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Effect of different levels of supplementary alpha-amylase in finishing broilers

ABSTRACT.

The objective of this study was to investigate the effects of alpha-amylase supplementation on performance and carcass and cuts yield in broilers during finishing phase (21 to 42 days). A completely randomized experimental design with six treatments and eight replications was used: Positive Control (PC): no enzyme; Negative control (NC): without enzyme formulated with 6.34% less energy (- 6.34% ME); NC1: with 250 g ton-1 of alpha-amylase; NC2: with 500 g ton-1 of alpha-amylase; NC3: with 750 g ton-1 of alpha-amylase; NC4: with 1000 g ton-1 of alpha-amylase. Significant differences in weight gain, feed intake and feed conversion were reported with the inclusion of alpha-amylase. The NC treatment with inclusion of amylase provided improvement values of weight gain, feed conversion and feed intake, but do not was similarly in comparison to those obtained in broilers fed a diet that completely met the requirements during this phase. There was no dietary influence on carcass parameters. The use of alpha-amylase was effective in improving performance in broilers fed a diet of 200 kcal kg-1 of reduced metabolizable energy.

Keywords:
energy reduction; enzyme; performance

Introduction

The current poultry industry has been effective in producing good quality food with high biological value for the consumer. For that reason, alternatives that maximize the use of nutrients in broilers have been sought to meet market demand both in quality and quantity. Energy utilization is largely studied since it directly influences the absorption of the other nutrients and because the main dietary source is corn. This ingredient comprises about 30 to 40% of poultry diets in Brazil. Despite the high nutrient utilization, especially in corn, a great part of these nutrients is not utilized by the birds.

Therefore, it is important to include exogenous enzymes in the diets to allow a better utilization of these nutrients and to maximize the absorption of the remaining nutrients. Based on this, the use of alternatives that maximize energy utilization is a trend that has been diffused among farmers and researchers. Therefore, it is important to include exogenous enzymes in the feeds to allow a better utilization of these nutrients and to maximize the absorption of the remaining nutrients.

The main constituent of the grains used to formulate corn-soybean meal-based diets is starch, which is responsible for the energy content in these diets for monogastric animals, with greater impact on the energy balance. Its digestion is carried out by the action of amylase, which catalyzes the hydrolysis of the starch, resulting in maltoses and dextrins, which are then absorbed. Dietary multienzyme in complete diets can increase nutrient utilization by poultry (Slominski, 2011Slominski, B. A. (2011). Recent advances in research on enzymes for poultry diets. Poultry Science , 90(9), 2013-2023. doi: 10.3382/ps.2011-01372
https://doi.org/10.3382/ps.2011-01372...
). Adeola and Ileleji (2009Adeola, O., & Ileleji, K. E. (2009). Comparison of two diet types in the determination of metabolizable energy content of corn distillers dried grains with solubles for broiler chickens by the regression method. Poultry Science, 88(3), 579-585. doi: 10.3382/ps.2008-00187
https://doi.org/10.3382/ps.2008-00187...
) recently reported that the ME and MEn contents of corn distillers grains (CDG) with soluble in a practical corn-soybean meal-based diet for broiler chickens was determined by the regression method to be 2,904 and 2,787 kcal kg-1 of DM, respectively. We are not aware of data on the energy value of CDG for broiler chickens.

The pancreas of broiler chickens produces amylase, also called pancreatic alpha-amylase, which randomly cleaves the alpha 1-4 glycosidic bonds of amylose to generate maltose and maltotriose or maltose, glucose and dextrin from amylopectin. By including exogenous enzymes in the diets, such as amylase, there is an increase in energy utilization, probably by breaking large amounts of starch during the digestion process, increasing energy digestibility. Woyengo, Patterson, Slominski, Beltranena, and Zijlstra (2016Woyengo, T. A., Patterson, R., Slominski, B. A., Beltranena, E., & Zijlstra, R. T. (2016). Nutritive value of cold-pressed camelina cake with or without supplementation of multi-enzyme in broiler chickens. Poultry Science , 95(10), 2314-2321. doi: 10.3382/ps/pew098
https://doi.org/10.3382/ps/pew098...
), studying the supplementation of rations with an enzymatic complex containing cellulase, pectinase, mannanase, galactanase, xylanase, glucanase, amylase, and protease, verified an increase in the availability of metabolizable energy.

The results of researches on the inclusion of amylases in feeds for broilers are quite variable and depend on some factors such as evaluation, ingredients present in the formulations, concentration of the enzymatic products, age of birds, particle size, growth conditions, amount of resistant starch and the amylose and amylopectin ratio present in the diets (Amerah, Romero, Awati, & Ravindran, 2016Amerah, A. M., Romero, L. F., Awati, A., & Ravindran, V. (2016). Effect of exogenous xylanase, amylase, and protease as single or combined activities on nutrient digestibility and growth performance of broilers fed corn/soy diets. Poultry Science , 96(4), 807-816. doi: 10.3382/ps/pew297
https://doi.org/10.3382/ps/pew297...
; Bedford & Cowieson, 2012Bedford, M. R., & Cowieson, A. J. (2012). Exogenous enzymes and their effects on intestinal microbiology. Animal Feed Science and Technology, 173(1-2), 76-85. doi: 10.1016/j.anifeedsci.2011.12.018
https://doi.org/10.1016/j.anifeedsci.201...
; Yuan et al., 2017Yuan, J., Wang, X., Yin, D., Wang, M., Yin, X., Lei, Z., & Guo, Y. (2017). Effect of different amylases on the utilization of cornstarch in broiler chickens. Poultry Science , 96(5), 1139-1148. doi: 10.3382/ps/pew323
https://doi.org/10.3382/ps/pew323...
).

Although there are some studies with negative results and the various contradictions between the results of the surveys that evaluate the inclusion of enzymes in broiler feeds, the use of amylase is well diffused among poultry farmers. Further studies are needed to evaluate the real influence of the inclusion of these enzymes on broiler diets.

The aim of this study was to evaluate the effects of exogenous alpha-amylase supplementation in corn-soybean meal-based diets on performance and carcass and cuts yield in broilers during finishing phase (21 to 42 days).

Material and methods

The methodology used was approved and conducted according to the institutional committee on animal use protocol number of Federal University of Lavras. The trial was conducted in Lavras-Minas Gerais-Brazil, and geographic coordinates (Latitude: 21º 14 '43 "S, Longitude: 44º 59' 59" W, Altitude: 919m).

A total of 960 Cobb-500 male broilers were homogeneously raised up to 18 days of age (handling and nutrition). On the 18th day, the broilers were divided into homogeneous groups according to weight (720 ± 40 g) and were distributed in 48 experimental boxes. From that point, they were fed the experimental diets. The evaluation started three days after adaptation, in the 21st day. Twenty broilers were housed per box (3m2) with wood shavings litter, in a completely randomized experimental design with six treatments and eight replicates each. The boxes were equipped with a tubular feeder and a bell type drinking fountain. Six treatments were evaluated: Positive Control (PC): no enzyme; Negative control (NC): without enzyme formulated with 6.34% less energy (- 6.34% ME); NC1: with 250 g ton-1 of alpha-amylase; NC2: with 500 g ton-1 of alpha-amylase; NC3: with 750 g ton-1 of alpha-amylase; NC4: with 1000 g ton-1 of alpha-amylase. The alpha-amylase presents an activity, according to the manufacturer, of 56,000 KNU g-1.

Experimental diets (Table 1) were formulated based on corn and soybean meal according to the recommendations described in the Cobb-500 Lineage Manual (2015). The birds were weighed at the beginning and at the end of the experimental period, as well as the feed supply and leftovers at the end of the trial (42 days of age), to determine feed intake (FI), weight gain (WG) and feed conversion ratio (FCR), all expressed in grams. During the experimental period, the birds received food and water ad libitum.

At the end of the experimental period, two birds per plot, which were in the average weight (3100 ± 100 g) of the plot, were slaughtered after a 6-hour fasting, following the standards stipulated by the Ethics, Bioethics and Animal Welfare Committee, to evaluate yield and carcass measurements. The carcasses were kept in ice buckets for one hour and then divided into head, feet, neck, chest, leg and thigh, liver and pancreas. All carcass constituents were weighed. Yields of carcass, breast, leg and thigh, liver, pancreas and abdominal fat were calculated in relation to the weight of the eviscerated carcass, without considering the weight of head, neck, feet and edible offal.

The averages of feed intake (FI), weight gain (WG), feed conversion (FC) and carcass measurements were submitted to analysis of variance using the SISVAR (System for analysis of variance) (Ferreira, 2011Ferreira, D. F. (2011). SISVAR: A Computer Statistical Analysis System. Ciência e Agrotecnologia, 35(6), 1039-1042. doi: 10.1590/S1413-70542011000600001
https://doi.org/10.1590/S1413-7054201100...
), and the treatments were compared by the Tukey test at 5% probability.

Results and discussion

The performance of broiler chickens during the 21 to 42-day-old phase are shown in Table 2. All variables of performance: feed intake (FI), weight gain (WG) and feed conversion (FC) were influenced (p < 0.05) by the diet. The reduction of 200 kcal ME in negative control diet (NC) decreased (p < 0.05) weight gain, feed intake and feed conversion compared to that obtained in positive control diet (PC). This proves the accuracy of the trial to distinguish between experimental diets.

Table 1
Composition and calculated analysis of diets for broiler chickens during finishing phase (21 to 42 days).
Table 2
Performance (FI - Feed intake; WG - Weight gain; FC - Feed conversion) of broilers from 21 to 42 days old fed diets with different levels of amylase.

There was a reduction (p < 0.05) in feed intake when 500 g ton-1 amylase was used, in relation to the negative control diet without enzyme inclusion. Therefore, the amylase was able to increase energy supply in broilers fed diets with reduction of 200 kcal ME. This proves that the inclusion of amylase can maximize the use of dietary nutrients, especially energy. The higher the nutrient availability in the intestinal lumen, the lower the need to consume in order to meet physiological requirements.

The weight gain (WG) was influenced (p < 0.05) by the ME reduction of 6.34% in comparison to the diet that met the energy requirements of these birds (PC). The inclusion of amylase promoted WG improvements in broilers fed diets with less energy, especially for the inclusion of 1000 g ton-1 of amylase, which resulted in higher WG compared to broilers fed diets with different enzyme inclusion levels. However, even the level of 1000 g ton-1 of alpha amylase was not enough to result in similar weight gain to that of birds fed the control diet (PC), which met the metabolizable energy requirement of broilers.

Regarding the feed conversion (FC), the diet with reduced energy and without amylase resulted in higher FC compared to the other diets. The inclusion of amylase resulted in lower FC when compared to the negative control diet (NC) without enzyme inclusion, which proves that the inclusion of alpha amylase was efficient in improving the feed conversion of broilers. However, even with the inclusion of amylase, it was not enough to result in similar feed conversion to that of broilers fed diets that met all the nutritional requirements.

The inclusion of enzyme provided better results for FI, WG and FC in relation to the diet without enzyme and with reduced energy, but it was not enough to be equivalent to the PC diet, which met all the nutritional requirements without enzyme inclusion. This result indicates that the use of the enzyme could not exceed this difference, even using 1 kg ton-1 of amylase, that is, the alpha-amylase was not able to increase energy supply of the negative control diet to be equivalent to the PC diet as regards the performance variables analyzed.

Valadares et al. (2016Valadares, C. G., Santos, J. S., Lüdke, M. C. M. M., Lüdke, J. V., Silva, J. C. N. S., & Pereira, P. S. (2016). Determinação da energia metabolizável do farelo residual do milho com e sem enzima em dietas para frangos de corte. Arquivo Brasileiro de Medicina Veterinária e Zootecnia, 68(3), 748-754. doi: 10.1590/1678-4162-8729
https://doi.org/10.1590/1678-4162-8729...
) in a research to evaluate the nutrient content and to determine the metabolizable energy of corn residual without and with the use of the alpha-amylase enzyme, found that the addition of the enzyme improved the utilization of the energy of the ingredient, providing effect on the energy metabolism coefficient. Yu and Chung (2004Yu, B., & Chung, T. K. (2004). Effects of multiple-enzyme mixtures on growth performance of broilers fed corn-soybean meal diets. The Journal of Applied Poultry Research, 13(2), 178-182. doi: 10.1093/japr/13.2.178
https://doi.org/10.1093/japr/13.2.178...
) observed differences in feed intake, in which broilers fed the negative control (reduction of 3% ME) had higher feed intake than broilers fed the other treatments. Adeola, Jendza, Southern, Powell, and Owusu-Asiedu (2010Adeola, O., Jendza, J. A., Southern, L. L., Powell, S., & Owusu-Asiedu, A. (2010). Contribution of exogenous dietary carbohydrases to the metabolizable energy value of corn distillers grains for broiler chickens. Poultry Science , 89(9), 1947-1954. doi: 10.3382/ps.2010-00706
https://doi.org/10.3382/ps.2010-00706...
), who used carbohydrates (xylanase and amylase) in poultry diets and found a reduction in feed intake due to the better utilization of dietary metabolizable energy. According to these authors, carbohydrases, such as amylase, can hydrolyze structural carbohydrates, reducing the barrier to nutrient digestibility and increasing ingredient utilization. However, there are several possible mechanisms to explain the improvement related to the inclusion of amylase on feed intake. These results were expected due to the better nutrient utilization in diets supplemented with soluble carbohydrases capable of hydrolyzing the carbohydrates that alter the viscosity of the digesta, as occurs with the amylase (Adeola et al., 2010; Bedford & Cowieson, 2012Bedford, M. R., & Cowieson, A. J. (2012). Exogenous enzymes and their effects on intestinal microbiology. Animal Feed Science and Technology, 173(1-2), 76-85. doi: 10.1016/j.anifeedsci.2011.12.018
https://doi.org/10.1016/j.anifeedsci.201...
). The results these study indicate the efficiency of increasing enzyme inclusion in poultry diets, confirming the results presented by Zanella, Sakomura, Silversides, Fiqueirdo, and Pack (1999Zanella, I., Sakomura, N. K., Silversides, F. G., Fiqueirdo, A., & Pack, M. (1999). Effect of enzyme supplementation of broiler diets based on corn and soybeans. Poultry Science , 78(4), 561-568. doi: 10.1093/ps/78.4.561
https://doi.org/10.1093/ps/78.4.561...
) and Gracia, Aranibar, Lazaro, Medel, and Mateos (2003Gracia, M. I., Aranibar, M. J., Lazaro, R., Medel, P., & Mateos, G. G. (2003). Alpha-amylase supplementation of broiler diets based on corn. Poultry Science , 82(3), 436-442. doi: 10.1093/ps/82.3.436
https://doi.org/10.1093/ps/82.3.436...
), who observed a positive effect of exogenous alpha-amylase supplementation in poultry diets. In addition, it favors a better animal performance and starch digestibility, which increases the metabolizable energy in corn-soybean meal-based diets and, consequently, the development of broilers.

Sayehban et al. (2016Sayehban, P., Seidavi, A., Dadashbeiki, M., Ghorbani, A., Araújo, W. A. G., & Albino, L. F. T. (2016). Effects of different levels of two types of olive pulp with or without exogenous enzyme supplementation on broiler performance and economic parameters. Brazilian Journal of Poultry Science , 18(3), 489-500. doi: 10.1590/1806-9061-2015-0060.
https://doi.org/10.1590/1806-9061-2015-0...
) included an enzymatic complex in the broiler ration, but found no significant effect on broiler performance. The authors cite that they found this because the experimental designs that include enzymes generally focus on the addition of enzymes while discounting their nutritional value in the diets. The experimental diet, used by the authors, met all nutritional requirements of the evaluated broiler strain, independently of the ENZ inclusion. Therefore, the nutrients provided by enzymes exceeded the requirements of the birds. Similarly, Cardoso et al. (2011Cardoso, D. M., Maciel, M. P., Passos, D. P., Silva, F. V., Reis, S. T., & Aiura, F. S. (2011). Efeito do uso de complexo enzimático em rações para frangos de corte. Archivos de Zootecnia, 60(232), 1053-1064. doi: 10.4321/S0004-05922011000400021
https://doi.org/10.4321/S0004-0592201100...
) did not observe significant differences in the feed intake of broilers fed diets with the addition of enzyme complex or isolated enzymes, regardless of whether the ration has low levels of metabolizable energy or not. Costa, Clementino, Jácome, Nascimento, and Pereira (2004Costa, F. G. P., Clementino, R. H., Jácome, I. M. T. D., Nascimento, G. A. J., & Pereira, W. E. (2004). Utilização de um complexo multienzimático em dietas de frangos de corte. Ciência Animal Brasileira, 5(2), 63-67. doi: 10.1016/j.anifeedsci.2005.07.006
https://doi.org/10.1016/j.anifeedsci.200...
) reported no difference in WG with the inclusion of amylase but reduced feed intake and better FC were observed the higher the inclusion of alpha-amylase (200, 400 and 600 g ton-1) in the diet.

Kaczmarek et al. (2014Kaczmarek, S. A., Rogiewicz, A., Mogielnicka, M., Rutkowski, A., Jones, R. O., & Slominski, B. A. (2014). The effect of protease, amylase, and nonstarch polysaccharide-degrading enzyme supplementation on nutrient utilization and growth performance of broiler chickens fed corn-soybean meal-based diets. Poultry Science , 93(7), 1745-1753. doi: 10.3382/ps.2013-03739
https://doi.org/10.3382/ps.2013-03739...
) in a study to evaluate the effect of enzymatic supplementation using isolated amylase or amylase plus protease in corn and soybean meal rations on performance of broiler chickens during on growth, found that there was no effect of supplementation enzymatic activity on weight gain and on feed conversion. Sorbara et al. (2009Sorbara, J. O. B., Murakami, A. E., Nakage, E. S., Piracés, F., Potença, A., & Guerra, R. L. H. (2009). Enzymatic programs for broilers. Brazilian Archives of Biology and Technology, 52(Spe), 233-240. doi: 10.1590/S1516-89132009000700030
https://doi.org/10.1590/S1516-8913200900...
), when using an enzymatic complex containing the enzyme amylase, found that birds fed addition of enzymes showed lower feed intake and weight gain, and there was no difference in feed conversion. Alefzadeh et al. (2016Alefzadeh, T., Bouyeh, M., van den Hoven, R., Seidavi, A., Laudadio, V., & Tufarelli, V. (2016). Effect of dietary dried orange (Citrus sinensis) peel powder and exogenous multi-enzymes on growth and carcass traits and ileal microflora of broiler chickens. Pakistan Journal of Zoology, 48(6). doi: 0030-9923/2016/0006-1891
https://doi.org/0030-9923/2016/0006-1891...
) using an enzyme complex (containing phytase, β glucanase, α-amylase, cellulase, pectinase, xylanase, lipase, protease, amilo-glucosidase, hemicellulase, pentosonase, acid phytase, and acid phosphatase) in rations of broilers, verified a better weight gain for the broilers fed the enzymatic complex.

The results of the carcass evaluation are presented in Table 3. There was no dietary influence (p > 0.05) on carcass parameters. Therefore, the experimental diets, even with a reduction of 6.3% of the metabolizable energy, were not sufficient to modify the carcass measurements. Hence, the difference in 6.34% ME is not enough to alter the yields of carcass, breast, leg and thigh and yields of the pancreas, liver and abdominal fat.

Similarly, Zanella et al. (1999Zanella, I., Sakomura, N. K., Silversides, F. G., Fiqueirdo, A., & Pack, M. (1999). Effect of enzyme supplementation of broiler diets based on corn and soybeans. Poultry Science , 78(4), 561-568. doi: 10.1093/ps/78.4.561
https://doi.org/10.1093/ps/78.4.561...
), Torres et al. (2003Torres, D. M., Cotta, J. T. B., Teixeira, A. S., Muniz, J. A., Fonseca, R. A., Santos, E. C., & Alves, E. L. (2003). Dietas a base de milho e farelo de soja suplementadas com enzimas na alimentação de frangos de corte. Revista Ciência e Agrotecnologia , 27, 199-205. doi: 10.1590/S1413-70542003000100025
https://doi.org/10.1590/S1413-7054200300...
) and Bedford and Cowieson (2012Bedford, M. R., & Cowieson, A. J. (2012). Exogenous enzymes and their effects on intestinal microbiology. Animal Feed Science and Technology, 173(1-2), 76-85. doi: 10.1016/j.anifeedsci.2011.12.018
https://doi.org/10.1016/j.anifeedsci.201...
) did not find differences in carcass yield by using diets with enzyme inclusion and energy reduction (ME).

The results obtained in the present study also agree with the obtained by Fortes et al. (2012Fortes, B. D. A., Café, M. B., Stringhini, J. H., Brito, J. Á. G., Rezende, P. L. d. P., & Silva, R. D. (2012). Avaliação de programas nutricionais com a utilização de carboidrases e fitase em rações de frangos de corte. Ciência Animal Brasileira , 13(1), 24-32. doi: 10.5216/cab.v13i1.8705
https://doi.org/10.5216/cab.v13i1.8705...
) and Cardoso et al. (2011Cardoso, D. M., Maciel, M. P., Passos, D. P., Silva, F. V., Reis, S. T., & Aiura, F. S. (2011). Efeito do uso de complexo enzimático em rações para frangos de corte. Archivos de Zootecnia, 60(232), 1053-1064. doi: 10.4321/S0004-05922011000400021
https://doi.org/10.4321/S0004-0592201100...
) who did not find significant difference carcass yield and chick cuts at the end of the creation, where the enzymatic supplementation had no effect significance of any of the characteristics evaluated.

Table 3
Averages (%) of eviscerated carcass (EV), breast yield (BY), leg and thigh yield (LTY), abdominal fat (AF), liver and pancreas in broiler chickens fed diets with different levels of amylase and reduced energy.

Mahagna, Nir, Larbier, and Nitsan (1995Mahagna, M., Nir, I., Larbier, M., & Nitsan, Z. (1995). Effect of age and exogenous amylase and protease on development of the digestive tract, pancreatic enzyme activities and digestibility of nutrients in young meat-type chicks. Reproduction Nutritional, 35, 201-212. doi: 10.1051/rnd:19950208
https://doi.org/10.1051/rnd:19950208...
) found that the secretion of amylase and proteases (trypsin and chymotrypsin) by the pancreas was reduced when broilers were fed diets supplemented with amylase and protease. However, in the present study, the relative weight of the pancreas was not influenced even with the inclusion of 1000 g ton-1 of exogenous amylase. Therefore, to reduce the pancreatic weight due to the addition of exogenous enzymes, there may be other factors and relationships other than simply inclusion of carbohydrases, such as alpha-amylase, given that in the experiment performed by Mahagna et al. (1995Mahagna, M., Nir, I., Larbier, M., & Nitsan, Z. (1995). Effect of age and exogenous amylase and protease on development of the digestive tract, pancreatic enzyme activities and digestibility of nutrients in young meat-type chicks. Reproduction Nutritional, 35, 201-212. doi: 10.1051/rnd:19950208
https://doi.org/10.1051/rnd:19950208...
) two enzymes were used simultaneously and in this study only alpha-amylase was used.

Alefzadeh et al. (2016Alefzadeh, T., Bouyeh, M., van den Hoven, R., Seidavi, A., Laudadio, V., & Tufarelli, V. (2016). Effect of dietary dried orange (Citrus sinensis) peel powder and exogenous multi-enzymes on growth and carcass traits and ileal microflora of broiler chickens. Pakistan Journal of Zoology, 48(6). doi: 0030-9923/2016/0006-1891
https://doi.org/0030-9923/2016/0006-1891...
) using an enzyme complex (containing phytase, β glucanase, α-amylase, cellulase, pectinase, xylanase, lipase, protease, amilo-glucosidase, hemicellulase, pentosonase, acid phytase, and acid phosphatase) in rations of broilers, verified an increase in drumstick weight, but there was no increase on breast weight or empty carcass weight.

Conclusion

The use of alpha-amylase, above 250 g ton-1 up to 1000 g ton-1, was effective to reduce poor performance in broilers submitted a diet with a reduction of 200 kcal of metabolizable energy. However, when metabolizable energy is reduced in broiler feeds, it is advisable to include the alpha-amylase enzyme for better performance.

References

  • Adeola, O., & Ileleji, K. E. (2009). Comparison of two diet types in the determination of metabolizable energy content of corn distillers dried grains with solubles for broiler chickens by the regression method. Poultry Science, 88(3), 579-585. doi: 10.3382/ps.2008-00187
    » https://doi.org/10.3382/ps.2008-00187
  • Adeola, O., Jendza, J. A., Southern, L. L., Powell, S., & Owusu-Asiedu, A. (2010). Contribution of exogenous dietary carbohydrases to the metabolizable energy value of corn distillers grains for broiler chickens. Poultry Science , 89(9), 1947-1954. doi: 10.3382/ps.2010-00706
    » https://doi.org/10.3382/ps.2010-00706
  • Alefzadeh, T., Bouyeh, M., van den Hoven, R., Seidavi, A., Laudadio, V., & Tufarelli, V. (2016). Effect of dietary dried orange (Citrus sinensis) peel powder and exogenous multi-enzymes on growth and carcass traits and ileal microflora of broiler chickens. Pakistan Journal of Zoology, 48(6). doi: 0030-9923/2016/0006-1891
    » https://doi.org/0030-9923/2016/0006-1891
  • Amerah, A. M., Romero, L. F., Awati, A., & Ravindran, V. (2016). Effect of exogenous xylanase, amylase, and protease as single or combined activities on nutrient digestibility and growth performance of broilers fed corn/soy diets. Poultry Science , 96(4), 807-816. doi: 10.3382/ps/pew297
    » https://doi.org/10.3382/ps/pew297
  • Bedford, M. R., & Cowieson, A. J. (2012). Exogenous enzymes and their effects on intestinal microbiology. Animal Feed Science and Technology, 173(1-2), 76-85. doi: 10.1016/j.anifeedsci.2011.12.018
    » https://doi.org/10.1016/j.anifeedsci.2011.12.018
  • Cardoso, D. M., Maciel, M. P., Passos, D. P., Silva, F. V., Reis, S. T., & Aiura, F. S. (2011). Efeito do uso de complexo enzimático em rações para frangos de corte. Archivos de Zootecnia, 60(232), 1053-1064. doi: 10.4321/S0004-05922011000400021
    » https://doi.org/10.4321/S0004-05922011000400021
  • Costa, F. G. P., Clementino, R. H., Jácome, I. M. T. D., Nascimento, G. A. J., & Pereira, W. E. (2004). Utilização de um complexo multienzimático em dietas de frangos de corte. Ciência Animal Brasileira, 5(2), 63-67. doi: 10.1016/j.anifeedsci.2005.07.006
    » https://doi.org/10.1016/j.anifeedsci.2005.07.006
  • Ferreira, D. F. (2011). SISVAR: A Computer Statistical Analysis System. Ciência e Agrotecnologia, 35(6), 1039-1042. doi: 10.1590/S1413-70542011000600001
    » https://doi.org/10.1590/S1413-70542011000600001
  • Fortes, B. D. A., Café, M. B., Stringhini, J. H., Brito, J. Á. G., Rezende, P. L. d. P., & Silva, R. D. (2012). Avaliação de programas nutricionais com a utilização de carboidrases e fitase em rações de frangos de corte. Ciência Animal Brasileira , 13(1), 24-32. doi: 10.5216/cab.v13i1.8705
    » https://doi.org/10.5216/cab.v13i1.8705
  • Gracia, M. I., Aranibar, M. J., Lazaro, R., Medel, P., & Mateos, G. G. (2003). Alpha-amylase supplementation of broiler diets based on corn. Poultry Science , 82(3), 436-442. doi: 10.1093/ps/82.3.436
    » https://doi.org/10.1093/ps/82.3.436
  • Kaczmarek, S. A., Rogiewicz, A., Mogielnicka, M., Rutkowski, A., Jones, R. O., & Slominski, B. A. (2014). The effect of protease, amylase, and nonstarch polysaccharide-degrading enzyme supplementation on nutrient utilization and growth performance of broiler chickens fed corn-soybean meal-based diets. Poultry Science , 93(7), 1745-1753. doi: 10.3382/ps.2013-03739
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Publication Dates

  • Publication in this collection
    24 Oct 2019
  • Date of issue
    2020

History

  • Received
    16 Apr 2019
  • Accepted
    29 May 2019
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