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Sources of carbohydrates in the ingestive behavior of feedlot steers

Abstract

In this article we research the influence of different sources of carbohydrates (corn, soybean hulls or wheat bran) upon the digestive behavior of 24 confined castrated steers with an initial average age and weight of 20 months and 330 kg born from the cross between Charolais and Nellore. The diet was composed of 40% sorghum silage and 60% concentrate. The time spent on total ruminating (an average of 454.6 min/day) was not influenced by the source of carbohydrate. The animals from the wheat bran treatment spent less time idle (718 min) in relation to those on the corn and soybean hulls treatments, which did not differ between themselves (an average of 792 min/day). The steers from the wheat bran treatment remained less time feeding (184 min/day) compared with those fed the other treatments, whose average time of permanence in this activity was 214 minutes per day. The other studied variables did not present a significant difference between the treatments. Inclusion of wheat bran in the diet of the confined steers results in less spent time idle, while steers feeding on soybean hulls spend less time feeding. The use of corn, soybean hulls, or wheat bran in the diet of the confined steers does not affect the total cudding time.

confinement; feeding; idleness; soybean hull; wheat bran


Introduction

The quality of food and the manner in which it is offered to animals are some of the most impacting factors on an animal reproduction system, as they can lead to the success or failure of their productive response. Through observations of the digestive behavior, it is possible to obtain information that helps understand the biological and physiological mechanisms that occur with variation in the feed intake and feed efficiency of animals, thereby indicating breeding systems less aggressive to the ecosystem and that contribute to the health and wellness of calves (Epps, 2002Epps, S. 2002. The social behavior of beef cattle. Student Research Summary, ANSC 406. Department of Animal Science, Texas A&M University, College Station.; Nkrumah et al., 2007Nkrumah, J. D.; Crews Jr., D. H.; Basarab, J. A.; Price, M. A.; Okine, E. K.; Wang, Z.; Li, C. and Moore, S. S. 2007. Genetic and phenotypic relationships of feeding behavior and temperament with performance, feed efficiency, ultrasound, and carcass merit of beef cattle. Journal of Animal Science 85:2382-2390.; Durunna et al., 2011Durunna, O. N.; Wang, Z.; Basarab, J. A.; Okine, E. K. and Moore, S. S. 2011. Phenotypic and genetic relationships among feeding behavior traits, feed intake, and residual feed intake in steers fed grower and finisher diets. Journal of Animal Science 89:3401-3409.).

The main source of carbohydrates in the diet of finishing cattle is composed of cereal grains (especially corn). However, because of its wide use in human and monogastric animals feeding, corn is economically impractical (Zambon et al., 2001Zambon, M. A.; Santos, G. T.; Modesto, E. C.; Alcalde, C. R.; Gonçalves, G. D.; Silva, D. C.; Silva, K. T. and Faustino, J. O. 2001. Valor nutricional da casca do grão de soja, farelo de soja, milho moído e farelo de trigo para bovinos. Acta Scientiarum 23:937-943.). In these situations the use of by-products that are highly available and have a low commercial cost is an alternative that can cover the cost of finishing cattle. Wheat bran is the preferred by-product because of its good palatability and nutritional composition, having approximately 16% CP, 44% NDF, and 72% TDN (Valadares Filho et al., 2010Valadares Filho, S. C.; Machado, P. A. S.; Chizzotti, M. L.; Amaral, H. F.; Magalhães, C. A.; Rocha Junior, V. R. and Capelle, E. R. 2010. Tabelas brasileiras de composição de alimentos para bovinos. CQBAL 3.0. 3.ed. Universidade Federal de Viçosa, Viçosa, MG.).

Based on the forgoing, it is possible to understand the relevance of research that investigates the relationship between the type of feed and the physiological activities and welfare of cattle. Therefore, the objective of this study was to evaluate the influence of different sources of dietary carbohydrates on the feeding behavior of feedlot steers.

Material and Methods

Twenty-four Charolais × Nellore crossbred steers were distributed into three treatments in which the carbohydrate source in the concentrate diet was milled corn grain, soybean hulls, or wheat bran (Table 1), totaling eight animals per treatment.

Table 1
Participation of the ingredients and nutritional composition of the experimental diets (g/kg of dry matter)

The animals were fed daily and the diet was divided into two meals, supplied at 08.00 h and 14.00 h, in which the concentrate portion was mixed with the sorghum silage at the time of feeding. The steers remained confined in covered and paved individual stalls of 12 m2, having an adaptation period of 16 days and a total experimental period of 57 days. Diets were composed of 40.2% forage (sorghum) and 59.8% concentrate, calculated according to NRC (2000)NRC - National Research Council. 2000. Nutrient requirements of beef cattle. 7th ed. National Academy Press, Washington, DC.. Samples of all the ingredients of the diet as well as orts were collected to be analyzed in laboratory.

Further information related to the methodology of chemical composition (utilized in this research) is shown by Freitas et al. (2013)Freitas, L. S.; Silva, J. H. S.; Segabinazzi, L. R.; Alves Filho, D. C.; Pizzuti, L. A. D.; Silva, V. S. and Rodrigues, L. S. 2013. Performance of finishing steers fed different sources of carbohydrates. Revista Brasileira de Zootecnia 42:354-362..

The data of the digestive behavior was collected in four full periods of 24 hours (on the 10th, 18th, 29th, and 42nd days of the experimental period), in which the time spent feeding, ruminating (standing and lying) and idle (standing and lying) were recorded every five minutes. The number of rumination chews per cud and the time of rumination chews per cud were obtained using a digital stopwatch, presenting an average of 15 observations per animal in each evaluation period.

The variables feeding, rumination, and idle times and other activities were obtained by filling the individual feeders, with the observers recording the activity corresponding to the animal every five minutes, in accordance with the methodology described by Burguer et al. (2000)Bürger, P. J.; Pereira, J. C.; Queiroz, A. C.; Silva, J. F. C.; Valadares Filho, S. C.; Cecon, P. R. and Casali, A. D. P. 2000. Comportamento ingestivo em bezerros holandeses alimentados com dietas contendo diferentes níveis de concentrado. Revista Brasileira de Zootecnia 29:236-242. and Polli et al. (1995)Polli, V. A.; Restle, J. and Senna, D. B. 1995. Comportamento de bovinos e bubalinos em regime de confinamento. I. Atividades. Ciência Rural 25:127-131.. The time spent at the drinking trough and interactions with the infrastructure or other animals is considered as other activities. A minimum time of ten consecutive minutes of permanence in each activity was used to calculate the number of meals, rumination periods and idle periods. During the experimental period of these activities, the infrastructure was maintained with artificial light at night to avoid different behavior from the steers on evaluation days.

The experiment set in a completely randomized design. The data were subjected to variance analysis through the PROC MIXED procedure (using the covariance structures) from the respective variable, which presented a lower AIC value. When significant differences were detected, means were compared using the DMS test and the result was α = 0.05. The mathematical method used was: Yij(k)= µ + αi + εij(k) , in which Yij(k) = dependent variable; µ = average of all the observations; αi = diet (i-th treatment with milled corn grain; soybean hulls, or wheat bran); and εij(k) = random residual error, NID (0, σ2). The normality of the data was tested using the Kolmogorov-Smirnov test and the SAS (Statistical Analysis System, version 9.2) software was used for the statistical procedures.

Results

The times spent feeding, idling, idling standing or lying, ruminating, ruminating standing or lying, and on other activities were influenced (P<0.05) by the sources of carbohydrates (Table 2). The steers fed wheat bran remained less time in total idleness (718 min/day) compared with those treated with soybean hulls and corn grains, the two of which did not differ (792 min/day).

Table 2
Behavioral activities of steers fed different sources of carbohydrates

The results obtained for total idleness (corn grain and soybean hulls, 792 min/day; wheat bran, 441 min/day), idle standing (191 min/day), idle lying (corn grain, 557; soybean hulls, 431 min/day; wheat bran, 468 min/day), total rumination (454 min/day), rumination standing (49 min/day) and rumination lying (corn grain and soybean, 404 min/day; wheat bran, 441 min/day) corroborate the studies that adopted a similar roughage:concentrate ratio to that used herein (Souza et al., 2007Souza, S. R. M. B. O.; Ítavo, L. C. V.; Rímoli, J.; Ítalo, C. C. B. F. and Dias, A. M. 2007. Comportamento ingestivo diurno de bovinos em confinamento e em pastagens. Archivos de Zootecnia 56:67-70.; Missio et al., 2010Missio, R. L.; Brondani, I. L.; Alves Filho, D. C., Silveira, M. F.; Freitas, L. S. and Restle, J. 2010. Comportamento ingestivo de tourinhos terminados em confinamento, alimentados com diferentes níveis de concentrado na dieta. Revista Brasileira de Zootecnia 39:1571-1578.). The steers spent, on average, 67% of the idle and on 90% of the rumination times lying, and the animals fed wheat bran spent less time lying idle (468 min/day) compared with those on the corn treatment (557 min/day), both of which did not differ from those receiving soybean hulls (531 min/day). The steers fed wheat bran also remained longer ruminating while lying (441 min/day) compared with those fed corn and soybean hulls (404 min/day).

The variables number of daily chews, number of chews per cud and rumination time per cud (Table 3) did not present least significant differences amongst the treatments, averaging 27,479; 57; and 0.94, respectively.

Table 3
Activities spent on rumination time of steers fed different sources of carbohydrates

The number of daily meals observed in the present study, 8.2 periods per day (Table 4), may be related to the roughage:concentrate ratio used in all studied diets.

Table 4
Number and time spent per period of meal, period of rumination and idleness of steers fed different sources of carbohydrates

Two well-defined peaks of feeding could be observed during the day (Figure 1); such peaks coincide with the time in which feed was supplied (08.00 and 14.00 h). The presence of animals at the feeder during the night was lower than 25% decreasing from 19.00 h, and this behavior was observed in the animals of all treatments.

Figure 1
Presence of the animals at the feeder (%), during the 24 hours of evaluation, according to treatment.

Discussion

Feeding is an activity that is strictly related to the physical characteristics of the diet, the feeling of fulfillment, physiological factors that include hunger control and satiety through the hypothalamic region of the brain, and psychogenic factors such as the palatability of the food and environmental factors such as temperature and stress (Dougherty and Collins, 2003Dougherty, C. T. and Collins, M. 2003. Forage utilization. p.391-414. In: Forages: An introduction to grassland agriculture. 6th ed. Barnes, R. F.; Miller, D. A. and Nelson, C. J., eds. Iowa State University, Ames.). Based on the nutritional composition of the diet (Table 1), it can be inferred that the shortest feeding time being with the soybean hull diet (184 min/day) can be related to the cell-wall composition of this ingredient, which is rich in pectin. This structural carbohydrate is highly rumen-degradable, so it is classified as a fiber, which rapidly ferments without diminishing the concentration of acetate from the rumination, responsible for the size and number of meals (Ipharraguerre and Clark, 2003Ipharraguerre, I. R. and Clark, J. H. 2003. Review: soyhulls for dairy cows. Journal of Dairy Science 86:1052-1073.).

According to the studies of Albright (1993)Albright, J. L. 1993. Nutrition, feeding and calves. Feeding behavior of dairy cattle. Journal of Dairy Science 76:485-498., Deswysen et al. (1993)Deswysen, A. G.; Dutilleul, P.; Godfrin, J. P. and Ellis, W. C. 1993. Nycterohemeral eating and ruminating pattern in heiffers fed grass or corn silagem: analysis by finite fourier transform. Journal of Animal Science 71:2739-2747. and Fischer et al. (1997)Fisher, V.; Deswysen, A. G.; Dèspres, L.; Dutilleul, P. and Lobato, J. F. P. 1997. Comportamento ingestivo de ovinos recebendo dieta à base de feno, durante um período de seis meses. Revista Brasileira de Zootecnia 26:1032-1038., idle time and rumination time in animals are inversely proportional, which can be observed in the present data (Table 2). Some authors suggest that an animal remaining in a standing position or lying down can be an indicator of welfare, thermal comfort, and adaptability to the environment and management. The presented data also supports Brscic et al. (2007)Bürger, P. J.; Pereira, J. C.; Queiroz, A. C.; Silva, J. F. C.; Valadares Filho, S. C.; Cecon, P. R. and Casali, A. D. P. 2000. Comportamento ingestivo em bezerros holandeses alimentados com dietas contendo diferentes níveis de concentrado. Revista Brasileira de Zootecnia 29:236-242., who worked with confined steers and reported an average idling time of 798 min/day.

The average time spent with the total rumination (454 min/day) is similar to the 472 and 467 min/day stated by Silva et al. (2005)Silva, R. R.; Silva, F. F.; Carvalho, G. G. P.; Franco, I. L.; Veloso, C. M.; Chaves, M. A.; Bonomo, P.; Prado, I. N. and Almeida, V. S. 2005. Comportamento ingestivo de novilhas mestiças de holandês x zebu confinadas. Archivos de Zootecnia 54:75-85. and Salla et al. (2003)Salla, L. E.; Fischer, V.; Ferreira, E. X.; Moreno, C. B.; Stumpf Junior, W. and Duarte, L. D. 2003. Comportamento ingestivo de vacas Jersey alimentadas com dietas contendo diferentes fontes de gordura nos primeiros 100 dias de lactação. Revista Brasileira de Zootecnia 32:683-689., respectively. These authors attributed the variation in the duration and distribution of the intake and rumination activities to the supply of the energy requirements met, rumen filling and the type of feed that composes the diet (Abijaoudé et al., 2000Abijaoudé, J. A.; Morand-Fehr, P.; Tessier, J.; Schmidely, P. and Sauvant, D. 2000. Diet effect on the daily feeding behaviour, frequency and characteristics of meals in dairy goats. Livestock Production Science 64:29-37.), especially an increase in dietary fiber, stimulating the rumination activity (Mertens, 1997Mertens, D. R. 1997. Creating a system for meeting the fiber requirements of dairy cows. Journal of Dairy Science 80:1463-1481.). However, this behavior was not seen in the present study. Missio et al. (2010)Missio, R. L.; Brondani, I. L.; Alves Filho, D. C., Silveira, M. F.; Freitas, L. S. and Restle, J. 2010. Comportamento ingestivo de tourinhos terminados em confinamento, alimentados com diferentes níveis de concentrado na dieta. Revista Brasileira de Zootecnia 39:1571-1578., studying the behavior of bulls fed diets containing growing levels of concentrated feed (22, 40, 59, and 79%), verified a reduction in lying down and total rumination time, and attributed this result to the decrease in neutral detergent fiber (NDF) intake. Some research results have suggested that the rumen pH and the volatile fatty acids acetate/propionate ratio in the rumen can increase the time of permanence of the animals in rumination, as it is a physiological reflex of the animals in an attempt to produce more saliva, stabilizing the rumen pH (Mialom et al., 2008Mialom, M. M.; Martin, C.; Garcia, F.; Menassol, J. B.; Dubroeueq, H.; Veissier, I. and Micol, D. 2008. Effects of the forage-to-concentrate ratio of the diet on feeding behaviour in young Blond d'Aquitaine bulls. Journal Animal 2:1682-1691.). The fact that there was no difference in the rumination time can also be related to the stability of the rumen pH because of the offered diets.

Some arguments presented by Saenz (2006)Saenz, E. A. C. 2006. Modelagem da redução do tamanho de partículas na alimentação de ruminantes. Ciência e Agrotecnologia 29:886-893. refer to facts that could alter these activities, among which the chemical composition of the food and its particle size are remarkable for having a great effect on the chewing activities, as 80% of the total breaking of food take place in this activity. The diets offered to the animals in the present study were very similar regarding their particle size, as the corn grain was ground to compose the concentrate fraction.

Animals that consume larger quantities of food may ruminate fewer cuds and spend less time chewing per cud (Fischer et al., 1997Fisher, V.; Deswysen, A. G.; Dèspres, L.; Dutilleul, P. and Lobato, J. F. P. 1997. Comportamento ingestivo de ovinos recebendo dieta à base de feno, durante um período de seis meses. Revista Brasileira de Zootecnia 26:1032-1038.). According to the data presented by Freitas et al. (2013)Freitas, L. S.; Silva, J. H. S.; Segabinazzi, L. R.; Alves Filho, D. C.; Pizzuti, L. A. D.; Silva, V. S. and Rodrigues, L. S. 2013. Performance of finishing steers fed different sources of carbohydrates. Revista Brasileira de Zootecnia 42:354-362., no difference in the dry matter intake was observed in their experiment, which could have contributed to the similarity of these variables.

Mialom et al. (2008)Mialom, M. M.; Martin, C.; Garcia, F.; Menassol, J. B.; Dubroeueq, H.; Veissier, I. and Micol, D. 2008. Effects of the forage-to-concentrate ratio of the diet on feeding behaviour in young Blond d'Aquitaine bulls. Journal Animal 2:1682-1691. evaluated three roughage:concentrate ratios in the diets (8:92; 44:56 and 57:43) and verified that the animals had an average of 12, 11 and 14 daily meals, respectively. The same authors suggest that the animals have a tendency to fractionate their meals when the diet interferes with the stability of the rumen pH. The times spent per meal in the present study were 27, 25 and 27 min/meal for the corn-grain, soybean-hulls and wheat-bran diets, respectively.

Luginbuhl et al. (2000)Luginbuhl, J. M.; Pond, K. R.; Burns, J. C. and Fisher, D. S. 2000. Intake and chewing behavior of steers consuming switchgrass preserved as hay or silage. Journal of Animal Science 78:1983-1989. observed 6.6 and 7.9 meals/day with an average duration of 53.2 and 42.1 min/meal, while the rumination periods were 1.8 and 13.5 per day, lasting 42.9 and 41.7 min/period for steers fed hay and silage, respectively. Salla et al. (2003)Salla, L. E.; Fischer, V.; Ferreira, E. X.; Moreno, C. B.; Stumpf Junior, W. and Duarte, L. D. 2003. Comportamento ingestivo de vacas Jersey alimentadas com dietas contendo diferentes fontes de gordura nos primeiros 100 dias de lactação. Revista Brasileira de Zootecnia 32:683-689. fed different sources of fat to Jersey cows in lactation and obtained an average of 14.7 feeding periods, 15.6 rumination periods and 22.5 idle periods per day. The results of time per feeding, rumination and idle periods of the current study are close to the 31.9, 31.8, and 37.3 min/period found by Silva et al. (2005)Silva, R. R.; Silva, F. F.; Carvalho, G. G. P.; Franco, I. L.; Veloso, C. M.; Chaves, M. A.; Bonomo, P.; Prado, I. N. and Almeida, V. S. 2005. Comportamento ingestivo de novilhas mestiças de holandês x zebu confinadas. Archivos de Zootecnia 54:75-85., who worked with an inclusion of 10% cassava bagasse in the diet of 3/4 Dutch × Zebu steers.

As can be observed in Figure 1, animals reared in intensive systems tend to condition their feeding time to the times the feed is supplied (Cozzi et al., 2005Cozzi, G. and Gottardo, F. 2005. Feeding behaviour and diet selection of finishing Limousin bulls under intensive rearing system. Applied Animal Behaviour Science 91:181-192.; Abijaoudé et al., 2000Abijaoudé, J. A.; Morand-Fehr, P.; Tessier, J.; Schmidely, P. and Sauvant, D. 2000. Diet effect on the daily feeding behaviour, frequency and characteristics of meals in dairy goats. Livestock Production Science 64:29-37.). According to Epps (2002)Epps, S. 2002. The social behavior of beef cattle. Student Research Summary, ANSC 406. Department of Animal Science, Texas A&M University, College Station., cattle are animals of twilight habit; that is, they are more active at nightfall and at dawn, which are the times when they present their peaks of feeding. Like sheep and goat, cattle can also adequate their feeding behavior according to type, availability, and chemical characteristics of the feed in order to meet their needs (Goetsch et al., 2009Goetsch, A. L.; Gipson, T. A.; Askar, A. R. and Puchala, R. 2009. Invited review: Feeding behavior of goats. Journal of Animal Science 88:361-373.).

In view of the nutritional composition of the diet (Table 1), it can be concluded that the NDF content could have temporarily limited the intake, causing the animals to fractionate their meals. The diet with wheat bran presented 607.4 g/kg of NDF dry matter, while the diet with soybean hulls presented 510.2 g/kg of dry matter; however, the energy density of the former was lower (670.7 versus 646.8 g/kg of TDN dry matter, respectively). This can be attributed to the inherent differences of the chemical composition and digestibility between these ingredients. In diets with high NDF and low energy content, animals have the tendency to raise their dry matter intake until the energy requirement is met. However, a physical limit of 12 g/kg of body weight to the rumen fill can be observed (Mertens, 1994Mertens, D. R. 1994. Regulation of forage intake. p.450-493. In: Forage quality, evaluation and utilization. Fahey Jr., G. C., ed. American Society of Agronomy, Madison.).

Conclusions

The inclusion of wheat bran as main source of carbohydrate in the concentrate fraction results in a lower idling time, whereas soybean hulls promote a lower feeding time. However, the use of corn, soybean hulls, or wheat bran in diets for confined steers does not affect their total rumination time.

References

  • Abijaoudé, J. A.; Morand-Fehr, P.; Tessier, J.; Schmidely, P. and Sauvant, D. 2000. Diet effect on the daily feeding behaviour, frequency and characteristics of meals in dairy goats. Livestock Production Science 64:29-37.
  • Albright, J. L. 1993. Nutrition, feeding and calves. Feeding behavior of dairy cattle. Journal of Dairy Science 76:485-498.
  • Brscic, M.; Gottardo, F.; Mazzenga, A. and Cozzi, G. 2007. Behavioural response to different climatic conditions of beef cattle in intensive rearing systems. Agriculture. Available at: <http://hrcak.srce.hr/file/24310>. Accessed on: Dec. 12, 2012.
    » Available at: <http://hrcak.srce.hr/file/24310>
  • Bürger, P. J.; Pereira, J. C.; Queiroz, A. C.; Silva, J. F. C.; Valadares Filho, S. C.; Cecon, P. R. and Casali, A. D. P. 2000. Comportamento ingestivo em bezerros holandeses alimentados com dietas contendo diferentes níveis de concentrado. Revista Brasileira de Zootecnia 29:236-242.
  • Cozzi, G. and Gottardo, F. 2005. Feeding behaviour and diet selection of finishing Limousin bulls under intensive rearing system. Applied Animal Behaviour Science 91:181-192.
  • Deswysen, A. G.; Dutilleul, P.; Godfrin, J. P. and Ellis, W. C. 1993. Nycterohemeral eating and ruminating pattern in heiffers fed grass or corn silagem: analysis by finite fourier transform. Journal of Animal Science 71:2739-2747.
  • Dougherty, C. T. and Collins, M. 2003. Forage utilization. p.391-414. In: Forages: An introduction to grassland agriculture. 6th ed. Barnes, R. F.; Miller, D. A. and Nelson, C. J., eds. Iowa State University, Ames.
  • Durunna, O. N.; Wang, Z.; Basarab, J. A.; Okine, E. K. and Moore, S. S. 2011. Phenotypic and genetic relationships among feeding behavior traits, feed intake, and residual feed intake in steers fed grower and finisher diets. Journal of Animal Science 89:3401-3409.
  • Epps, S. 2002. The social behavior of beef cattle. Student Research Summary, ANSC 406. Department of Animal Science, Texas A&M University, College Station.
  • Fisher, V.; Deswysen, A. G.; Dèspres, L.; Dutilleul, P. and Lobato, J. F. P. 1997. Comportamento ingestivo de ovinos recebendo dieta à base de feno, durante um período de seis meses. Revista Brasileira de Zootecnia 26:1032-1038.
  • Freitas, L. S.; Silva, J. H. S.; Segabinazzi, L. R.; Alves Filho, D. C.; Pizzuti, L. A. D.; Silva, V. S. and Rodrigues, L. S. 2013. Performance of finishing steers fed different sources of carbohydrates. Revista Brasileira de Zootecnia 42:354-362.
  • Goetsch, A. L.; Gipson, T. A.; Askar, A. R. and Puchala, R. 2009. Invited review: Feeding behavior of goats. Journal of Animal Science 88:361-373.
  • Ipharraguerre, I. R. and Clark, J. H. 2003. Review: soyhulls for dairy cows. Journal of Dairy Science 86:1052-1073.
  • Luginbuhl, J. M.; Pond, K. R.; Burns, J. C. and Fisher, D. S. 2000. Intake and chewing behavior of steers consuming switchgrass preserved as hay or silage. Journal of Animal Science 78:1983-1989.
  • Mertens, D. R. 1997. Creating a system for meeting the fiber requirements of dairy cows. Journal of Dairy Science 80:1463-1481.
  • Mertens, D. R. 1994. Regulation of forage intake. p.450-493. In: Forage quality, evaluation and utilization. Fahey Jr., G. C., ed. American Society of Agronomy, Madison.
  • Mialom, M. M.; Martin, C.; Garcia, F.; Menassol, J. B.; Dubroeueq, H.; Veissier, I. and Micol, D. 2008. Effects of the forage-to-concentrate ratio of the diet on feeding behaviour in young Blond d'Aquitaine bulls. Journal Animal 2:1682-1691.
  • Missio, R. L.; Brondani, I. L.; Alves Filho, D. C., Silveira, M. F.; Freitas, L. S. and Restle, J. 2010. Comportamento ingestivo de tourinhos terminados em confinamento, alimentados com diferentes níveis de concentrado na dieta. Revista Brasileira de Zootecnia 39:1571-1578.
  • Nkrumah, J. D.; Crews Jr., D. H.; Basarab, J. A.; Price, M. A.; Okine, E. K.; Wang, Z.; Li, C. and Moore, S. S. 2007. Genetic and phenotypic relationships of feeding behavior and temperament with performance, feed efficiency, ultrasound, and carcass merit of beef cattle. Journal of Animal Science 85:2382-2390.
  • NRC - National Research Council. 2000. Nutrient requirements of beef cattle. 7th ed. National Academy Press, Washington, DC.
  • Polli, V. A.; Restle, J. and Senna, D. B. 1995. Comportamento de bovinos e bubalinos em regime de confinamento. I. Atividades. Ciência Rural 25:127-131.
  • Saenz, E. A. C. 2006. Modelagem da redução do tamanho de partículas na alimentação de ruminantes. Ciência e Agrotecnologia 29:886-893.
  • Salla, L. E.; Fischer, V.; Ferreira, E. X.; Moreno, C. B.; Stumpf Junior, W. and Duarte, L. D. 2003. Comportamento ingestivo de vacas Jersey alimentadas com dietas contendo diferentes fontes de gordura nos primeiros 100 dias de lactação. Revista Brasileira de Zootecnia 32:683-689.
  • Silva, R. R.; Silva, F. F.; Carvalho, G. G. P.; Franco, I. L.; Veloso, C. M.; Chaves, M. A.; Bonomo, P.; Prado, I. N. and Almeida, V. S. 2005. Comportamento ingestivo de novilhas mestiças de holandês x zebu confinadas. Archivos de Zootecnia 54:75-85.
  • Souza, S. R. M. B. O.; Ítavo, L. C. V.; Rímoli, J.; Ítalo, C. C. B. F. and Dias, A. M. 2007. Comportamento ingestivo diurno de bovinos em confinamento e em pastagens. Archivos de Zootecnia 56:67-70.
  • Valadares Filho, S. C.; Machado, P. A. S.; Chizzotti, M. L.; Amaral, H. F.; Magalhães, C. A.; Rocha Junior, V. R. and Capelle, E. R. 2010. Tabelas brasileiras de composição de alimentos para bovinos. CQBAL 3.0. 3.ed. Universidade Federal de Viçosa, Viçosa, MG.
  • Zambon, M. A.; Santos, G. T.; Modesto, E. C.; Alcalde, C. R.; Gonçalves, G. D.; Silva, D. C.; Silva, K. T. and Faustino, J. O. 2001. Valor nutricional da casca do grão de soja, farelo de soja, milho moído e farelo de trigo para bovinos. Acta Scientiarum 23:937-943.

Publication Dates

  • Publication in this collection
    May 2014

History

  • Received
    14 Mar 2013
  • Accepted
    30 Jan 2014
Sociedade Brasileira de Zootecnia Universidade Federal de Viçosa / Departamento de Zootecnia, 36570-900 Viçosa MG Brazil, Tel.: +55 31 3612-4602, +55 31 3612-4612 - Viçosa - MG - Brazil
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