Effects of enzyme supplementation on diets of medium-heavy laying hens at 28 to 40 weeks1

Resende, Vanessa Cristina de Souza; Brainer, Mônica Maria de Almeida; Modesto, Karla Priscila; Leite, Paulo Ricardo de Sá da Costa; Freitas, Paulo Vítor Divino Xavier de

doi:10.5935/1806-6690.20170079

ABSTRACT

The aim of this study was to verify the effect of the addition of an enzyme complex on performance (feed intake, egg production, egg weight and egg mass, feed conversion per egg mass, and feed conversion per dozen eggs), and on egg quality (% of shell, albumen and yolk, shell thickness, specific gravity, Haugh unit, yolk index, and albumen index), in medium-heavy laying hens at 28 to 40 weeks of age. A total of 240 Hy-Line Brown laying hens were used in a randomised block design with 10 replications of six birds per lot and four treatments: positive control (basal feed), negative control (with a reduction in metabolisable energy, crude protein, calcium and phosphorus), negative control + enzymes, and positive control + enzymes. The enzyme complex, composed of β-glucanases, β-xylanase, cellulase and phytase, was added to the feed at a ratio of 50 g t^-1. The data were submitted to analysis of variance with the mean values compared by Tukey's test at 5%. There was no difference in feed intake or egg weight between treatments. However, the addition of the enzyme complex to the negative control diet gave results similar to the remaining performance variables when compared to the positive control group. For the external and internal quality of the eggs, there was no difference between treatments for the variables under evaluation, except for the albumin index. It was concluded that use of the enzyme complex in the diet of medium-heavy laying hens gives a reduction in nutritional density without compromising production performance or egg quality.

Key words:
Exogenous enzyme; Phytase; Glucanase; Hy-line Brown; Egg quality

RESUMO

Objetivou-se verificar o efeito da adição de complexo enzimático sobre o desempenho (consumo alimentar, produção, peso e massa dos ovos, conversão alimentar por massa e dúzia de ovos) e qualidade dos ovos (% de casca, albúmen e gema, espessura da casca, gravidade específica, unidade Haugh, índice de gema e de albúmen) de poedeiras semipesadas no período de 28 a 40 semanas de idade. Foram utilizadas 240 poedeiras da linhagem Hy-Line Brown, em delineamento blocos ao acaso, com 10 repetições de seis aves por parcela e quatro tratamentos: controle positivo (ração basal), controle negativo (com redução de energia metabolizável, proteína bruta, cálcio e fósforo), controle negativo + enzimas e controle positivo + enzimas. O complexo enzimático, composto por β-glucanases, β-xilanase, celulase e fitase, foi adicionado à ração na proporção de 50 g/t. Os dados foram submetidos à análise de variância com comparação de médias pelo teste Tukey a 5%. Não houve diferença sobre o consumo de ração e peso dos ovos entre os tratamentos. Entretanto, a adição do complexo enzimático na dieta controle negativo permitiu resultados semelhantes às demais variáveis de desempenho, quando comparadas ao grupo controle positivo. Quanto à qualidade externa e interna dos ovos, não houve diferença entre os tratamentos para as variáveis avaliadas, exceto para o índice de albúmen dos ovos. Conclui-se que o uso do complexo enzimático em dietas de poedeiras semipesadas permite uma redução na densidade nutricional sem comprometer o desempenho produtivo e a qualidade dos ovos.

Palavras-chave:
Enzima exógena; Fitase; Glucanase; Hy-line Brown; Qualidade de ovos

INTRODUCTION

Exogenous enzymes have mainly been used to improve the digestibility of ingredients with high levels of non-starch polysaccharides (NSP), such as rye, wheat, barley and oats. NSP are the main constituents of the cell wall of foods of plant origin that during digestion have ahigh water retention capacity, making enzymatic action difficult, and forming a gelatinous substance in the intestinal tract (LIMA et al., 2007LIMA, M. R. et al. Enzimas exógenas na alimentação de aves. Acta Veterinaria Brasilica, v. 1, n. 4, p. 99-110, 2007.).

Even with the constant search for alternative foods, maize and soybean meal are respectively still the principal sources of energy and protein used in poultry diets, however, the composition of soybean meal includes 20% NSP, with almost no digestibility. Wheat bran is a good alternative in poultry diets and can supply up to 70% of the metabolisable energy of the diet, but the high levels of arabinoxylans (AX) in its composition restrict its use in feed for commercial poultry (O'NEILL; SMITH; BEDFORD, 2014O'NEILL, H. V. M.; SMITH, J. A.; BEDFORD, M. R. Multicarbohydrase enzymes for non-ruminants. Asian Australasian Journal Animal Science, v. 27, n. 2, p. 290-301, 2014.).

As feed ingredients have differences in their chemical composition, and considering that enzymes are specific in their reactions, commercial products composed of several enzymes are generally effective (MURAKAMI et al., 2007MURAKAMI, A. E. et al. Efeito da suplementação enzimática no desempenho e qualidade dos ovos de poedeiras comerciais. Acta Scientarium, v. 29, p. 109-114, 2007.). According to Barbosa et al. (2012)BARBOSA, N. A. A. et al. Enzimas exógenas em dietas de frangos de corte: desempenho. Ciência Rural, v. 42, n. 8, p. 1497-1502, 2012., enzymes can be used as nutritional strategies to generate a reduction in the nutrient level of diets and achieve a similar or better response from the birds when compared to a diet of adequate nutrient levels. This response comes from increases in the nutritional value of the ingredients due to the action of the enzyme in improving nutrient availability.

Silva, Fonseca and Guedes Filho (2000)SILVA, H. O.; FONSECA, R. A.; GUEDES FILHO, R. S. Características produtivas e digestibilidade da farinha de folhas de mandioca em dietas de frangos de corte com e sem adição de enzimas. Revista Brasileira de Zootecnia, v. 29, n. 3, p. 823-829, 2000. identified the possibility of using enzyme complexes in diets based on low-viscosity cereals, such as maize, sorghum and soybean meal, with the aim of increasing the use of starch and protein. Enzymes, in addition to increasing digestibility and feed efficiency, lessen the action of growth inhibitors, especially NSP, by helping endogenous enzymes in the digestive processes.

Gálik and Horniaková (2010)GÁLIK, B.; HORNIAKOVÁ, E. The effect of enzymatic additives on the productivity of laying hens Isa Brown. Journal of Central European Agriculture, v. 11, n. 4, p. 381-386, 2010. found that the addition of the enzymes xylanase and glucanase in the feed of Isa Brown laying hens had a positive effect on the productivity of the birds. Similarly, Khan et al. (2011)KHAN, S. H. et al. Effects of supplementation of multi-enzyme and multi-species probiotic on production performance, egg quality, cholesterol level and immune system in laying hens. Journal of Applied Animal Research, v. 39, n. 4, p. 386-398, 2011., evaluating performance and egg quality in laying hens supplemented with an enzyme complex in comparison to non-supplemented birds, found that addition of the enzyme to the basal diet significantly increased egg production, weight and mass, and improved feed conversion, as well as having a positive effect on the Haugh unit.

The aim of this study was to evaluate the effects of including an enzyme complex in diets based on maize, soybean meal and wheat bran on the performance and egg quality of medium-heavy commercial laying hens.

MATERIAL AND METHODS

The experiment was conducted in the Poultry-Farming Sector of the Goiano Federal Institute (IF Goiano), in the town of Ceres in the State of Goiás, Brazil. All experimental procedures were carried out in accordance with the ethical standards and approval of the Ethical Committee on the Use of Animals (CEUA) of IF Goiano, under Protocol 018/2012.

One hundred and twenty-five Hy-Line Brown medium-heavy laying hens from 28 to 40 weeks of age were used, housed in a shed containing galvanised wire cages measuring 25 × 45 × 40 cm, distributed laterally on two floors and equipped with a gutter trough feeders and drinking nipples.

Management of the birds was daily, when they were supplied with water and feed at will and lighting for 17 hours a day; the eggs were collected in the morning and afternoon. According to the data obtained from the Ceres Meteorological Station located on the IF Goiano campus, the mean maximum and minimum temperatures during the experimental period were 31.6 °C and 16.7 °C respectively, with a mean relative humidity of 76.6%.

The experimental design was of randomised blocks, with four treatments and ten replications of six birds per experimental unit. The treatments were distributed in two blocks, comprising opposite sides of the rows of cages, due to the greater incidence of solar radiation on one side.

The treatments consisted of four diets based on maize, soybean meal and wheat bran: positive control diet; positive control diet with the on-top addition of enzymes; negative control diet; and negative control diet with the addition of enzymes.

The positive control diet was formulated according to the recommendations of the Hy-Line Brown Performance Standards Manual (HY-LINE DO BRASIL, 2011HY-LINE DO BRASIL. Hy-Line Brown manual de padrões de desempenho. Nova Granada, SP, 2011. 17 p.); the negative control diet was calculated with a reduction of 79 kcal kg^-1 metabolisable energy, 0.49% crude protein, 0.09% calcium and 0.13% available phosphorus, as per the nutritional matrix of the multi-enzyme complex used, which was provided by the manufacturer (Table 1).

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Table 1
Percentage and calculated composition of the experimental diets

The enzyme complex, containing β-glucanases, β-xylanases, cellulose and phytase, was added on top of the feed at a dose of 50 g t^-1.

The experiment was divided into three periods of 28 days to collect data and to calculate variables of performance and egg quality.

The performance variables being analysed were: feed intake (g bird^-1 day^-1), egg production (% bird^-1 day^-1), egg weight (g), egg mass (g bird^-1 day^-1), feed conversion for egg mass (g g^-1) and feed conversion per dozen eggs (kg dozen^-1).

To determine egg quality, three eggs per experimental unit were collected during the last three days of each period. The variables under analysis were egg percentage composition (shell, albumen and yolk), shell thickness (mm), specific gravity and internal egg quality (Haugh unit, yolk index (%) and albumen index (%)).

To obtain the percentage composition, the eggs were weighed on a semi-analytical precision balance with a readability of 0.001 g (total egg weight) and then broken to weigh the yolk and shell. The weight of the albumen was obtained from the difference between the total egg weight and the weight of the shell plus the weight of the yolk. The shell was weighed after drying at room temperature, and shell thickness was measured with a digital caliper at two points in the centre-transversal area, the mean value obtained being expressed in millimeters (mm). Specific gravity was determined by immersing the eggs in plastic buckets containing different saline solutions, with densities that varied from 1.0650 to 1.100, at intervals of 0.0025, as per the methodology of Moreng and Avens (1990)MORENG, R. E.; AVENS, J. S. Ciência e produção de aves. São Paulo: Roca, 1990. 380 p.. The diameter of the yolk and albumin were measured with a caliper to determine the yolk index and albumen index, according to the following formulas: yolk index = yolk height/mean value for yolk diameter; albumin index = albumin height/mean value for albumen diameter. The Haugh unit was obtained according to the following formula (1):

(1)

HU = 100 \log (H + 7, 57 - 1, 7 W^{0, 37})

where H = albumen height (mm) and W = egg weight (g) (HARDER et al., 2008HARDER, M. N. C. et al. Efeito de Bixa orellana na alteração de características de ovos de galinhas. Ciência Agrotécnica, v. 32, n. 4, p. 1232-1237, 2008.).

The data were submitted to analysis of variance, and the mean values were compared by Tukey's test at 5% probability using the ASSISTAT statistical software (SILVA, 2016SILVA, F. A. S. Assistat Versão 7.7 beta. Campina Grande: Universidade Federal de Campina Grande. Centro de Tecnologia e Recursos Naturais. Departamento de Engenharia Agrícola, 2016.).

RESULTS AND DISCUSSION

There was no difference (P>0.05) between the intake of birds fed the basal diet and those fed a diet of low nutritional density, with or without the addition of enzymes (Table 2). Laying hens usually respond to an energy reduction in the diet with an increase in feed intake to meet their daily energy needs. However, the reduction in energy of the low nutritional density feed was not sufficient to influence intake in the birds.

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Table 2
Performance of laying hens fed diets supplemented with enzyme complex, from 28 to 40 weeks of age

This result was similar to that found by Vieira Filho et al. (2015)VIEIRA FILHO et al. Effect of protease supplementation on production performance of laying hens. Acta Scientiarum, v. 37, n. 1, p. 29-33, 2015., who saw no effect on the intake of medium-heavy laying hens fed diets with basal and reduced energy levels, supplemented or not supplemented with 500 g t^-1 protease.

However, Gentilini et al. (2009)GENTILINI, F. P. et al. Produtividade e resistência óssea de poedeiras suplementadas com Allzyme®SSF nas dietas. Archivos de Zootecnia, v. 58, n. 224, p. 645-653, 2009. found a significant reduction in the feed intake of laying hens that received diets containing an on-top enzyme complex with no energy increase, showing that the enzymes improved the energy value of the diets, having an influence on feed intake. Nonetheless, Geraldo et al. (2014)GERALDO, A. et al. Carbohydrase and phytase supplementation in diets for semi-heavy laying hens. Acta Scientiarum. Animal Sciences, v. 36, n. 3, p. 285-290, 2014. found that feed intake was higher in birds fed diets with low nutritent levels, with or without the addition of enzymes (carbohydrases and phytase), indicating that the levels of enzyme supplementation were not sufficient to meet the energy requirements of the birds.

Comparing the birds fed a low nutritional density diet, and supplemented or not supplemented with enzymes, those that received enzyme supplementation showed better results for egg production, egg mass, feed conversion per dozen eggs, and feed conversion for egg mass, being similar to the results found for birds that received the positive control diets with no enzymes. With the nutritional matrix recommended by the manufacturer, inclusion of the enzyme complex had a beneficial effect on nutrient digestibility, which can be attributed to a reduction in intestinal viscosity.

Similarly, Lázaro et al. (2003)LAZARO, R. et al. Effect of enzyme addition to wheat-barley-and-rye-based diets on nutrient digestibility and performance of laying hens. British Poultry Science, v. 44, n. 2, p. 256-265, 2003. found that laying hens fed diets based on rye, wheat and rice, and supplemented with an enzyme combination, produced 2.1% more eggs per housed hen. Silva et al. (2012)SILVA, L. M. et al. Associação de carboidrase e fitase em dietas valorizadas para poedeiras semipesadas. Acta Scientiarum Animal Sciences, v. 34, n. 3, p. 253-258, 2012. also found that a diet of reduced nutrients and no enzyme supplementation provided the worst values for feed conversion, confirming the beneficial effect of including enzymes in the diets of medium-heavy laying hens.

There was no difference in egg weight for birds submitted to the different treatments. The reduction in nutrient levels and the inclusion of exogenous enzymes did not influence egg weight, but had an effect on production, which reflected in the values for egg mass.

This result agrees with Viana et al., who found no effect from diet (positive or negative control, with or without the addition of xylanase) on egg weight (P>0.05).

On the other hand, Murakami et al. (2007)MURAKAMI, A. E. et al. Efeito da suplementação enzimática no desempenho e qualidade dos ovos de poedeiras comerciais. Acta Scientarium, v. 29, p. 109-114, 2007. found that egg weight in laying hens fed a basal diet formulated with a 5% deficiency in relation to the nutritional requirements of the line, and supplemented with a multi-enzyme complex at levels of 400 or 500 ppm, was higher than that achieved by birds fed with a product-free diet. Araújo et al. (2008)ARAÚJO, D. M. et al. Farelo de trigo e complexo enzimático na alimentação de poedeiras semipesadas na fase de produção. Revista Brasileira de Zootecnia, v. 37, n. 5, p. 843-848, 2008. found that the addition of an enzyme complex containing galactosidase, galactomannanase, xylanase and glucanase, improved egg weight in medium-heavy laying hens fed a diet containing different levels of wheat bran.

Birds submitted to the diet of low nutrient density without the addition of enzymes, displayed less egg mass in comparison to birds that received the same diet with the addition of the enzyme, which did not differ statistically from the Positive Control treatment and the Positive Control treatment with enzymes (P>0.05). The addition of the enzyme complex in diets with reduced nutrient levels guaranteed the availability of nutrients and their efficient use by the birds, since there was no difference from the positive control treatment. It is therefore possible to reduce feed costs by reducing the inclusion of certain ingredients in the diet of birds, without having an effect on production performance.

Viana et al. (2011)VIANA, M. T. S. et al. Utilização de xilanase em dietas compostas por milho e farelo de soja de poedeiras comerciais em postura. Revista Brasileira de Zootecnia, v. 40, n. 2, p. 385-390, 2011. also obtained similar results and found lower values for egg production and egg mass in the group fed diets with no addition of xylanase. Similarly, Fuente and Soto-Salanova (1997)FUENTE, J. M; SOTO-SALANOVA, M. F. Utilización de enzimas para mejorar el valor nutritivo de las dietas maíz/sorgo/soja en avicultura. Seleciones Avicolas, p. 271-275, 1997. found a significant increase in the mass of eggs produced daily by laying hens that received diets based on corn and soybean with the inclusion of 8% and 16% enzyme complex.

The on-top addition of the enzyme complex to the positive control diet did not improve production performance in the birds when compared to birds submitted to the positive control diet with no addition of the enzyme, or those submitted to the negative control diet with enzymes. In this case, it was confirmed that the positive basal diet easily met the nutritional needs of the birds, with no effect from the on-top addition of the enzyme.

Similar results were found by Murakami et al. (2007)MURAKAMI, A. E. et al. Efeito da suplementação enzimática no desempenho e qualidade dos ovos de poedeiras comerciais. Acta Scientarium, v. 29, p. 109-114, 2007., Viana et al. (2009)VIANA, M. T. S. et al. Efeito do uso de enzimas sobre o desempenho e metabolismo de poedeiras. Revista Brasileira de Zootecnia, v. 38, n. 6, p. 1068-1073, 2009. and Viana et al. (2011)VIANA, M. T. S. et al. Utilização de xilanase em dietas compostas por milho e farelo de soja de poedeiras comerciais em postura. Revista Brasileira de Zootecnia, v. 40, n. 2, p. 385-390, 2011., who emphasised that the use of a multi-enzyme complex is efficient when added to nutrient-deficient diets, with a percentage increase in the variables of productive performance. Oba et al. (2013)OBA, A. et al. Características produtivas, qualitativas e microbiológicas de galinhas poedeiras alimentadas com diferentes níveis de complexo enzimático. Semina: Ciências Agrárias, v. 34, n. 6, p. 4179-4186, 2013. likewise found that the on-top addition of an enzyme complex to feeds based on maize and soybean meal gave no improvements in egg performance or quality in laying hens at 60 weeks of age.

On the other hand, Gentilini et al. (2009)GENTILINI, F. P. et al. Produtividade e resistência óssea de poedeiras suplementadas com Allzyme®SSF nas dietas. Archivos de Zootecnia, v. 58, n. 224, p. 645-653, 2009. found that when the enzyme complex was added on top of the diet, it led to a reduction in intake, but maintained production and bone resistance in laying hens.

According to the analysis of variance of the data for external and internal egg quality, there was no significant difference (P³0.05) between treatments for the egg parameters percentage shell, percentage albumen, percentage yolk, shell thickness or specific gravity (Table 3).

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Table 3
Parameters of egg quality in semi-heavy laying hens fed diets supplemented and not supplemented with enzyme-complex, from 28 to 40 weeks of age

These results demonstrate that birds that were fed the diet with a reduced nutrient content showed the same characteristics for external egg quality as birds that received the positive control diet, since the reduction in nutrient levels was not sufficient to have any effect on these parameters. Even under conditions of nutrient deficiency, the laying hens maintained the qualitative characteristics of the eggs, to the detriment of production.

Similar results were seen by Viana et al. (2011)VIANA, M. T. S. et al. Utilização de xilanase em dietas compostas por milho e farelo de soja de poedeiras comerciais em postura. Revista Brasileira de Zootecnia, v. 40, n. 2, p. 385-390, 2011., who found that egg composition in commercial laying hens from 24 to 48 weeks of age was not affected (P>0.05) by the experimental diets (positive and negative controls, with and without xylanase). Similarly, Han et al. (2010)HAN, Y. K. et al. Influence of enzyme and/or lysolecithin supplementation on performance, nutrient digestibility and egg quality for laying hens. Trends Animal Vet Science Journal, v. 1, n. 1, p. 28-35, 2010., in a study of the influence of enzyme supplement on performance, nutrient digestibility and egg quality in laying hens, noted that enzyme supplement in the diet had no significant effect on egg production or egg quality. Oba et al. (2013)OBA, A. et al. Características produtivas, qualitativas e microbiológicas de galinhas poedeiras alimentadas com diferentes níveis de complexo enzimático. Semina: Ciências Agrárias, v. 34, n. 6, p. 4179-4186, 2013. also found that there was no difference in percentage yolk, albumen or eggshell in laying hens fed different levels of an enzyme complex containing amylase, phytase and protease.

In work developed by Gentilini et al. (2009)GENTILINI, F. P. et al. Produtividade e resistência óssea de poedeiras suplementadas com Allzyme®SSF nas dietas. Archivos de Zootecnia, v. 58, n. 224, p. 645-653, 2009., the variables of specific gravity, shell weight and shell thickness were not affected by the different energy values of the enzyme complex added to the diets. However, egg weight and albumen weight showed reduced values in birds that received the on-top enzyme complex, probably due to the lower feed intake of these birds.

As for the internal quality of the eggs, there was no effect from the enzyme complex on the Haugh unit or yolk index; the exception was the albumen index, where the negative control diet presented a higher index compared to the other diets. The albumin index and the yolk index correlate height with diameter as an indication of consistency. As the yolk or albumen diameter increases, there is a reduction in these indices.

Similar results were found by Geraldo et al. (2014)GERALDO, A. et al. Carbohydrase and phytase supplementation in diets for semi-heavy laying hens. Acta Scientiarum. Animal Sciences, v. 36, n. 3, p. 285-290, 2014., who noted that nutrient reduction and supplementation with different levels of a mixture of phytase and carbohydrases, did not affect the internal quality of the eggs (Haugh unit) in medium-heavy laying hens at 42 to 57 weeks of age.

However, in studies by Murakami et al. (2007)MURAKAMI, A. E. et al. Efeito da suplementação enzimática no desempenho e qualidade dos ovos de poedeiras comerciais. Acta Scientarium, v. 29, p. 109-114, 2007., a difference (P<0.01) was seen in mean values of the Haugh unit in the eggs of laying hens fed diets supplemented with an enzyme complex. This was similar to Khan et al. (2011)KHAN, S. H. et al. Effects of supplementation of multi-enzyme and multi-species probiotic on production performance, egg quality, cholesterol level and immune system in laying hens. Journal of Applied Animal Research, v. 39, n. 4, p. 386-398, 2011., who found that the Haugh unit was significantly greater in a group of birds fed diets supplemented with enzymes, compared to the negative control group. However, the same authors found that the remaining parameters of internal and external egg quality showed no differences between the various treatments.

CONCLUSION

The inclusion of an enzyme complex in the diets of medium-heavy laying hens from 28 to 40 weeks of age reduces the nutritional density of the diet without compromising production performance or egg quality.

ACKNOWLEDGEMENTS

The authors wish to thank Adisseo Brasil for their donation of the enzyme complex, and the Goiano Federal Institute, Ceres Campus, for funding this research and awarding starting grants in science.

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Parte do Trabalho de Conclusão de Curso da primeira autora apresentado ao Curso de Zootecnia do Instituto Federal Goiano Campus Ceres

REFERENCES

ARAÚJO, D. M. et al Farelo de trigo e complexo enzimático na alimentação de poedeiras semipesadas na fase de produção. Revista Brasileira de Zootecnia, v. 37, n. 5, p. 843-848, 2008.
BARBOSA, N. A. A. et al Enzimas exógenas em dietas de frangos de corte: desempenho. Ciência Rural, v. 42, n. 8, p. 1497-1502, 2012.
FUENTE, J. M; SOTO-SALANOVA, M. F. Utilización de enzimas para mejorar el valor nutritivo de las dietas maíz/sorgo/soja en avicultura. Seleciones Avicolas, p. 271-275, 1997.
GÁLIK, B.; HORNIAKOVÁ, E. The effect of enzymatic additives on the productivity of laying hens Isa Brown. Journal of Central European Agriculture, v. 11, n. 4, p. 381-386, 2010.
GENTILINI, F. P. et al Produtividade e resistência óssea de poedeiras suplementadas com Allzyme®SSF nas dietas. Archivos de Zootecnia, v. 58, n. 224, p. 645-653, 2009.
GERALDO, A. et al Carbohydrase and phytase supplementation in diets for semi-heavy laying hens. Acta Scientiarum. Animal Sciences, v. 36, n. 3, p. 285-290, 2014.
HAN, Y. K. et al Influence of enzyme and/or lysolecithin supplementation on performance, nutrient digestibility and egg quality for laying hens. Trends Animal Vet Science Journal, v. 1, n. 1, p. 28-35, 2010.
HARDER, M. N. C. et al Efeito de Bixa orellana na alteração de características de ovos de galinhas. Ciência Agrotécnica, v. 32, n. 4, p. 1232-1237, 2008.
HY-LINE DO BRASIL. Hy-Line Brown manual de padrões de desempenho Nova Granada, SP, 2011. 17 p.
KHAN, S. H. et al Effects of supplementation of multi-enzyme and multi-species probiotic on production performance, egg quality, cholesterol level and immune system in laying hens. Journal of Applied Animal Research, v. 39, n. 4, p. 386-398, 2011.
LAZARO, R. et al Effect of enzyme addition to wheat-barley-and-rye-based diets on nutrient digestibility and performance of laying hens. British Poultry Science, v. 44, n. 2, p. 256-265, 2003.
LIMA, M. R. et al Enzimas exógenas na alimentação de aves. Acta Veterinaria Brasilica, v. 1, n. 4, p. 99-110, 2007.
MORENG, R. E.; AVENS, J. S. Ciência e produção de aves São Paulo: Roca, 1990. 380 p.
MURAKAMI, A. E. et al Efeito da suplementação enzimática no desempenho e qualidade dos ovos de poedeiras comerciais. Acta Scientarium, v. 29, p. 109-114, 2007.
O'NEILL, H. V. M.; SMITH, J. A.; BEDFORD, M. R. Multicarbohydrase enzymes for non-ruminants. Asian Australasian Journal Animal Science, v. 27, n. 2, p. 290-301, 2014.
OBA, A. et al Características produtivas, qualitativas e microbiológicas de galinhas poedeiras alimentadas com diferentes níveis de complexo enzimático. Semina: Ciências Agrárias, v. 34, n. 6, p. 4179-4186, 2013.
SILVA, F. A. S. Assistat Versão 7.7 beta Campina Grande: Universidade Federal de Campina Grande. Centro de Tecnologia e Recursos Naturais. Departamento de Engenharia Agrícola, 2016.
SILVA, H. O.; FONSECA, R. A.; GUEDES FILHO, R. S. Características produtivas e digestibilidade da farinha de folhas de mandioca em dietas de frangos de corte com e sem adição de enzimas. Revista Brasileira de Zootecnia, v. 29, n. 3, p. 823-829, 2000.
SILVA, L. M. et al Associação de carboidrase e fitase em dietas valorizadas para poedeiras semipesadas. Acta Scientiarum Animal Sciences, v. 34, n. 3, p. 253-258, 2012.
VIANA, M. T. S. et al Efeito do uso de enzimas sobre o desempenho e metabolismo de poedeiras. Revista Brasileira de Zootecnia, v. 38, n. 6, p. 1068-1073, 2009.
VIANA, M. T. S. et al Utilização de xilanase em dietas compostas por milho e farelo de soja de poedeiras comerciais em postura. Revista Brasileira de Zootecnia, v. 40, n. 2, p. 385-390, 2011.
VIEIRA FILHO et al Effect of protease supplementation on production performance of laying hens. Acta Scientiarum, v. 37, n. 1, p. 29-33, 2015.

Publication Dates

Publication in this collection
Oct-Dec 2017

History

Received
30 Nov 2015
Accepted
01 Dec 2016

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] 1
Parte do Trabalho de Conclusão de Curso da primeira autora apresentado ao Curso de Zootecnia do Instituto Federal Goiano Campus Ceres

Ingredients	Positive Control	Negative Control
Maize grain	60.900	51.746
Soybean meal 45%	21.026	18.543
Wheat bran	4.000	12.595
Limestone	9.486	9.763
Soybean oil	2.038	3.509
Dicalcium phosphate	1.427	0.640
Mineral-vitamin premix¹	0.400	0.400
Common Salt	0.360	0.361
DL-methionine	0.233	0.244
L-lysine HCl	0.109	0.148
L-threonine	0.021	0.046
Inert	0.000	2.000
Calculated nutritional composition
Metabolisable energy (kcal kg^-1)	2,800	2,721
Crude protein (%)	15.180	14.688
Calcium (%)	4.000	3.915
Available phosphorus (%)	0.360	0.232
Digestible lysine (%)	0.760	0.750
Methionine + digestible cystine (%)	0.660	0.653
Digestible methionine (%)	0.443	0.440
Digestible threonine (%)	0.530	0.523
Digestible tryptophan (%)	0.160	0.157
Digestible arginine (%)	0.911	0.897
Digestible isoleucine (%)	0.565	0.556
Digestible Valine (%)	0.636	0.626

Variable	Treatment				P¹ 1 PC = positive control; NC = negative control; P = probability; CV = coefficient of variation; a,b = mean values followed by different letters differ statistically by Tukey's test at 5% probability	CV¹ 1 PC = positive control; NC = negative control; P = probability; CV = coefficient of variation; a,b = mean values followed by different letters differ statistically by Tukey's test at 5% probability (%)
Variable	PC¹ 1 PC = positive control; NC = negative control; P = probability; CV = coefficient of variation; a,b = mean values followed by different letters differ statistically by Tukey's test at 5% probability	PC+Enzymes	NC¹ 1 PC = positive control; NC = negative control; P = probability; CV = coefficient of variation; a,b = mean values followed by different letters differ statistically by Tukey's test at 5% probability	NC+Enzymes
Intake (g bird^-1 day^-1)	102.0	104.4	114.2	102.2	0.1066	11.6
Egg production (%)	80.4 a	81.8 a	61.4 b	84.1 a	<0.001	7.4
Mean egg weight (g)	59.3	59.7	60.2	60.3	>0.050	2.5
Egg mass (g bird^-1 day^-1)	47.7 a	49.9 a	37.0 b	50.7 a	<0.001	9.4
Feed conversion per dozen (kg/dozen)	1.54 b	1.56 b	2.29 a	1.47 b	<0.001	10.9
Feed conversion for egg mass (g/g)	2.08 b	2.09 b	3.07 a	1.95 b	<0.001	11.5

Variable	Treatment				P¹ 1 PC = positive control; NC = negative control; P = probability; CV = coefficient of variation	CV¹ 1 PC = positive control; NC = negative control; P = probability; CV = coefficient of variation (%)
Variable	PC¹ 1 PC = positive control; NC = negative control; P = probability; CV = coefficient of variation	PC+Enzymes	NC¹ 1 PC = positive control; NC = negative control; P = probability; CV = coefficient of variation	NC+Enzymes
Shell (%)	10.31	10.26	10.16	10.32	>0.05	3.3
Albumen (%)	60.74	60.28	61.18	59.85	0.2185	24
Yolk (%)	28.78	23.3	28.49	29.11	>0.05	4.4
Shell thickness (mm)	41.08	40.96	40.33	40.86	>0.05	4.0
Specific gravity (g mL)	1.101	1.093	1.094	1.095	0.076	0.65
Haugh unit	96.29	96.20	96.29	96.13	>0.05	1.73
Yolk index	0.43	0.44	0.42	0.40	0.142	9.17
Albumen index	1.39b	1.42ab	1.51a	1.41ab	0.046	6.8

Brasil

Brasil

Effects of enzyme supplementation on diets of medium-heavy laying hens at 28 to 40 weeks¹ 1 Parte do Trabalho de Conclusão de Curso da primeira autora apresentado ao Curso de Zootecnia do Instituto Federal Goiano Campus Ceres

Efeitos da suplementação enzimática em dietas de poedeiras semipesadas de 28 a 40 semanas de idade

ABSTRACT

RESUMO

INTRODUCTION

MATERIAL AND METHODS

RESULTS AND DISCUSSION

CONCLUSION

ACKNOWLEDGEMENTS

REFERENCES

Publication Dates

History

Brasil

Brasil

Effects of enzyme supplementation on diets of medium-heavy laying hens at 28 to 40 weeks1 1 Parte do Trabalho de Conclusão de Curso da primeira autora apresentado ao Curso de Zootecnia do Instituto Federal Goiano Campus Ceres

Efeitos da suplementação enzimática em dietas de poedeiras semipesadas de 28 a 40 semanas de idade

ABSTRACT

RESUMO

INTRODUCTION

MATERIAL AND METHODS

RESULTS AND DISCUSSION

CONCLUSION

ACKNOWLEDGEMENTS

REFERENCES

Publication Dates

History

Effects of enzyme supplementation on diets of medium-heavy laying hens at 28 to 40 weeks¹ 1 Parte do Trabalho de Conclusão de Curso da primeira autora apresentado ao Curso de Zootecnia do Instituto Federal Goiano Campus Ceres