5.4 points and classified as ‘moderate’ within the range of the Brazilian evaluation system. In general, European bulls or crossbred bulls between Europeans vs. Zebu breeds have greater meat marbling (Hocquette, 2010Hocquette, J. F. (2010). Endocrine and metabolic regulation of muscle growth and body composition in cattle. Animal, 4(11), 1797-1809.; Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ). Thus, it could be expected that the crossed bulls between Angus vs. Nellore could have greater marbling; a fact that did, however, not occur. In addition to the genetic group, slaughter weight and finishing degree also have an effect on meat marbling (Ngapo et al., 2013Ngapo, T. M., Riendeau, L., Laberge, C., & Fortin, J. (2013). Marbling and ageing - Part 2. Consumer perception of sensory quality. Food Research International, 51(2), 985-991.). The Nellore steers were older and heavier and were therefore expected to have higher meat marbling.

The LM area was higher (p < 0.05) for Nellore steers than for the Angus vs. Nellore bulls, which was due to the higher carcass weight of these bulls.

Meat colour

At 24 hours, 4, 7 and 14 days of ageing, the L* meat value (lightness) was similar (p > 0.05) in the meat from of the two genetic groups (Table 2). The L* meat value was similar (p > 0.05) throughout the ageing period for Nellore steers, except for the seventh day, while L* meat value for Angus vs. Nellore bulls increased significantly (p < 0.05). Nellore steers presented L* meat value close to 39.1 points, while the L* meat value of Angus vs. Nellore bulls increased from 37.6 to 41.9 points during the ageing period, characterising an evolution from a darker to a lighter meat. For meat from Nellore steers, the L* value increased from day 1 to day 7 of the ageing period (37.1 to 41.6 points), a phenomenon that has been observed in beef steaks that were displayed under high levels of oxygen (Prado et al., 2015Prado, I. N., Campo, M. M., Muela, E., Valero, M. V., Catalan, O., Olleta, J. L., & Sañudo, C. (2015). Effects of castration age, protein level and lysine/methionine ratio in the diet on colour, lipid oxidation and meat acceptability of intensively reared Friesian steers. Animal , 9(8), 1423-1430.). Chemical changes in myoglobin did not influence L* meat values (McKenna, Mies, Baird, Pfeiffer, Ellebracht et al., 2005McKenna, D. R., Mies, P. D., Baird, B. E., Pfeiffer, K. D., Ellebracht, J. W., & Savell, J. W. (2005). Biochemical and physical factors affecting discoloration characteristics of 19 bovine muscles. Meat Science , 70(4), 665-682. ), but the protein structures that changed with ageing due to proteolysis-influenced lightness (Renerre, 1981Renerre, M. (1981). La couleur de la viande et sa mesure: viande fraiche. Bulletin Technique, 1, 47-54.). During aging, the cells of the muscle structure lose the integrity of the cell walls, showing less water retention capacity. In an injured cell, the water exudes into the extracellular space and the light that is affected is almost completely reflected, which makes its coloration clearer (Huff-Lonergan & Lonergan, 2005Huff-Lonergan, E., & Lonergan, S. M. (2005). Mechanisms of water-holding capacity of meat: The role of postmortem biochemical and structural changes. Meat Science , 71(1), 194-204. ).

Table 2
L* (lightness), a* (redness) and b* (yellowness) of the meat aged for 1, 4, 7 and 14 days from Nellore steers and Angus vs. Nellore bulls.

Genetic group had no effect (p > 0.05) on a* meat value (redness). Likewise, with exception of day 7, the ageing time had no effect (p > 0.05) on a* meat values for the bulls from both genetic groups. Similarly, genetic group had no effect (p > 0.05) on b* meat value (yellowness). On the other hand, b* meat value increased from day 7 for both genetic groups. This could be explained by the increase of brown pigments as a result of oxidation of oxymyoglobin to metmyoglobin (Mancini & Hunt, 2005Mancini, R. A., & Hunt, M. C. (2005). Current research in meat color. Meat Science , 71(1), 100-121. ).

Water holding capacity

Before and four days after the beginning of the ageing period, thawing water losses were similar (p > 0.05) in the meat of animals from the two genetic groups (Table 3). However, on days 7 and 14 of ageing, thawing losses were lower (p < 0.05) for Nellore steers. Nellore steers were older and had greater fat thickness, while there were no changes in Angus vs. Nellore bulls. The lower water loss by thawing in the meat from Nellore steers was due to the protection of the fat (higher fat thickness), which avoids water loss (Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ).

Table 3
Water activity (thawing and cooking), texture (Warner Bratzler Shear Force - WBSF, kg) and lipid oxidation (mg malonaldehyde kg-1 of meat raw) of meat aged for 1, 4, 7 and 14 days from Nellore steers and Angus vs. Nellore bulls.

Aging period did not influence cooking losses; however, on days 7 and 14 of ageing, thawing losses were lower (p < 0.05) for Nellore steers, which could also be attributed to the higher fat thickness. Water activity by thawing and cooking ranged from 5 to 8.6 and 23.2 to 29.8%, respectively. In general, those water losses for cattle finished in feedlots and slaughtered between an age of 18 and 36 months ranged from 5 to 10 and from 20 to 30%, respectively (Eiras et al., 2014Eiras, C. E., Marques, J. A., Prado, R. M., Valero, M. V., Bonafé, E. G., Zawadzki, F., ... Prado, I. N. (2014). Glycerin levels in the diets of crossbred bulls finished in feedlot: Carcass characteristics and meat quality. Meat Science , 96(2), 930-936.; Eiras et al., 2016; Françozo et al., 2013Françozo, M. C., Prado, I. N., Cecato, U., Valero, M. V., Zawadzki, F., Ribeiro, O. L., ... Visentainer, J. V. (2013). Growth performance, carcass characteristics and meat quality of finishing bulls fed crude glycerin-supplemented diets. Brazilian Archives of Biology and Technology, 56(2), 327-336. ; Rivaroli et al., 2016Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.). Thus, the water activity by thawing and cooking observed in this study can be considered as normal.

Warner Bratzler Shear Force

Aging reduced the Warner-Bratzler shear force (WBSF) of the meat from both genetic groups (Table 3). However, the meat of bulls Angus vs. Nellore was more tender (p < 0.05) on days 4 and 7 of ageing compared to the meat of Nellore steers (Table 3). A WBSF value for cooked meat above 6 kg cm-1 has been suggested as the threshold that separates tender and tough meat (O'Connor, Tatum, Wulf, Green, & Smith, 1997O'Connor, S. F., Tatum, J. D., Wulf, D. M., Green, R. D., & Smith, G. C. (1997). Genetic effects on beef tenderness in Bos indicus composite and Bos taurus cattle. Journal of Animal Science, 75(7), 1822-1830. ; Shackelford, Wheeler, & Koohmaraie, 1997Shackelford, S. D., Wheeler, T. L., & Koohmaraie, M. (1997). Tenderness classification of beef: I. Evaluation of beef longissimus shear force at 1 or 2 days postmortem as a predictor of aged beef tenderness. Journal of Animal Science, 75(9), 2417-2422. ). Thus, at the first day, the meat of Nellore steers could be considered tough (WBSF = 6.2 kg cm-1), while the meat of the Angus vs. Nellore bulls was tender (WBSF = 4.9 kg cm-1). In fact, softer meat in animals of the European breeds is due to greater proteolysis, resulting from the higher activity of calpain present in the musculature of cattle of European origin (Boles & Swan, 2002Boles, J. A., & Swan, J. E. (2002). Processing and sensory characteristics of cooked roast beef: effect of breed, age, gender and storage conditions. Meat Science, 62(4), 419-427. ).

Lipid oxidation (TBARS)

Genetic group had no effect (p > 0.05) on lipid oxidation (TBARS values) of meat (Table 3). However, ageing time increased (p < 0.001) lipid oxidation in the two genetic groups. The TBARS values ranged from 0.134 to 0.563 for Nellore steers and from 0.1733 to 0.5444 mg of MDA kg-1 of meat for Angus vs. Nellore bulls from day 1 to day 14, respectively. In general, lipid oxidation increases with ageing time (Prado et al., 2015Prado, I. N., Campo, M. M., Muela, E., Valero, M. V., Catalan, O., Olleta, J. L., & Sañudo, C. (2015). Effects of castration age, protein level and lysine/methionine ratio in the diet on colour, lipid oxidation and meat acceptability of intensively reared Friesian steers. Animal , 9(8), 1423-1430.). In any case, the MDA levels after 14 days of aging were below (0.55 of MDA kg-1 of meat) the threshold for acceptability in beef (Campo, et al., 2006Campo, M. M., Nute, G. R., Hughes, S. I., Enser, M., Wood, J. D., & Richardson, R. I. (2006). Flavour perception of oxidation in beef. Meat Science , 72(2), 303-311.). In this study, the evolution of lipid oxidation was low because the meats were packed in vacuum, which protects the meat from lipid oxidation (Rivaroli et al., 2016Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.).

Chemical composition

Moisture, ashes, protein, lipids and collagen in the LM muscle were not altered (p < 0.05) by the genetic group, feeding system and slaughter weight (Table 4), with mean percentages of 72.4; 1.2 and 22.3%, respectively. These values are close to the values observed by Rivaroli et al. (2016Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.). However, total lipids were higher (4.2%) than normally observed in meat from bulls finished in similar systems (Prado et al., 2016Prado, I. N., Cruz, O. T. B., Valero, M. V., Zawadzki, F., Eiras, C. E., Rivaroli, D. C., ... Visentainer, J. V. (2016). Effects of glycerin and essential oils (Anacardium occidentale and Ricinus communis) on the meat quality of crossbred bulls finished in a feedlot. Animal Science Production, 56(12), 2105-2114. ; Rivaroli et al., 2016; Valero et al., 2014Valero, M. V., Torrecilhas, J. A., Zawadzki, F., Bonafé, E. G., Madrona, G. S., Prado, R. M., ... Prado, I. N. (2014). Propolis or cashew and castor oils effects on composition of Longissimus muscle of crossbred bulls finished in feedlot. Chilean Journal of Agricultural and Research, 74(4), 445-451.). The high total lipid percentages may be due to the slaughter age of Nellore steers and the crossbreeding between Angus vs. Nellore bulls, since European animals have a higher percentage of fat in the carcass (Guerrero et al., 2016Guerrero, A., Muela, E., Valero, M. V., Prado, I. N., Campo, M. M., Olleta, J. L., ... Sañudo, C. (2016). Effect of the type of dietary fat when added as an energy source on animal performance, carcass characteristics and meat quality of intensively reared Friesian steers. Animal Production Science, 56(7), 1144-1151.; Prado, Oliveira et al., 2009; Prado, Prado et al., 2009).

Genetic group had no effect on meat collagen content (Table 4). The total collagen content observed in the meat was low (1.5 mg 100 g-1 g-1 protein) in comparison with other studies, where total collagen ranged between 2.0 and 5.3 mg 100 g-1 wet tissue (Christensen et al., 2011Christensen, M., Ertbjerg, P., Failla, S., Sañudo, C., Richardson, R. I., Nute, G. R., ... Williams, J. L. (2011). Relationship between collagen characteristics, lipid content and raw and cooked texture of meat from young bulls of fifteen European breeds. Meat Science , 87(1), 61-65. ). In the current study, the bulls were young and, in general, young cattle present low collagen contents (Lepetit, 2008Lepetit, J. (2008). Collagen contribution to meat toughness: Theoretical aspects. Meat Science , 80(4), 960-967.; Rivaroli et al., 2016Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.). Also, according to Aberle, Reeves, Judge, Hunsley and Perry (1981Aberle, E. D., Reeves, E. S., Judge, M. D., Hunsley, R. E., & Perry, T. W. (1981). Palatability and muscle characteristics of cattle with controlled weight gain: time on a high energy diet. Journal of Animal Science, 52(4), 757-763. ), animals fed diets in intensive systems that provide rapid growth can have increased rates of protein turnover, including collagen, resulting in more tender meat since new collagen has a higher solubility (Burson & Hunt, 1986Burson, D. E., & Hunt, M. C. (1986). Heat-induced changes in the proportion of types I and III collagen in bovine longissimus dorsi. Meat Science , 17(2), 153-160. ).

Table 4
Meat chemical composition of meat aged from Nellore steers and Angus vs. Nellore bulls.

Fatty acid composition

Genetic group significantly altered the percentage of the main fatty acids of the LM (Table 5). The percentages of pentadecilic (p < 0.001), margaric (p < 0.002), stearic (p < 0.013), ecosanoic (p < 0.0021), pentadecanoic (p < 0.0147), 15-tetracosenoic, α-linoleic (p < 0.012), eicosenoic (p < 0.021), eicosatrienoic (p < 0.047), eicosapentaenoic (p < 0.016) and decosahexaenoic (p < 0.011) acids were higher in the LD of the Nellore steers. On the other hand, the concentrations of tetracosanoic (p < 0.043), trans-octadecenoic (p < 0.009), oleic (p < 0.032), octadecenoic (p < 0.001), hexadecadienoic (p < 0.001) and linoleic (p < 0.092) acids were higher in the LM of the crossbred bulls Angus vs. Nellore. Still, for some fatty acids with a lower concentration in the LM, except for palmitic fatty acid (26.7%), genetic group had no effect (Table 5).

The concentration of palmitic acid with a lower hypercholesterolemic effect was 26.7% and is close to the values observed in previous studies for cattle finished in feedlots (Reddy et al., 2015Reddy, B. V., Sivakumar, A., Jeong, D. W., Woo, Y. B., Park, S. J., Lee, S. Y., ... Hwng, G. I. (2015). Beef quality traits of heifer in comparison with steer, bull and cow at various feeding environments. Animal Science Journal, 86(1), 1-16. ; Rivaroli et al., 2016Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.; Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ).

The fatty acid myristic acid is considered atherogenic and therefore less desirable in meat. In this study, a low percentage of myristic acid (3%) was observed, which is considered normal for beef (Jiménez-Colmenero, Carballo, & Cofrades, 2001Jiménez-Colmenero, F., Carballo, J., & Cofrades, S. (2001). Healthier meat and meat products: their role as functional foods. Meat Science, 59(1), 5-13.).

Within the class of saturated fatty acids, palmitic acid had the highest percentage (Eiras et al., 2016Eiras, C. E., Ornaghi, M. G., Valero, M. V., Rivaroli, D. C., Guerrero, A., & Prado, I. N. (2016). How does the dietary cottonseed hull affect the carcass characteristics and meat quality of young bulls finished in a high-concentrate diet? Acta Scientiarum. Animal Sciences, 38(3), 301-310.; Rivaroli et al., 2016Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.; Valero et al., 2014Valero, M. V., Torrecilhas, J. A., Zawadzki, F., Bonafé, E. G., Madrona, G. S., Prado, R. M., ... Prado, I. N. (2014). Propolis or cashew and castor oils effects on composition of Longissimus muscle of crossbred bulls finished in feedlot. Chilean Journal of Agricultural and Research, 74(4), 445-451.). In this study, the values of palmitic acid were higher (20.0%) in the meat of Nellore steers than in Angus vs. Nellore bulls (16.6%), but this fatty acid is considered to have no effect on human health since it is transformed into oleic acid fatty (18:1n-9) in the body, therefore not influencing blood cholesterol levels (Hocquette et al., 2005Hocquette, J. F., Richardson, R. I., Prache, S., Medale, F., Duffy, G., & Scollan, N. D. (2005). The future trends for research on quality and safety of animal products. Italian Journal of Animal Science, 4(suppl. 3), 49-72. ). The lower proportion of stearic acid found in the meat of grain-fed animals can be explained by the decrease in ruminal biohydrogenation (Aharoni, Orlov, & Brosh, 2004Aharoni, Y., Orlov, A., & Brosh, A. (2004). Effects of high-forage content and oilseed supplementation of fattening diets on conjugated linoleic acid (CLA) and trans fatty acids profiles of beef lipid fractions. Animal Feed Science and Technology, 117(1-2), 43-60.). Similarly, others (Brown, Melton, Riemann, & Backus, 1979Brown, H. G., Melton, S. L., Riemann, M. J., & Backus, W. R. (1979). Effects of energy intake and feed source on chemical changes and flavor of ground beef during frozen storage. Journal of Animal Science , 48(2), 338-347. ) have shown greater concentrations of stearic acid in pasture-fed vs. concentrate-fed cattle.

Table 5
Meat fatty acid composition of meat aged from Nellore steers and Angus vs. Nellore bulls.

Oleic fatty acid percentage was higher in the meat of crossbred Angus vs. Nellore bulls than in that of Nellore steers. This result was expected, since the Angus vs. Nellore bulls were fed in feedlots with a high grain diet. Such feeding systems generally result in meat with higher percentage of oleic fatty acids due to the high content of this fatty acid in grains (Realini, Duckett, Brito, Dalla Rizza, & Mattos, 2004Realini, C. E., Duckett, S. K., Brito, G. W., Dalla Rizza, M., & Mattos, D. (2004). Effect of pasture vs. concentrate feeding with or without antioxidants on carcass characteristics, fatty acid composition, and quality of Uruguayan beef. Meat Science , 66(3), 567-577.; Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ).

Intramuscular fat from pasture-fed Nellore steers had greater concentrations of total CLA and CLA isomer cis-9, trans-11 than the fat of feedlot-fed Angus vs. Nellore bulls. Previous research has shown that including pasture in the diet of dairy and beef cattle increased CLA concentrations in milk and in beef intramuscular fat, respectively (French et al., 2000French, P., Stanton, C., Lawless, F., O'riordan, E. G., Monahan, F. J., Caffrey, P. J., & Moloney, A. P. (2000). Fatty acid composition, including conjugated linoleic acid, of intramuscular fat from steers offered grazed grass, grass silage, or concentrate-based diets. Journal of Animal Science , 78(11), 2849-2855. ; Yang, Lanari, Brewster, & Tume, 2002Yang, A., Lanari, M. C., Brewster, M., & Tume, R. K. (2002). Lipid stability and meat colour of beef from pasture- and grain-fed cattle with or without vitamin E supplement. Meat Science , 60(1), 41-50.).

The fatty acids considered most important to human health, namely linolenic, α-linolenic, eicosenoic, EPA and DHA, were higher in the meat of Nellore steers than in that of Angus vs. Nellore bulls. Nellore steers were fattened in pasture systems, while Angus vs. Nellore bulls were fattened in feedlot systems. In general, these major fatty acids are higher in grazing cattle (French et al., 2000French, P., Stanton, C., Lawless, F., O'riordan, E. G., Monahan, F. J., Caffrey, P. J., & Moloney, A. P. (2000). Fatty acid composition, including conjugated linoleic acid, of intramuscular fat from steers offered grazed grass, grass silage, or concentrate-based diets. Journal of Animal Science , 78(11), 2849-2855. ; Realini et al., 2004Realini, C. E., Duckett, S. K., Brito, G. W., Dalla Rizza, M., & Mattos, D. (2004). Effect of pasture vs. concentrate feeding with or without antioxidants on carcass characteristics, fatty acid composition, and quality of Uruguayan beef. Meat Science , 66(3), 567-577.; Yang et al., 2002Yang, A., Lanari, M. C., Brewster, M., & Tume, R. K. (2002). Lipid stability and meat colour of beef from pasture- and grain-fed cattle with or without vitamin E supplement. Meat Science , 60(1), 41-50.).

The meat of Nellore steers contained a higher (p < 0.05) percentage of saturated fatty acids (SFA), a lower percentage of unsaturated (UFA, P < 0.05) and monounsaturated fatty acids (MUFA, p < 0.05) and a similar (p > 0.05) percentage of polyunsaturated fatty acids (PUFA) compared to that from Angus vs. Nellore bulls (Table 5).

The highest percentage of SFA and the lowest percentage of UFA and MUFA in the meat of Nellore steers is due to the breed and slaughter age of the animals. Older cattle have a higher percentage of SFA in their meat and, consequently, a lower percentage of UFA (Reddy et al., 2015Reddy, B. V., Sivakumar, A., Jeong, D. W., Woo, Y. B., Park, S. J., Lee, S. Y., ... Hwng, G. I. (2015). Beef quality traits of heifer in comparison with steer, bull and cow at various feeding environments. Animal Science Journal, 86(1), 1-16. ; Rotta et al., 2009Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734. ).

Current recommendations are that the PUFA: SFA ratio should be around 0.45 (Her Majesty's Stationary Office [HMSO], 1994Her Majesty's Stationary Office [HMSO]. (1994). England Department of Health Nutritional. Aspects of cardiovascular disease. Report on Health and Social Subjects, 46, 37-46.). However, in this study, the ratio was lower than the recommended ratio, with a value of 0.12 for both genetic groups. Similar PUFA: SFA ratios for cattle have been reported for typical retail beef in Brazil - 0.13, (Valero et al., 2014Valero, M. V., Torrecilhas, J. A., Zawadzki, F., Bonafé, E. G., Madrona, G. S., Prado, R. M., ... Prado, I. N. (2014). Propolis or cashew and castor oils effects on composition of Longissimus muscle of crossbred bulls finished in feedlot. Chilean Journal of Agricultural and Research, 74(4), 445-451.); 0.12 (Rivaroli et al., 2016Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.).

The intramuscular fat of Nellore steers-fed cattle had a more favourable n-6:n-3 fatty acid ratio than that of Angus vs. Nellore bulls (4.37 vs. 11.45, respectively). An increase in the consumption of n-3 fatty acids is recommended (HMSO, 1994Her Majesty's Stationary Office [HMSO]. (1994). England Department of Health Nutritional. Aspects of cardiovascular disease. Report on Health and Social Subjects, 46, 37-46.) to overcome the imbalance in the ratio of n-6:n-3 PUFA in most current diets (4-10:1) compared with the primitive man (1:1) (Eaton, Eaton III, Konner, & Shostak, 1996Eaton, S. B., Eaton III, S. B., Konner, M. J., & Shostak, M. (1996). An evolutionary perspective enhances understanding of human nutritional requirements. The Journal of Nutrition, 126(6), 1732-1740. ). Mitchell, Reed and Rogers (1991Mitchell, G. E., Reed, A. W., & Rogers, S. A. (1991). Influence of feeding regimen on the sensory qualities and fatty acid contents of beef steaks. Journal of Food Science, 56(4), 1102-1103. ) reported that adipose tissues from pasture-based diets had higher concentrations of n-3 PUFA in body tissues, while concentrate-based diets had higher concentrations of n-6 PUFA. These differences are a consequence of the fatty acid composition of the diet, with α-linolenic acid (C18:3, the n-3 series precursor) being the major fatty acid in grass lipids and linoleic acid (C18:2, the n-6 series precursor) being a major component in grains (Manner, Maxwell, & Williams, 1984Manner, W., Maxwell, R. J., & Williams, J. E. (1984). Effects of dietary regimen and tissue site on bovine fatty acid profiles. Journal of Animal Science, 59(1), 109-121. ). Similarly, previous research has found a lower n-6:n-3 PUFA ratio in pasture-fed cattle than in concentrate-fed cattle. Rule, Broughton, Shellito and Maiorano (2002Rule, D. C., Broughton, K. S., Shellito, S. M., & Maiorano, G. (2002). Comparison of muscle fatty acid profiles and cholesterol concentrations of bison, beef cattle, elk, and chicken. Journal of Animal Science, 80(5), 1202-1211. ) reported n-6:n-3 ratios of 1.95 and 6.38 for pasture-fed cows and feedlot steers, respectively, while French et al. (2000French, P., Stanton, C., Lawless, F., O'riordan, E. G., Monahan, F. J., Caffrey, P. J., & Moloney, A. P. (2000). Fatty acid composition, including conjugated linoleic acid, of intramuscular fat from steers offered grazed grass, grass silage, or concentrate-based diets. Journal of Animal Science , 78(11), 2849-2855. ) reported ratios of 2.33 and 4.15 for grass-fed and concentrate-fed steers.

Consumer acceptability

Tenderness, flavour and overall acceptability were higher (p < 0.001) for meats of Nellore steers, regardless of ageing time (1, 4, 7 or 14 days) (Table 6). Thus, for a small population in southern Brazil, the meat of 36-month-old Nellore steers is more highly appreciated than meat of 24-month-old Angus vs. Nellore bulls finished in feedlots.

Likewise, ageing time was a significant factor (p > 0.001) for tenderness, flavour and overall acceptability of meat (Table 6). Meat aged for 14 days was higher valued by the consumers (score above 7.7) while meats aged for 4 and 7 days were intermediate (scores close 7.2); meats not aged were the least valued (score close 6.6). Ageing time influences the development of flavour precursors. Usually, ageing improves meat acceptability before the meat reaches long ageing, which could develop off-flavours (Monsón, Sañudo, & Sierra, 2005Monsón, F., Sañudo, C., & Sierra, I. (2005). Influence of breed and ageing time on the sensory meat quality and consumer acceptability in intensively reared beef. Meat Science , 71(3), 471-479. ).

A clustering analysis was performed to identify different market niches within the population studied (Table 7).

Table 6
Consumer acceptability of meat aged for 1, 4, 7 and 14 days from Nellore steers and Angus vs. Nellore bulls.
Table 7
Clusters of meat aged for 1, 4, 7 and 14 days from Nellore and Angus vs. Nellore bulls.

Four different consumer groups were found in relation to the global acceptance of meat. Cluster 1 covered 17% of the consumers, who preferred meat from Nellore steers. For ageing, the most highly accepted meat was aged for 7 and 14 days, for both genetics groups. This cluster included a similar percentage of men (54%) and women (46%); 59% of whom were between 18 and 34 years old.

The consumers grouped in cluster 2 consisted of 31% of the evaluated population; these consumers did not perceive differences between the genetic groups, but only between ageing time, and preferred longer ageing, mainly meat aged 14 days of Angus vs. Nellore bulls. This cluster included a similar percentage of men (51.2%) and women (48.8%); 80.6% were between 18 and 44 years old.

Cluster 3 was comprised of 9% of the consumers who valued the Zebu meat more highly. Meat of the Angus vs. Nellore bulls was little accepted (2 points), and the preference was rising for all treatments with increasing ageing time. This cluster included a similar percentage of men (50.0%) and women (55.5%); 80.6% were between 35 and 54 years of age.

Cluster 4 grouped the largest number of consumers (43%) who highly values the two meat types, giving scores above 8 points, but meat from Zebu cattle was still preferred one (p < 0.05). In terms of aging, the meat at day 1 obtained the lowest score in both genetic groups. For the Nellore steers, consumers did not differentiate between 4, 7 and 14 d of aging in terms of general acceptability of the meat. On the other hand, the acceptability of meat from Angus vs. Nellore bulls increased with a longer ageing period. This cluster included a similar percentage of men (49.1%) and women (50.9%), with a heterogeneous age range between 18 and over 65 years.

Figure 1 shows the results of the analysis of principal components. Only one main component axis (PC) explained 97.5% of the total variation. The attributes aroma, flavour, softness and general acceptance are on the right side of F1, located near the graph for treatments with longer aging periods. Angus vs. Nellore meats aged for 1 day and for up to 7 days and Nellore meats aged for 1 day are placed on the left side of F1, inversely related to acceptability attributes.

Figure 1
Principal component analysis of the scores for tenderness, flavor and overall acceptability of meat aged for 1, 4, 7 and 14 days from Nellore steers and Angus vs. Nellore bulls.

Conclusion

Nellore cattle are slaughtered at a higher age (36 months) than crossbred Zebu x European bulls (20 months). Therefore, slaughter weight and carcass weight as well as carcass characteristics highly correlated with slaughter weight are expected to be higher for Nellore animals. On the other hand, the breed of the animal had little influence on meat water, colour and lipid oxidation, but the meat of Nellore bulls obtained a higher instrumental value (i.e. WBSF value) for tenderness. Also, the composition of the main fatty acids (essential) was superior in the meat of Nellore steers. Likewise, in the sensorial evaluation by consumers of southern Brazil, the meat of Nellore bulls and that aged for 14 days received the highest scores.

Acknowledgements

This project was supported by the Araucaria Foundation from funds of the Paraná State, Brazil, and by the Brazilian Council for Research and Technological Development (CNPq). The authors would like to thank Maria Macia (Campo Mourão, Paraná) for providing the meat used in this research. Trade names or commercial products in this publication are only mentioned to provide specific information and do not imply any recommendations or endorsements by the Department of Animal Science, State University of Maringá, Maringá, Paraná, Brazil.

References

  • Aberle, E. D., Reeves, E. S., Judge, M. D., Hunsley, R. E., & Perry, T. W. (1981). Palatability and muscle characteristics of cattle with controlled weight gain: time on a high energy diet. Journal of Animal Science, 52(4), 757-763.
  • Aharoni, Y., Orlov, A., & Brosh, A. (2004). Effects of high-forage content and oilseed supplementation of fattening diets on conjugated linoleic acid (CLA) and trans fatty acids profiles of beef lipid fractions. Animal Feed Science and Technology, 117(1-2), 43-60.
  • Boles, J. A., & Swan, J. E. (2002). Processing and sensory characteristics of cooked roast beef: effect of breed, age, gender and storage conditions. Meat Science, 62(4), 419-427.
  • Brown, H. G., Melton, S. L., Riemann, M. J., & Backus, W. R. (1979). Effects of energy intake and feed source on chemical changes and flavor of ground beef during frozen storage. Journal of Animal Science , 48(2), 338-347.
  • Burson, D. E., & Hunt, M. C. (1986). Heat-induced changes in the proportion of types I and III collagen in bovine longissimus dorsi. Meat Science , 17(2), 153-160.
  • Campo, M. M., Nute, G. R., Hughes, S. I., Enser, M., Wood, J. D., & Richardson, R. I. (2006). Flavour perception of oxidation in beef. Meat Science , 72(2), 303-311.
  • Christensen, M., Ertbjerg, P., Failla, S., Sañudo, C., Richardson, R. I., Nute, G. R., ... Williams, J. L. (2011). Relationship between collagen characteristics, lipid content and raw and cooked texture of meat from young bulls of fifteen European breeds. Meat Science , 87(1), 61-65.
  • Council for International Organizations of Medical Services [CIOMS]. (1985). International Guiding Principles for Biomedical Research Involving Animals Geneva, SW: WHO.
  • Cruz, O. T. B., Valero, M. V., Zawadzki, F., Rivaroli, D. C., Prado, R. M., Lima, B. S., & Prado, I. N. (2014). Effect of glycerine and essential oils (Anacardium occidentale and Ricinus communis) on animal performance, feed efficiency and carcass characteristics of crossbred bulls finished in a feedlot system. ItalianJournal of Animal Science , 13(4), 790-797.
  • Eaton, S. B., Eaton III, S. B., Konner, M. J., & Shostak, M. (1996). An evolutionary perspective enhances understanding of human nutritional requirements. The Journal of Nutrition, 126(6), 1732-1740.
  • Eiras, C. E., Ornaghi, M. G., Valero, M. V., Rivaroli, D. C., Guerrero, A., & Prado, I. N. (2016). How does the dietary cottonseed hull affect the carcass characteristics and meat quality of young bulls finished in a high-concentrate diet? Acta Scientiarum. Animal Sciences, 38(3), 301-310.
  • Eiras, C. E., Marques, J. A., Prado, R. M., Valero, M. V., Bonafé, E. G., Zawadzki, F., ... Prado, I. N. (2014). Glycerin levels in the diets of crossbred bulls finished in feedlot: Carcass characteristics and meat quality. Meat Science , 96(2), 930-936.
  • El-Memari, A. C., Zeoula Neto, L. M., Cecato, U., Prado, I. N., Caldas Neto, S. F., Kazama, R., & Oliveira, F. C. L. (2003). Suplementação de novilhos nelore em pastejo de Brachiaria brizantha com diferentes níveis e fontes de concentrado. Revista Brasileira de Zootecnia, 32(6 suppl. 2), 1945-1955.
  • Ferraz, J. B. S., & Felício, P. E. (2010). Production systems. An example from Brazil. Meat Science , 84(2), 238-243.
  • Font-i-Furnols, M., Gispert, M., Guerrero, L., Velarde, A., Tibau, J., Soler, J., ... Oliver, M. A. (2008). Consumers’ sensory acceptability of pork from immunocastrated male pigs. Meat Science , 80(4), 1013-1018.
  • Françozo, M. C., Prado, I. N., Cecato, U., Valero, M. V., Zawadzki, F., Ribeiro, O. L., ... Visentainer, J. V. (2013). Growth performance, carcass characteristics and meat quality of finishing bulls fed crude glycerin-supplemented diets. Brazilian Archives of Biology and Technology, 56(2), 327-336.
  • French, P., Stanton, C., Lawless, F., O'riordan, E. G., Monahan, F. J., Caffrey, P. J., & Moloney, A. P. (2000). Fatty acid composition, including conjugated linoleic acid, of intramuscular fat from steers offered grazed grass, grass silage, or concentrate-based diets. Journal of Animal Science , 78(11), 2849-2855.
  • Guerrero, A., Muela, E., Valero, M. V., Prado, I. N., Campo, M. M., Olleta, J. L., ... Sañudo, C. (2016). Effect of the type of dietary fat when added as an energy source on animal performance, carcass characteristics and meat quality of intensively reared Friesian steers. Animal Production Science, 56(7), 1144-1151.
  • Her Majesty's Stationary Office [HMSO]. (1994). England Department of Health Nutritional. Aspects of cardiovascular disease. Report on Health and Social Subjects, 46, 37-46.
  • Hocquette, J. F. (2010). Endocrine and metabolic regulation of muscle growth and body composition in cattle. Animal, 4(11), 1797-1809.
  • Hocquette, J. F., Richardson, R. I., Prache, S., Medale, F., Duffy, G., & Scollan, N. D. (2005). The future trends for research on quality and safety of animal products. Italian Journal of Animal Science, 4(suppl. 3), 49-72.
  • Honikel, K. O. (1998). Reference methods for the assessment of physical characteristics of meat. Meat Science, 49(4), 447-457.
  • Huff-Lonergan, E., & Lonergan, S. M. (2005). Mechanisms of water-holding capacity of meat: The role of postmortem biochemical and structural changes. Meat Science , 71(1), 194-204.
  • Jiménez-Colmenero, F., Carballo, J., & Cofrades, S. (2001). Healthier meat and meat products: their role as functional foods. Meat Science, 59(1), 5-13.
  • Lepetit, J. (2008). Collagen contribution to meat toughness: Theoretical aspects. Meat Science , 80(4), 960-967.
  • Maggioni, D., Marques, J. A., Rotta, P. P., Perotto, D., Ducatti, T., Visentainer, J. V., & Prado, I. N. (2010). Animal performance and meat quality of crossbred young bulls. Livestock Science, 127(2), 176-182.
  • Mancini, R. A., & Hunt, M. C. (2005). Current research in meat color. Meat Science , 71(1), 100-121.
  • Manner, W., Maxwell, R. J., & Williams, J. E. (1984). Effects of dietary regimen and tissue site on bovine fatty acid profiles. Journal of Animal Science, 59(1), 109-121.
  • McKenna, D. R., Mies, P. D., Baird, B. E., Pfeiffer, K. D., Ellebracht, J. W., & Savell, J. W. (2005). Biochemical and physical factors affecting discoloration characteristics of 19 bovine muscles. Meat Science , 70(4), 665-682.
  • Mitchell, G. E., Reed, A. W., & Rogers, S. A. (1991). Influence of feeding regimen on the sensory qualities and fatty acid contents of beef steaks. Journal of Food Science, 56(4), 1102-1103.
  • Monsón, F., Sañudo, C., & Sierra, I. (2005). Influence of breed and ageing time on the sensory meat quality and consumer acceptability in intensively reared beef. Meat Science , 71(3), 471-479.
  • Moreira, F. B., Mizubuti, I. Y., Prado, I. N., Matsushita, M., Matsubara, M. T., & Dognani, R. (2008). Protein and mineral supplementation for calves grazing a Mombaça pasture during the winter. Semina: Ciências Agrárias, 29(1), 203-210.
  • Ngapo, T. M., Riendeau, L., Laberge, C., & Fortin, J. (2013). Marbling and ageing - Part 2. Consumer perception of sensory quality. Food Research International, 51(2), 985-991.
  • O'Connor, S. F., Tatum, J. D., Wulf, D. M., Green, R. D., & Smith, G. C. (1997). Genetic effects on beef tenderness in Bos indicus composite and Bos taurus cattle. Journal of Animal Science, 75(7), 1822-1830.
  • Pfalzgraf, A., Frigg, M., & Steinhart, H. (1995). Alpha tocopherol contents and lipid oxidation in pork muscle and adipose tissue during storage. Journal of Agricultural and Food Chemistry, 43(5), 1339-1342.
  • Prado, I. N., Maggioni, D., Abrahão, J. J. S., Valero, M. V., Prado, R. M., & Souza, N. E. (2012). Meat quality of crossbred bulls fed with sorghum silage or sugar cane and slaughtered at two levels of fat thickness. Acta Scientiarum. Technology, 34(3), 337-344.
  • Prado, I. N., Campo, M. M., Muela, E., Valero, M. V., Catalan, O., Olleta, J. L., & Sañudo, C. (2015). Effects of castration age, protein level and lysine/methionine ratio in the diet on colour, lipid oxidation and meat acceptability of intensively reared Friesian steers. Animal , 9(8), 1423-1430.
  • Prado, I. N., Cruz, O. T. B., Valero, M. V., Zawadzki, F., Eiras, C. E., Rivaroli, D. C., ... Visentainer, J. V. (2016). Effects of glycerin and essential oils (Anacardium occidentale and Ricinus communis) on the meat quality of crossbred bulls finished in a feedlot. Animal Science Production, 56(12), 2105-2114.
  • Prado, I. N., Oliveira, A. N., Rotta, P. P., Perotto, D., Prado, R. M., Silva, R. R., ... Moletta, J. L. (2009). Chemical and fatty acid composition of Longissimus muscle of crossbred bulls finished in feedlot. Asian-Australasian Journal of Animal Sciences, 22(7), 1054-1059.
  • Prado, J. M., Prado, I. N., Visentainer, J. V., Rotta, P. P., Perotto, D., Moletta, J. L., ... Ducatti, T. (2009). The effect of breed on the chemical composition and fatty acid profile of the Longissimus dorsi muscle of Brazilian beef cattle. Journal of Animal and Feed Sciences, 18(2), 231-240.
  • Realini, C. E., Duckett, S. K., Brito, G. W., Dalla Rizza, M., & Mattos, D. (2004). Effect of pasture vs. concentrate feeding with or without antioxidants on carcass characteristics, fatty acid composition, and quality of Uruguayan beef. Meat Science , 66(3), 567-577.
  • Reddy, B. V., Sivakumar, A., Jeong, D. W., Woo, Y. B., Park, S. J., Lee, S. Y., ... Hwng, G. I. (2015). Beef quality traits of heifer in comparison with steer, bull and cow at various feeding environments. Animal Science Journal, 86(1), 1-16.
  • Renerre, M. (1981). La couleur de la viande et sa mesure: viande fraiche. Bulletin Technique, 1, 47-54.
  • Rivaroli, D. C., Guerrero, A., Valero, M. M., Zawadzki, F., Eiras, C. E., Campo, M. M., ... Prado, I. N. (2016). Effect of essential oils on meat and fat qualities of crossbred young bulls finished in feedlots. Meat Science , 121, 278-284.
  • Robelin, J., & Geay, Y. (1975). Estimation de la composition de la carcasse des taurillons a partir de la 6ème côte. Bulletin Technique . Centre de Recherches Zootechniques et Veterinaires de Theix, 22(1), 41-44.
  • Rotta, P. P., Prado, R. M., Prado, I. N., Valero, M. V., Visentainer, J. V., & Silva, R. R. (2009). The effects of genetic groups, nutrition, finishing systems and gender of Brazilian cattle on carcass characteristics and beef composition and appearance: a review. Asian-Australasian Journal of Animal Sciences, 22(12), 1718-1734.
  • Rule, D. C., Broughton, K. S., Shellito, S. M., & Maiorano, G. (2002). Comparison of muscle fatty acid profiles and cholesterol concentrations of bison, beef cattle, elk, and chicken. Journal of Animal Science, 80(5), 1202-1211.
  • Shackelford, S. D., Wheeler, T. L., & Koohmaraie, M. (1997). Tenderness classification of beef: I. Evaluation of beef longissimus shear force at 1 or 2 days postmortem as a predictor of aged beef tenderness. Journal of Animal Science, 75(9), 2417-2422.
  • Silva, R. R., Prado, I. N., Carvalho, G. G. P., Silva, F. F., Almeida, V. V. S., Santana Júnior, H. A., ... Abreu Filho, G. (2010). Níveis de suplementação na terminação de novilhos Nelore em pastagens: aspectos econômicos. Revista Brasileira de Zootecnia , 39(9), 2091-2097.
  • Valero, M. V., Torrecilhas, J. A., Zawadzki, F., Bonafé, E. G., Madrona, G. S., Prado, R. M., ... Prado, I. N. (2014). Propolis or cashew and castor oils effects on composition of Longissimus muscle of crossbred bulls finished in feedlot. Chilean Journal of Agricultural and Research, 74(4), 445-451.
  • Yang, A., Lanari, M. C., Brewster, M., & Tume, R. K. (2002). Lipid stability and meat colour of beef from pasture- and grain-fed cattle with or without vitamin E supplement. Meat Science , 60(1), 41-50.
  • Zawadzki, F., Prado, I. N., Marques, J. A., Zeoula, L. M., Rotta, P. P., Sestari, B. B., ... Rivaroli, D. C. (2011). Sodium monensin or propolis extract in the diets of feedlot-finished bulls: effects on animal performance and carcass characteristics. Journal of Animal and Feed Sciences, 20(1), 16-25.

Publication Dates

  • Publication in this collection
    Dec 2017

History

  • Received
    15 Apr 2017
  • Accepted
    10 May 2017
Editora da Universidade Estadual de Maringá - EDUEM Av. Colombo, 5790, bloco 40, CEP 87020-900 , Tel. (55 44) 3011-4253, Fax (55 44) 3011-1392 - Maringá - PR - Brazil
E-mail: actaanim@uem.br