Use of essential oils in the diet of slow-growing broilers and their effects on performance

DIOGO, Ingrid Andressa Jesus; FREITAS, Henrique Jorge de; PINEDO, Lerner Arévalo; SOUZA, Edcarlos Miranda de; GOMES, Fábio Augusto

doi:10.1590/S1519-99402100292022

ABSTRACT

This study proposes to examine the effect of supplementing the diet of slow-growing broilers with essential oils. A total of 270 one-day-old female chicks of the Pesadão Vermelho line, reared in an intensive system, were allocated to one of three treatments (1: Control, without addition of essential oils; 2: Feed supplemented with cinnamon essential oil; and 3: Feed supplemented with lemongrass essential oil) in a completely randomized design with nine replicates of 10 birds each. Growth performance variables were evaluated at 14, 28, 42, 56, and 70 days, whereas carcass yield, primal cuts, and internal organs were analyzed at 71 days of age. Data were subjected to analysis of variance and differences between means were compared using the Scott-Knott test at 5% probability. Supplementation with lemongrass essential oil improved the live weight of birds at 14, 28, and 42 days, as well as feed conversion and feed efficiency at 42 and 56 days of rearing (P<0.05). The treatments with cinnamon and lemongrass essential oils provided the highest thigh yields (P<0.05). The other evaluated variables did not show statistically significant differences (P>0.05) between treatments.

Additives; Animal nutrition; Cinnamon; Lemongrass; Poultry farming

RESUMO

O experimento teve como objetivo, avaliar o efeito da suplementação de óleos essenciais nas dietas de frangos de corte de crescimento lento. Foram utilizados 270 pintos de um dia, fêmeas da linhagem Pesadão Vermelho, criados em sistema intensivo. O delineamento experimental foi o inteiramente casualizado (DIC) com três tratamentos (Tratamento 1: Controle, sem adição de óleo essencial; Tratamento 2: Ração suplementada com óleo essencial de canela e Tratamento 3: ração suplementada com óleo essencial de capim-cidreira) e nove repetições de 10 aves cada. Aos 14, 28, 42, 56 e 70 dias foram avaliadas as variáveis de desempenho zootécnico e aos 71 dias o rendimento de carcaça, cortes nobres e órgãos internos. Os dados foram submetidos à análise de variância e as diferenças entre as médias foram comparadas pelo teste de Scott-Knott a 5% de probabilidade. A suplementação com óleo essencial de capim-cidreira melhorou o peso vivo das aves aos 14, 28 e 42 dias e a conversão e eficiência alimentar aos 42 e 56 dias de criação (P<0,05). Os tratamentos com óleo essencial de canela e de capim-cidreira proporcionaram maior rendimento de sobrecoxa (P<0,05). Em relação as demais variáveis avaliadas, não foram verificadas diferenças estatísticas significativas (P>0,05) para os tratamentos testados.

Aditivos; Avicultura; Canela; Capim-Cidreira; Nutrição Animal

INTRODUCTION

Nutrition accounts for up to 70% of production costs in poultry farming. For this reason, studies in this field have focused on discovering new strategies to improve the utilization of feed ingredients, thereby increasing productivity rates and the feed efficiency of broilers (Praes et al., 2016PRAES, M.F.F.M.; LUCAS JUNIOR, J.; DUARTE, K.F. et al. Reduced nutrient excretion and environmental microbial load with the addition of a combination of enzymes and direct-fed microbials to the diet of broiler chickens. Revista Brasileira de Ciência Avícola, v. 18, p. 125-132, 2016.).

Plant essential oils can be an interesting option to improve feed efficiency and, consequently, animal performance, due to their functional and digestive properties that enhance nutrient utilization, allowing the animals to express their maximum genetic potential for meat production (Hafeez et al., 2015HAFEEZ, A.; MÄNNER, K.; SCHIEDER, C.; ZENTEK, J. Effect of supplementation of phytogenic feed additives (powdered vs. encapsulated) on performance and nutriente digestibility in broiler chickens. Poultry Science, v.95, n.3, p. 622-629, 2015.).

Essential oils inhibit the growth of pathogenic microorganisms, increase mucus production and antioxidant properties, and reduce ammonia production (Hashemi and Davoodi, 2011HASHEMI, S. R.; DAVOODI, H. Herbal plants and their derivatives as growth and health promoters in animal nutrition. Veterinary Research Communications, v.35, p.169-180, 2011.). Several studies using essential oils have shown interesting results, demonstrating their effectiveness in the diet of broilers by improving feed conversion and increasing weight gain (Rizzo et al., 2010RIZZO, P.V.; MENTEN, J. F.M.; RACANICCI, A. M. C.; TRALDI, A. B.; SILVA, C. S.; PEREIRA, P. W. Z. Extratos vegetais em dietas para frangos de corte. Revista Brasileira de Zootecnia, v. 39, n. 4, p.801-807, 2010.; Teixeira et al., 2014TEIXEIRA, E. N. M.; SILVA, J. H. V.; COSTA, F. G. P.; SILVA, C. T.; GOULART, C. C.; MELO, T. S. Essential fennel oil the diet of broilers chickens allotted to new and recycled litters. Revista Científica de Produção Animal, v. 13, p. 58-62, 2014.; Cho et al., 2014CHO, J.H.; KIM, H.J.; KIM, I.H. Effects of phytogenic feed additive on growth performance, digestibility, blood metabolites, intestinal microbiota, meat color andrelative organ weight after oral challenge with Clostridium perfringens in broilers. Livestock Science, v. 160, p. 82-88, 2014.; Koiyama et al., 2014KOIYAMA, N.T.G; ROSA, A.P.; PADILHA, M.T.S. et al. Desempenho e rendimento de carcaça de frangos de corte alimentados com mistura de aditivos fitogênicos na dieta. Pesquisa Agropecuária. Brasileira, v. 49, n. 3. P. 225-231, 2014.; Fascina et al., 2017FASCINA, V.; PASQUALI, G,; CARVALHO, F.; MURO, E.; VERCESE, F.;, AOYAGI, M.; PEZZATO, A.; GONZALES, E.; SARTORI, J. Effects of phytogenic additives and organic acids, alone or in combination, on the performance, intestinal quality and immune responses of broiler chickens. Revista Brasileira de Ciência Avícola, v. 19, n. 3, p. 497-508, 2017.).

Because of their recognized beneficial properties, various plant species have the potential to be used in poultry feeding, including cinnamon (Cinnamomum spp.) and lemongrass (Cymbopogon citratus Stapf).

Cinnamon is an aromatic plant known for over 2500 B.C. and one of the first spices used by humanity. It is native to Sri Lanka and belongs to the family Lauraceae. Its properties include antioxidant, sedative, antiseptic, anti-inflammatory, appetite-stimulating, and digestive effects (Freire et al., 2011FREIRE, J. M.; CARDOSO, M. G.; BATISTA, L. R.; ANDRADE, J. Essential oil of Origanum manjorona, Illicium verum and Cinnamomum zeylanicum: chemical characterization and antimicrobial activity. Revista Brasileira de Plantas Medicinais (Impresso), v. 13, p. 209-214, 2011.).

Lemongrass is originally from India and was introduced in Brazil in the colonial period. It is also popularly known as citronella grass, barbed wire grass, and fever grass. Like cinnamon, lemongrass is also widely used in folk medicine due to its restorative, digestive, analgesic, antipyretic, anti-inflammatory, and calming properties (Costa et al., 2011COSTA, C. A. R. A.; KOHN, D. O.; LIMA, V. M.; GARGANO, A. C.; FLÓRIO, J. C.; COSTA, M. The GABAergic system contributes to the anxiolytic-like effect of essential oil from Cymbopogon citratus (lemongrass). Journal of Ethnopharmacology, v. 137, p. 828-836, 2011.).

These properties make essential oils extracted from these plants a viable option to be used in poultry feed, as they are innovative, natural products that do not leave residues (Silva et al, 2011SILVA, M. P.; PESSOTI, B. M. S.; ZANINI, F. S.; COLNALGO, G. L.; NUNES, L. C.; RODRIGUES, M. R. A.; FERREIRA, L. Essential oil from Brazillian red pepper as an additive in broiler diet. Ciência Rural, v. 41, n. 4, p. 676-681, 2011.). Despite all these benefits, there are few studies evaluating feed supplementation for slow-growing broilers, and most of this limited research was carried out with industrial broilers.

Therefore, the present study was undertaken to examine the effects of essential oils on the growth performance and carcass yield of slow-growing broilers reared from 1 to 70 days of age.

MATERIALS AND METHODS

The experiment was conducted from March to May 2018 in the Poultry Section of the Federal University of Acre (UFAC). All procedures were approved by the Ethics Committee on Animal Use (CEUA) of UFAC, Brazil (approval no. 50/2017), and carried out in accordance with guidelines for the use of research animals.

Air temperature data were obtained from the Meteorological Station of UFAC, located in the municipality of Rio Branco - AC, Brazil (9°57'14.3" S and 67°51'44.7" W).

Table 1 shows the minimum, maximum, and average temperatures collected during the experiment developed from March 15 to May 25, 2018.

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Table 1
Minimum, maximum, and average air temperatures during the rearing periods.

The study involved 270 one-day-old female chicks of the Vermelho Pesado line vaccinated against infectious bursal disease, Marek’s disease, and fowl pox. All birds were housed in an experimental chick-chicken shed measuring 16 m × 5 m, with 32 partitions of 2 m² each, with a usable area consisting of 27 boxes. The floor was covered by a shavings bed with a height of 10 cm and the sides of the shed were protected by curtains. Each partition was equipped with a 100-W incandescent lamp for heating the birds in the initial period of rearing, a pendulum drinker, and a tray-type feeder that was replaced with another semi-automatic type after 15 days of experiment.

The birds were reared in an intensive system in which they received fresh water and feed ad libitum. The experiment was laid out in a completely randomized design with three treatments and nine replicates, totaling 27 experimental plots, with 10 animals each.

Treatments consisted of a diet without essential oil (control) and diets with the addition of cinnamon essential oil (37.5 ppm) and lemongrass essential oil (37.5 ppm) (Koiyama et al., 2014KOIYAMA, N.T.G; ROSA, A.P.; PADILHA, M.T.S. et al. Desempenho e rendimento de carcaça de frangos de corte alimentados com mistura de aditivos fitogênicos na dieta. Pesquisa Agropecuária. Brasileira, v. 49, n. 3. P. 225-231, 2014.).

The diets were isonutritive and isoenergetic, maize- and soybean meal-based, and prepared according to the nutritional levels recommended by Rostagno et al. (2011)ROSTAGNO, H. S.; ALBINO, L. F. T.; DONZELE, J. L.; GOMES, P. C.; OLIVEIRA, R. F.; LOPES, D. C.; FERREIRA, A. S.; BARRETO, S. L. T.; EUCLIDES, R. F. Tabelas brasileiras para aves e suínos: composição de alimentos e exigências nutricionais de aves e suínos. 3ªedição, Viçosa, MG: UFV, 252 p., 2011. (Table 2).

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Table 2
Guaranteed levels of chemical components in the experimental diets.

The essential oils were first incorporated into a portion of the diet and, after their complete homogenization, the rest of the feed to be supplied to the animals was mixed. To minimize the effects of volatilization of essential oils, this procedure was performed daily.

At 14, 28, 42, 56, and 70 days, birds and orts were weighed to measure the following performance parameters: feed intake (kg), live weight (kg), feed conversion (kg/kg), and feed efficiency (kg/kg). Animals that died during the experiment were weighed to determine production viability (Viability (%) = 100 – % mortality).

To evaluate carcass yield, one bird with average weight representative of the experimental unit was separated per replicate, for each treatment. The birds were fasted for 12 h and on the following day (71 days) they were stunned and slaughtered by jugular vein section, followed by scalding, plucking, and evisceration. The yields of carcass, abdominal fat, primal cuts (breast, drumsticks, thighs, and wings), and internal organs (liver, gizzard, heart, bursa of Fabricius, spleen, and intestines) were also evaluated.

Carcass yield was calculated as the ratio between clean carcass weight (without feet and head) and fasted live weight. The yields of breast, drumsticks, thighs, and wings were calculated as the ratio between the weight of these parts and clean carcass weight. The proportion of abdominal fat and internal organs (liver, gizzard, heart, bursa of Fabricius, spleen, and intestines) was obtained as the ratio between the weight of these parts and organs relative to fasted weight.

Growth performance and yield data were subjected to analysis of variance (ANOVA). When significant differences were found between treatments, the Scott-Knott mean comparison test was performed at the 5% significance level.

RESULTS AND DISCUSSION

Table 3 shows the live weight, feed intake, feed conversion, and production viability results.

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Table 3
Live weight, feed intake, feed conversion, and viability.

There were no significant differences for feed intake between treatments (P>0.05), in any of the rearing periods. A major concern is that the addition of essential oils could cause a reduction in feed intake by birds, as observed by Alçiçek et al. (2003)ALÇIÇEK, A.; BOZKURT, M.; ÇABUK M. The effect of an essential oil combination derived from selected herbs growing wild in Turkey on broiler performance. South African Journal of Animal Science, v. 2, n. 33, p. 89-94, 2003., who described a reduction in the intake of birds that received a diet with a mixture of essential oils of oregano, bay leaf, sage, fennel, and citrus. As in this study, Azevedo et al. (2017)AZEVEDO, I.L.; MARTINS, E.R.; ALMEIDA, A.C. et al. Use of Lippia rotundifolia and Cymbopogon flexuosus essential oils, individually or in combination, in broiler diets. Revista Brasileira de Zootecnia, v. 46, p. 13-19, 2017. did not find significant differences in an experiment evaluating the feed intake of broilers (Cobb) that received diets supplemented with 120 mg of lemongrass essential oil. Qotbi (2016)QOTBI, A.A.A. The Effect of Cinnamon Powder and Cinnamon extract on performance, blood parameters and microbial population of broiler. Journ. of Babylon Univers, v. 24, n. 9, p. 2654-2660, 2016., in turn, observed that in the period from 1 to 21 days, Ross 308 birds exhibited a higher feed intake when treated with 200 ppm of cinnamon extract.

At 14, 28, and 42 days of age, live weight differed significantly (p <0.05), with higher results occurring in the group fed lemongrass essential oil than in those which received cinnamon essential oil. However, at 56 and 70 days, the treatment with lemongrass essential oil did not maintain this result. Koiyama et al. (2014)KOIYAMA, N.T.G; ROSA, A.P.; PADILHA, M.T.S. et al. Desempenho e rendimento de carcaça de frangos de corte alimentados com mistura de aditivos fitogênicos na dieta. Pesquisa Agropecuária. Brasileira, v. 49, n. 3. P. 225-231, 2014. also observed good performance with the use of phytogenic additives in the initial and intermediate stages of rearing and, similarly to the present study, they reported a decrease in the effectiveness of the compounds in the final period. According to these authors, the beneficial action of phytogenic additives on broiler performance is age-dependent. Thus, the absence of a significant effect of lemongrass essential oil on live weight in the final stages of rearing may be related to the decrease in the nutritional requirements of birds with age and the development of their organs and digestive system. In addition, the response seen in the experiment suggests that there was a compensatory gain in the other treatments in the final production stages.

As in this study, Mukhtar et al. (2012)MUKHTAR, A.M.; MOHAMED, K.A.; AMAL, O.A. et al. Effect of different levels of lemon grass oil (LGO) as a natural growth promoter on the performance, carcass yields and serum chemistry of broiler chicks. Egyptian Poultry Science, v. 33, p. 1-7. 2012. also observed that the inclusion of different levels of Cymbopogon citratus essential oil in the diet resulted in higher body weight in Ross (308) broilers when compared with the treatment without additives. On the other hand, the body weight of birds supplemented with cinnamon essential oil was similar to that of birds fed the control diet throughout the rearing period. The results of this study were similar to those observed by Barreto et al. (2008)BARRETO, M.S.R.; MENTEN, J.F.M.; RACANICCI A.M.C. et al. Plant extracts used as growth promoters in broilers. Revista Brasileira de Ciência Avícola, v. 10, p. 109 115, 2008., who did not find statistically significant differences in the live weight of Cobb broilers fed diets supplemented with 1000 ppm cinnamon essential oil. According to Thayalini et al. (2011)THAYALINI, K.; SHANMUGAVELU, S.; SAMINATHAN, P.M. et al. Effects of Cymbopogon citratus leaf and Zingiber officinale rhizome supplementation on g rowth performance, ileal morphology and lactic acid concentration in broilers. Malays Journou of Animal Science, v. 14, p. 43-49, 2011., the differences in performance between the cinnamon and lemongrass essential oil groups in this experiment can be explained by variations in the quality of the plants present in the essential oils and the rates used.

Birds that received diets containing lemongrass essential oil showed better feed conversion (P<0.05) from 1 to 42 and 1 to 56 days of age (Table 3). Considering that this parameter is dependent on body weight and feed intake, this improvement was possibly due to the lower feed intake and higher body weight of the birds in the treatment with lemongrass essential oil, which resulted in an improved feed conversion during these stages of rearing. For Brenes and Roura (2010)BRENES, A.; ROURA, E. Essential oils in poultry nutrition: Main effects and modes of action. Animal Feed Science Technology, v. 158, p. 1-4, 2010., the inclusion of phytogenic additives in poultry feed leads to a reduction in feed intake with practically unchanged final body weight, resulting in a better feed conversion rate, which may be a consequence of better utilization of the diet nutrients. Toghyani et al. (2011)TOGHYANI, M.; GHEISARI, A.; GHALAMKAR, G. et al. Evaluation of cinnamon and garlic as antibiotic growth promoter substitutions on performance, immune responses, serum biochemical and haematological parameters in broiler chicks. Livestock Science, v. 138, p. 167-173, 2011. compared the effect of diets containing antibiotics (flavophospholipol) or essential oils of cinnamon and garlic extract and observed that in the period from 14 to 29 days, birds of the Ross line that received the treatment with the essential oil showed better feed conversion than the control group. In the study by Azevedo et al. (2017)AZEVEDO, I.L.; MARTINS, E.R.; ALMEIDA, A.C. et al. Use of Lippia rotundifolia and Cymbopogon flexuosus essential oils, individually or in combination, in broiler diets. Revista Brasileira de Zootecnia, v. 46, p. 13-19, 2017., however, there were no significant differences in the feed conversion of Cobb broilers fed diets containing microencapsulated essential oils of Cymbopogon flexuosus and Lipia rotundifolia alone or combined.

The inclusion of essential oils did not influence the birds’ production viability, which was high (98 to 100%). This is likely due to the good sanitary conditions in which the animals were raised, which also explains the absence of significant results between treatments. According to Fernandes et al. (2015)FERNANDES, R.T.V.; ARRUDA, A.M.V.; OLIVEIRA, V.R.M. et al. Aditivos fitogênicos na alimentação de frangos de corte: óleos essenciais e especiarias. PUBVET, v. 9, n.12, p. 526-535, 2015., the action of performance-enhancing additives, including phytogenic additives such as essential oils, is more effective when birds are subjected to sanitary challenge conditions, such as high population density, high risk of contamination, poor hygiene, or exposure to diseases. As in this study, Noleto et al. (2018)NOLETO, R.A.; LEANDRO, N.S.M.; MELLO H.H.C. et al. Supplementation of copaiba or sucupira oils in broiler diets. 2018. Revista Brasileira de Saúde e Produção Animal, v. 19, n. 1, p. 83-92, 2018. also found no significant differences in the production viability of broilers fed diets containing diesel tree (Copaifera langsdorffii) or sucupira (Pterodon emarginatus) essential oils in all rearing periods. The authors highlighted the lack of a sanitary challenge as a reason for the results. Hajati et al. (2011)HAJATI, H.; HASANABADI, A.; WALDROUP, P. W. Effects of Dietary Supplementation with Pumpkin oil (Cucurbita pepo) on Performance and Blood Fat of Broiler Chickens during Finisher Period. American Journal of Animal and Veterinary Sciences, v. 6, n. 1, p. 40-44, 2011., in turn, found that pumpkin (Cucurbita pepo) oil reduced broiler mortality, without having any adverse effect on bird performance.

Table 4 describes the effect of supplementation with essential oil on the yields of carcass, primal cuts (breast, thighs, drumsticks, and wings), and abdominal fat of the broilers.

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Table 4
Yields of carcass, breast, drumsticks, thighs, wings, and abdominal fat of slow-growing broilers fed a diet containing cinnamon essential oils or lemongrass at 71 days.

Among the analyzed variables, only thigh yield was affected by the inclusion of cinnamon and lemongrass essential oils in the diet (P<0.05). A similar fact was described by Koiyama et al. (2014)KOIYAMA, N.T.G; ROSA, A.P.; PADILHA, M.T.S. et al. Desempenho e rendimento de carcaça de frangos de corte alimentados com mistura de aditivos fitogênicos na dieta. Pesquisa Agropecuária. Brasileira, v. 49, n. 3. P. 225-231, 2014., who did not observe differences in carcass yield; however, the drumstick + thigh yield was significantly higher in the treatment with a mixture of essential oils of rosemary, clove, ginger, oregano, cinnamon, sage, white thyme, and copaíba oil-resin. Najafi and Torki (2010)NAJAFI, P.; TORKI, M. Performance, blood metabolites and immunocompetaence of broiler chicks fed diets included essential oils of medicinal herbs. Journal of animal and veterinary advances. v. 9, p. 1164-1168, 2010. found that treatment with cinnamon essential oil provided the best drumstick yield. Khattak et al. (2014)KHATTAK, F.; RONCHI, A.; CASTELLI, P. et al. Effects of natural blend of essential oil on growth performance, blood biochemistry, cecal morphology, and carcass quality of broiler chickens. Poultry Science, n. 93, p. 132-137, 2014., in turn, observed higher carcass and breast yields in animals treated with a commercial combination of essential oils of basil, cumin, bay leaf, lemon, oregano, sage, tea, and thyme, compared with the feed without additives. According to Teixeira et al. (2013)TEIXEIRA, B., MARQUES, A., RAMOS, C., NENG, N. R., NOGUEIRA, J. M. F., SARAIVA, J. A.; NUNES, M. L. Chemical composition and antibacterial and antioxidant properties of commercial essential oils. Industrial Crops and Products, v.43, 587-595, 2013., the better performance for some carcass traits with the use of essential oils (cinnamon and lemongrass) described in this study may have been due to the action of these additives as a reducer of immune stress, which improves the integrity of the intestinal mucosa and provides better use of dietary nutrients for muscle growth.

Table 5 shows the yields of internal organs, which did not differ between treatments (P>0.05). Kırkpınar et al. (2010) worked with a control diet and diets with essential oils of oregano, garlic, or a mixture of both and did not find differences in the relative weight of organs. Gomathi et al. (2018)GOMATHI, G.; SENTHILKUMAR, S.; NATARAJAN, A. et al. Effect of dietary supplementation of cinnamon oil and sodium butyrate on carcass characteristics and meat quality of broiler chicken. Veterinary World, v. 11, n. 7, p. 959-964, 2018. made similar observations regarding the yields of liver, gizzard, and heart when cinnamon essential oil was added to the broilers’ diet.

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Table 5
Yields of gizzard, liver, heart, intestines, bursa of Fabricius, and spleen of slow-growing broilers fed a diet containing essential oils of cinnamon or lemongrass at 71 days of age.

CONCLUSIONS

Diet supplementation with lemongrass essential oil at a concentration of 37.5 ppm improves performance rates in the starter and grower phases. The inclusion of cinnamon or lemongrass essential oils improves thigh yield.

REFERENCES

ALÇIÇEK, A.; BOZKURT, M.; ÇABUK M. The effect of an essential oil combination derived from selected herbs growing wild in Turkey on broiler performance. South African Journal of Animal Science, v. 2, n. 33, p. 89-94, 2003.
AZEVEDO, I.L.; MARTINS, E.R.; ALMEIDA, A.C. et al. Use of Lippia rotundifolia and Cymbopogon flexuosus essential oils, individually or in combination, in broiler diets. Revista Brasileira de Zootecnia, v. 46, p. 13-19, 2017.
BARRETO, M.S.R.; MENTEN, J.F.M.; RACANICCI A.M.C. et al. Plant extracts used as growth promoters in broilers. Revista Brasileira de Ciência Avícola, v. 10, p. 109 115, 2008.
BRENES, A.; ROURA, E. Essential oils in poultry nutrition: Main effects and modes of action. Animal Feed Science Technology, v. 158, p. 1-4, 2010.
CHO, J.H.; KIM, H.J.; KIM, I.H. Effects of phytogenic feed additive on growth performance, digestibility, blood metabolites, intestinal microbiota, meat color andrelative organ weight after oral challenge with Clostridium perfringens in broilers. Livestock Science, v. 160, p. 82-88, 2014.
COSTA, C. A. R. A.; KOHN, D. O.; LIMA, V. M.; GARGANO, A. C.; FLÓRIO, J. C.; COSTA, M. The GABAergic system contributes to the anxiolytic-like effect of essential oil from Cymbopogon citratus (lemongrass). Journal of Ethnopharmacology, v. 137, p. 828-836, 2011.
DUARTE A.F. Boletim de dados meteorológicos de Rio Branco-AC. Universidade Federal do Acre, 2018.
FASCINA, V.; PASQUALI, G,; CARVALHO, F.; MURO, E.; VERCESE, F.;, AOYAGI, M.; PEZZATO, A.; GONZALES, E.; SARTORI, J. Effects of phytogenic additives and organic acids, alone or in combination, on the performance, intestinal quality and immune responses of broiler chickens. Revista Brasileira de Ciência Avícola, v. 19, n. 3, p. 497-508, 2017.
FERNANDES, R.T.V.; ARRUDA, A.M.V.; OLIVEIRA, V.R.M. et al. Aditivos fitogênicos na alimentação de frangos de corte: óleos essenciais e especiarias. PUBVET, v. 9, n.12, p. 526-535, 2015.
FREIRE, J. M.; CARDOSO, M. G.; BATISTA, L. R.; ANDRADE, J. Essential oil of Origanum manjorona, Illicium verum and Cinnamomum zeylanicum: chemical characterization and antimicrobial activity. Revista Brasileira de Plantas Medicinais (Impresso), v. 13, p. 209-214, 2011.
GOMATHI, G.; SENTHILKUMAR, S.; NATARAJAN, A. et al. Effect of dietary supplementation of cinnamon oil and sodium butyrate on carcass characteristics and meat quality of broiler chicken. Veterinary World, v. 11, n. 7, p. 959-964, 2018.
HASHEMI, S. R.; DAVOODI, H. Herbal plants and their derivatives as growth and health promoters in animal nutrition. Veterinary Research Communications, v.35, p.169-180, 2011.
HAFEEZ, A.; MÄNNER, K.; SCHIEDER, C.; ZENTEK, J. Effect of supplementation of phytogenic feed additives (powdered vs. encapsulated) on performance and nutriente digestibility in broiler chickens. Poultry Science, v.95, n.3, p. 622-629, 2015.
HAJATI, H.; HASANABADI, A.; WALDROUP, P. W. Effects of Dietary Supplementation with Pumpkin oil (Cucurbita pepo) on Performance and Blood Fat of Broiler Chickens during Finisher Period. American Journal of Animal and Veterinary Sciences, v. 6, n. 1, p. 40-44, 2011.
NAJAFI, P.; TORKI, M. Performance, blood metabolites and immunocompetaence of broiler chicks fed diets included essential oils of medicinal herbs. Journal of animal and veterinary advances. v. 9, p. 1164-1168, 2010.
KHATTAK, F.; RONCHI, A.; CASTELLI, P. et al. Effects of natural blend of essential oil on growth performance, blood biochemistry, cecal morphology, and carcass quality of broiler chickens. Poultry Science, n. 93, p. 132-137, 2014.
KOIYAMA, N.T.G; ROSA, A.P.; PADILHA, M.T.S. et al. Desempenho e rendimento de carcaça de frangos de corte alimentados com mistura de aditivos fitogênicos na dieta. Pesquisa Agropecuária. Brasileira, v. 49, n. 3. P. 225-231, 2014.
MUKHTAR, A.M.; MOHAMED, K.A.; AMAL, O.A. et al. Effect of different levels of lemon grass oil (LGO) as a natural growth promoter on the performance, carcass yields and serum chemistry of broiler chicks. Egyptian Poultry Science, v. 33, p. 1-7. 2012.
NOLETO, R.A.; LEANDRO, N.S.M.; MELLO H.H.C. et al. Supplementation of copaiba or sucupira oils in broiler diets. 2018. Revista Brasileira de Saúde e Produção Animal, v. 19, n. 1, p. 83-92, 2018.
PRAES, M.F.F.M.; LUCAS JUNIOR, J.; DUARTE, K.F. et al. Reduced nutrient excretion and environmental microbial load with the addition of a combination of enzymes and direct-fed microbials to the diet of broiler chickens. Revista Brasileira de Ciência Avícola, v. 18, p. 125-132, 2016.
QOTBI, A.A.A. The Effect of Cinnamon Powder and Cinnamon extract on performance, blood parameters and microbial population of broiler. Journ. of Babylon Univers, v. 24, n. 9, p. 2654-2660, 2016.
RIZZO, P.V.; MENTEN, J. F.M.; RACANICCI, A. M. C.; TRALDI, A. B.; SILVA, C. S.; PEREIRA, P. W. Z. Extratos vegetais em dietas para frangos de corte. Revista Brasileira de Zootecnia, v. 39, n. 4, p.801-807, 2010.
ROSTAGNO, H. S.; ALBINO, L. F. T.; DONZELE, J. L.; GOMES, P. C.; OLIVEIRA, R. F.; LOPES, D. C.; FERREIRA, A. S.; BARRETO, S. L. T.; EUCLIDES, R. F. Tabelas brasileiras para aves e suínos: composição de alimentos e exigências nutricionais de aves e suínos. 3ªedição, Viçosa, MG: UFV, 252 p., 2011.
SILVA, M. P.; PESSOTI, B. M. S.; ZANINI, F. S.; COLNALGO, G. L.; NUNES, L. C.; RODRIGUES, M. R. A.; FERREIRA, L. Essential oil from Brazillian red pepper as an additive in broiler diet. Ciência Rural, v. 41, n. 4, p. 676-681, 2011.
TEIXEIRA, B., MARQUES, A., RAMOS, C., NENG, N. R., NOGUEIRA, J. M. F., SARAIVA, J. A.; NUNES, M. L. Chemical composition and antibacterial and antioxidant properties of commercial essential oils. Industrial Crops and Products, v.43, 587-595, 2013.
TEIXEIRA, E. N. M.; SILVA, J. H. V.; COSTA, F. G. P.; SILVA, C. T.; GOULART, C. C.; MELO, T. S. Essential fennel oil the diet of broilers chickens allotted to new and recycled litters. Revista Científica de Produção Animal, v. 13, p. 58-62, 2014.
THAYALINI, K.; SHANMUGAVELU, S.; SAMINATHAN, P.M. et al. Effects of Cymbopogon citratus leaf and Zingiber officinale rhizome supplementation on g rowth performance, ileal morphology and lactic acid concentration in broilers. Malays Journou of Animal Science, v. 14, p. 43-49, 2011.
TOGHYANI, M.; GHEISARI, A.; GHALAMKAR, G. et al. Evaluation of cinnamon and garlic as antibiotic growth promoter substitutions on performance, immune responses, serum biochemical and haematological parameters in broiler chicks. Livestock Science, v. 138, p. 167-173, 2011.

Publication Dates

Publication in this collection
05 Aug 2022
Date of issue
2022

History

Received
21 May 2021
Accepted
27 May 2022

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.

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[7] DUARTE A.F. Boletim de dados meteorológicos de Rio Branco-AC. Universidade Federal do Acre, 2018.

[8] FASCINA, V.; PASQUALI, G,; CARVALHO, F.; MURO, E.; VERCESE, F.;, AOYAGI, M.; PEZZATO, A.; GONZALES, E.; SARTORI, J. Effects of phytogenic additives and organic acids, alone or in combination, on the performance, intestinal quality and immune responses of broiler chickens. Revista Brasileira de Ciência Avícola, v. 19, n. 3, p. 497-508, 2017.

[9] FERNANDES, R.T.V.; ARRUDA, A.M.V.; OLIVEIRA, V.R.M. et al. Aditivos fitogênicos na alimentação de frangos de corte: óleos essenciais e especiarias. PUBVET, v. 9, n.12, p. 526-535, 2015.

[10] FREIRE, J. M.; CARDOSO, M. G.; BATISTA, L. R.; ANDRADE, J. Essential oil of Origanum manjorona, Illicium verum and Cinnamomum zeylanicum: chemical characterization and antimicrobial activity. Revista Brasileira de Plantas Medicinais (Impresso), v. 13, p. 209-214, 2011.

[11] GOMATHI, G.; SENTHILKUMAR, S.; NATARAJAN, A. et al. Effect of dietary supplementation of cinnamon oil and sodium butyrate on carcass characteristics and meat quality of broiler chicken. Veterinary World, v. 11, n. 7, p. 959-964, 2018.

[12] HASHEMI, S. R.; DAVOODI, H. Herbal plants and their derivatives as growth and health promoters in animal nutrition. Veterinary Research Communications, v.35, p.169-180, 2011.

[13] HAFEEZ, A.; MÄNNER, K.; SCHIEDER, C.; ZENTEK, J. Effect of supplementation of phytogenic feed additives (powdered vs. encapsulated) on performance and nutriente digestibility in broiler chickens. Poultry Science, v.95, n.3, p. 622-629, 2015.

[14] HAJATI, H.; HASANABADI, A.; WALDROUP, P. W. Effects of Dietary Supplementation with Pumpkin oil (Cucurbita pepo) on Performance and Blood Fat of Broiler Chickens during Finisher Period. American Journal of Animal and Veterinary Sciences, v. 6, n. 1, p. 40-44, 2011.

[15] NAJAFI, P.; TORKI, M. Performance, blood metabolites and immunocompetaence of broiler chicks fed diets included essential oils of medicinal herbs. Journal of animal and veterinary advances. v. 9, p. 1164-1168, 2010.

[16] KHATTAK, F.; RONCHI, A.; CASTELLI, P. et al. Effects of natural blend of essential oil on growth performance, blood biochemistry, cecal morphology, and carcass quality of broiler chickens. Poultry Science, n. 93, p. 132-137, 2014.

[17] KOIYAMA, N.T.G; ROSA, A.P.; PADILHA, M.T.S. et al. Desempenho e rendimento de carcaça de frangos de corte alimentados com mistura de aditivos fitogênicos na dieta. Pesquisa Agropecuária. Brasileira, v. 49, n. 3. P. 225-231, 2014.

[18] MUKHTAR, A.M.; MOHAMED, K.A.; AMAL, O.A. et al. Effect of different levels of lemon grass oil (LGO) as a natural growth promoter on the performance, carcass yields and serum chemistry of broiler chicks. Egyptian Poultry Science, v. 33, p. 1-7. 2012.

[19] NOLETO, R.A.; LEANDRO, N.S.M.; MELLO H.H.C. et al. Supplementation of copaiba or sucupira oils in broiler diets. 2018. Revista Brasileira de Saúde e Produção Animal, v. 19, n. 1, p. 83-92, 2018.

[20] PRAES, M.F.F.M.; LUCAS JUNIOR, J.; DUARTE, K.F. et al. Reduced nutrient excretion and environmental microbial load with the addition of a combination of enzymes and direct-fed microbials to the diet of broiler chickens. Revista Brasileira de Ciência Avícola, v. 18, p. 125-132, 2016.

[21] QOTBI, A.A.A. The Effect of Cinnamon Powder and Cinnamon extract on performance, blood parameters and microbial population of broiler. Journ. of Babylon Univers, v. 24, n. 9, p. 2654-2660, 2016.

[22] RIZZO, P.V.; MENTEN, J. F.M.; RACANICCI, A. M. C.; TRALDI, A. B.; SILVA, C. S.; PEREIRA, P. W. Z. Extratos vegetais em dietas para frangos de corte. Revista Brasileira de Zootecnia, v. 39, n. 4, p.801-807, 2010.

[23] ROSTAGNO, H. S.; ALBINO, L. F. T.; DONZELE, J. L.; GOMES, P. C.; OLIVEIRA, R. F.; LOPES, D. C.; FERREIRA, A. S.; BARRETO, S. L. T.; EUCLIDES, R. F. Tabelas brasileiras para aves e suínos: composição de alimentos e exigências nutricionais de aves e suínos. 3ªedição, Viçosa, MG: UFV, 252 p., 2011.

[24] SILVA, M. P.; PESSOTI, B. M. S.; ZANINI, F. S.; COLNALGO, G. L.; NUNES, L. C.; RODRIGUES, M. R. A.; FERREIRA, L. Essential oil from Brazillian red pepper as an additive in broiler diet. Ciência Rural, v. 41, n. 4, p. 676-681, 2011.

[25] TEIXEIRA, B., MARQUES, A., RAMOS, C., NENG, N. R., NOGUEIRA, J. M. F., SARAIVA, J. A.; NUNES, M. L. Chemical composition and antibacterial and antioxidant properties of commercial essential oils. Industrial Crops and Products, v.43, 587-595, 2013.

[26] TEIXEIRA, E. N. M.; SILVA, J. H. V.; COSTA, F. G. P.; SILVA, C. T.; GOULART, C. C.; MELO, T. S. Essential fennel oil the diet of broilers chickens allotted to new and recycled litters. Revista Científica de Produção Animal, v. 13, p. 58-62, 2014.

[27] THAYALINI, K.; SHANMUGAVELU, S.; SAMINATHAN, P.M. et al. Effects of Cymbopogon citratus leaf and Zingiber officinale rhizome supplementation on g rowth performance, ileal morphology and lactic acid concentration in broilers. Malays Journou of Animal Science, v. 14, p. 43-49, 2011.

[28] TOGHYANI, M.; GHEISARI, A.; GHALAMKAR, G. et al. Evaluation of cinnamon and garlic as antibiotic growth promoter substitutions on performance, immune responses, serum biochemical and haematological parameters in broiler chicks. Livestock Science, v. 138, p. 167-173, 2011.

Period (days)	Temperature (^oC)

	Minimum	Maximum	Average
1 to 7	23.3	32.0	26.2
8 to 14	21.9	30.7	25.2
15 to 21	22.3	31.5	25.9
22 to 28	22.8	31.6	25.7
29 to 70	22.1	30.9	25.2

Component (%)	Age (days) Idades (dias)

	1 to 30	31 to 70
Moisture (max.)	12	12
Crude protein (min.)	19	17
Ether extract (min.)	30	30
Crude fiber (max.)	50	50
Ash (max.)	110	110
Calcium (min.)	0.7	7
Calcium (max.)	1.5	15
Phosphorus (min.)	0.6	0.6
Sodium (min.)	0.014	0.014
Folic acid (min.)	0.00006	0.00005
Pantothenic acid (min.)	0.0008	0.0008
Biotin (min.)	0.000006	3E-06
Copper (min.)	0.00063	0.0006
Choline (min.)	0.000035	0.025
Iron (min.)	0.00525	0.005
Iodine (min.)	0.000126	0.00012
Manganese (min.)	0.007	0.006
Methionine (min.)	0.000216	0.00017
Niacin (min.)	0.0032	0.0024
Selenium (min.)	0.00003	0.00003
Zinc (min.)	0.0063	0.006

	Period (days)

	1-14	1-28	1-42	1-56	1-70
Treatment	Live weight (kg)
Control	0.183 b	0.499 b	1.022 b	1.607 a	2.201 a
Cinnamon	0.182 b	0.505 b	1.018 b	1.601 a	2.192 a
Lemongrass	0.190 a	0.533 a	1.086 a	1.672 a	2.233 a
CV (%)¹	3.76	5.03	4.84	4.50	4.20
SEM²	±0.185	±0.008	±0.016	±0.024	±0.030
Treatment	Feed intake (kg)
Control	0.291 a	0.969 a	2.142 a	3.641 a	5.489 a
Cinnamon	0.290 a	0.956 a	2.090 a	3.551 a	5.352 a
Lemongrass	0.298 a	0.977 a	2.106 a	3.611 a	5.450 a
CV (%)¹	2.82	5.81	5.33	4.15	4.32
SEM²	±0.003	±0.019	±0.037	±0.049	±0.078
Treatment	Feed conversion (kg/kg)
Control	1.587 a	1.940 a	2.094 b	2.266 b	2.495 a
Cinnamon	1.598 a	1.896 a	2.054 b	2.218 b	2.440 a
Lemongrass	1.568 a	1.836 a	1.941 a	2.161 a	2.442 a
CV (%)¹	3.00	5.21	4.26	3.26	3.17
SEM²	±0.158	±0.032	±0.028	±0.024	±0.025
Treatment	Production viability (%)
Control	97.78 a	97.78 a	96.67 a	96.67 a	96.667 a
Cinnamon	100 a	98.89 a	98.89 a	98.89 a	98.89 a
Lemongrass	100 a	100 a	100 a	100 a	100 a
CV (%)¹	2.56	3.23	3.52	3.52	3.52
SEM²	±0.848	±1.063	±1.156	±1.156	±1.156

Treatment*	Carcass	Breast	Drumsticks	Thighs	Wings	AF
Control	72.460 a	26.513 a	14.714 a	12.758 b	12.524 a	2.555 a
Cinnamon	71.925 a	26.479 a	15.005 a	14.120 a	12.413 a	2.734 a
Lemongrass	72.546 a	26.425 a	15.042 a	14.654 a	12.074 a	2.992 a
CV (%)¹	2.91	6.06	7.35	9.83	7.14	26.59
SEM²	±0.701	±0.534	±0.365	±0.453	±0.293	±0.244

Treatment*	Gizzard	Liver	Heart	Intestines	Bursa	Spleen
Control	1.672 a	1.487 a	0.498 a	3.406 a	0.325 a	0.141 a
Cinnamon	1.723 a	1.522 a	0.443 a	3.443 a	0.298 a	0.146 a
Lemongrass	1.804 a	1.540 a	0.457 a	3.400 a	0.338 a	0.146 a
CV (%)¹	16.06	11.49	16.69	11.8	31.85	41.21
SEM²	±0.092	±0.058	±0.466	±0.134	±0.034	±0.144

Brazil

Brazil

Use of essential oils in the diet of slow-growing broilers and their effects on performance

Uso de óleos essenciais em dietas de frangos de corte de crescimento lento e seus efeitos sobre o desempenho

ABSTRACT

RESUMO

INTRODUCTION

MATERIALS AND METHODS

RESULTS AND DISCUSSION

CONCLUSIONS

REFERENCES

Publication Dates

History