Over the past decades antibiotics as growth promoters in poultry nutrition have been used in order to improve the quality of the final product (Schwarz et al., 2001; Sarica et al., 2005; Puvača et al., 2013). Although chicken raised with addition of antibiotics achieves good productive performance on one hand, on the other hand their side effects became a real public health problem worldwide (Donoghue, 2003). To improve chicken healthiness and to fulfil consumer expectations in relation to food quality, poultry producers nowadays commonly apply natural dietary supplements mainly medical, aromatic and spice herbs (Onibi et al., 2009). The positive effects of herbal supplements or phytoadditives on broiler performance (Amouzmehr and Dastar, 2009), carcass and meat quality (Khalafalla et al., 2011) have been demonstrated. The chicken products quality on the market is increasingly valued by consumers (Vukelić et al., 2014). Garlic (Allium sativum L.) has been widely used as a herbal supplement in broiler chicken diet because of its strong stimulating effect on the immune system and the very rich aromatic oils which enhance feed digestion (Gardzielewska et al., 2003). Black pepper (Piper nigrum L.) in broiler nutrition improves health status, increases absorption of selenium, vitamin B complex, enhances the thermogenesis of lipids and accelerates energy metabolism in the body (Al-Kassie et al., 2011a). Hot red pepper (Capsicum annuum L.) plays an important role in decreasing the deposition of cholesterol and fat in the body, contributes to triglycerides level decreasing and supports the vascular system in the body (Al-Kassie et al., 2011a). All of these spice herbs exhibit antiatherosclerotic, antimicrobial, hypolipidemic, antithrombotic, antidiabetic effects (Mansoub, 2011), antioxidant, anticarcinogenic, antiinflammatory effects (Pradeep and Kuttan, 2004), chemopreventive and chemotherapeutic effects (Al-Kassie et al., 2011a), and also exhibit positive effects on broilers production and blood lipid profile (Puvača et al., 2015).
The aim of this study was to investigate and show the effect of natural growth promoters such as garlic, black pepper and hot red pepper in broiler chicken nutrition on chicken carcass quality.
Animals, housing and nutrition
Biological tests were carried out under production conditions at the experimental farm “Pustara” in property of the Faculty of Agriculture, Department of Animal Science in Novi Sad and were previously described in Puvača et al. (2015). For experiment eight dietary treatments in four replicates were formed. Every dietary treatment included 150 chickens, which were divided in four pens with 37-38 chicken per each pen. For nutrition of chicks three mixtures were used, starter, grower and finisher. For the first 14 days, during the preparatory period, chicks were fed with starter mixture based on the corn and soybean meal. Following the preparation period, chicks were fed with grower mixtures for the next 21 days, and then for the last 7 days of fattening period with finisher mixtures of composition and nutritive value which is given in Table 1. Dietary mixtures in the experiments was as follows: T1 (Control diet), T2 (Garlic powder 0.5 g/100g), T3 (Garlic powder 1.0 g/100g), T4 (Black pepper powder 0.5 g/100g), T5 (Black pepper powder 1.0 g/100g), T6 (Hot red pepper 0.5 g/100g), T7 (Hot red pepper 1.0 g/100g) and T8 (Mixture of spices in ratio of 1:1:1 in total amount of 0.5 g/100g). During the experiment chicks were fed and watered ad libitum.
Indices |
Diet mixtures |
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Starter |
Grower |
Finisher |
|
Ingredients |
|
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Corn Wheat Soybean meal, 44% Soy protein concentrate Sunflower meal, 42% Corn gluten Yeast Chalk MCP Premix |
55.0 5.0 19.5 8.8 2.0 2.0 1.5 1.75 1.38 2.57 |
54.2 8.0 19.0 5.7 4.0 2.0 - 1.70 1.22 2.58 |
57.1 12.0 9.9 7.8 6.0 - - 1.50 0.98 2.32 |
Chemical composition |
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Dry matter Moisture Crude protein Crude fat Crude fibre Crude ash Ca P Metabolic Energy, MJ/kg |
89.4 10.5 21.1 3.9 3.5 5.0 0.8 0.6 12.5 |
89.3 10.7 20.7 3.9 3.5 4.8 0.9 0.6 12.8 |
89.4 10.5 17.3 4.7 3.6 5.6 1.1 0.5 13.3 |
*Spices are added on top on the basic diet
Samples collections
Statistical analyses
Statistical analyses were conducted within statistical software program Statistica 12 for Windows, to determine if variables differed between treatments. Significant effects were further explored using analysis of variance (ANOVA) with repeated measurements, least square means (LSM) and standard errors of least square means (SELSM), as well as Fisher's LSD post-hoc multiple range test with Bonferroni corrections to ascertain differences among treatment means. A significance level of p<0.05 was used.
From the results given in Table 2 it can be seen that the addition of herbal drugs has statistically significant (p<0.05) influence on all observed parameters of broiler chicken carcass characteristics. The highest live body weight prior to slaughter and after slaughtering and cooling was observed in chickens from treatments T6 (2448.1 g; 1950.7 g) and T7 (2446.8 g; 1957.1 g) with statistically significant differences as related to the control treatment T1 (2120.0 g; 1746.2 g). Addition of hot red pepper in amount of 1.0 g/100g led to statistically significant (p<0.05) weight of ready-to-grill carcass (1631.0 g) compared to the treatments T3 (1518.2 g), T4 and T5 (1351.7 g and 1418.8 g, respectively) and also compared to the control treatment T1 (1425.2 g). The highest dressing percentage (67.2%) was recorded in the treatment T5 and in the control treatment, while the lowest dressing percentage was recorded in treatment T4 with statistically significant differences (p<0.05).
Experimental treatments |
Parameters |
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Live weight prior to slaughter, g |
Weight after slaughtering and cooling, g |
Ready-to-grill, g |
Dressing, % |
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T1 T2 T3 T4 T5 T6 T7 T8 |
LSM LSM LSM LSM LSM LSM LSM LSM |
2120.0b 2363.7a 2333.1a 2092.5b 2080.6b 2448.1a 2446.8a 2360.0a |
1746.2bc 1906.2a 1835.1ab 1649.8c 1706.0c 1950.7a 1957.1a 1894.8a |
1425.2cd 1592.3ab 1518.2bc 1351.7d 1418.8cd 1621.1a 1631.0a 1564.7ab |
67.2ab 67.2ab 65.1cd 64.6d 68.1a 66.2bcd 66.6acb 66.3bc |
Pooled SELSM |
51.95 |
45.34 |
36.12 |
0.59 |
|
Treatments denoted with different letters in the same column are statistically significantly different (p<0.05)
According to our assumptions, addition of herbal drugs such as garlic, black pepper and hot red pepper significantly (p<0.05) influenced on carcass quality of broiler chickens. The results from this study are in agreement with investigation of Fayed et al. (2011) which showed that the dietary addition of garlic in amount of 0.5 kg/t to broiler chicken nutrition led to increased final body weights. This is also in agreement with the findings of Onibi et al. (2009) with other types of poultry. This study also showed that the addition of garlic, black pepper and hot red pepper had positive effect on production results of chickens, which is also in agreement with previous findings of Ashayerizadeh et al. (2009) with the use of garlic, black cumin and wild mint; Fadlalla et al. (2010), Stanaćev et al. (2011), Issa and Abo Omar, (2012) and Puvača et al. (2014) with the use of garlic powder; Al-Kassie et al. (2011a) with the use of black pepper and Valiollahi et al. (2013) with the use of black pepper and ginger in broiler chicken nutrition. As in this study, the investigation of Khalafalla et al. (2011) showed positive effects of phytogenic feed additives on the quality of broiler carcasses.
Obvious influence of dietary spice addition was recorded in the weight of carcass primal cuts (Table 3). Addition of garlic, hot red pepper and mixture of herbal drugs led to statistically significant (p<0.05) differences in the weight of breast meat, compared to the control and black pepper powder treatments, but without significant (p>0.05) differences within the treatments . The primal cuts of the most economically important parts such as drumsticks with thighs had the highest weights in treatments T7 (530.7 g), T6 (525.2 g), T2 (520.2 g) and T8 (497.1 g), with statistically significant differences (p<0.05) compared to treatments T4, T5 and T1 (438.5 g, 448.7 g and 461.1 g). Weight of wings ranged between 197.6 g (T7) to 160.8 g (T4), back 349.0 g (T7) to 301.3 g (T1), respectively.
Experimental treatments |
Parameters |
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Breast |
Drumsticks with thighs |
Wings |
Back |
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T1 T2 T3 T4 T5 T6 T7 T8 |
LSM LSM LSM LSM LSM LSM LSM LSM |
482.2c 550.2a 533.0ab 467.2c 491.1bc 567.8a 553.6a 554.0a |
461.1bc 520.2a 478.2bc 438.5c 448.7c 525.2a 530.7a 497.1ab |
180.5bc 187.6ab 174.8bc 160.8d 173.0cd 186.0abc 197.6a 183.2bc |
301.3cd 334.2acb 332.1acb 285.1d 306.0bdc 342.0ab 349.0a 330.3acb |
Pooled SELSM |
17.43 |
14.74 |
4.81 |
12.71 |
|
Treatments denoted with different letters in the same column are statistically significantly different (p<0.05)
Nasir and Grashorn (2010) confirmed positive and significant effects of the addition of two aromatic plants in broiler nutrition on weight gain, average daily weight gain, feed conversion ratio and abdominal fat percentage. Significant influence was observed in regard to carcass yield, breast percentage, crude protein content, grill losses and cooking losses. In opposite to the investigation of Nasir and Grashorn (2010) and to this study, Amouzmehr et al. (2012) showed that supplementation of garlic extracts in amount of 3.0 and 6.0% did not affect carcass characteristics including carcass yield, breast, thigh and abdominal fat. The effect of feeding broiler chicks on diets containing different levels of black pepper as natural feed additive on carcass characteristics were studied by Tazi et al., (2014); the results indicated that treatment supplemented with 1.0% of black pepper had significantly (p<0.05) higher values for body weight gain, feed intake, and dressing, best feed conversion ratio, and commercial cuts percentages such as breast, drumstick and thigh.
Experimental treatments |
Parameters |
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Breast |
Drumsticks with thighs |
Wings |
Back |
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T1 T2 T3 T4 T5 T6 T7 T8 |
LSM LSM LSM LSM LSM LSM LSM LSM |
33.8а 34.5а 35.1а 34.5а 34.6а 35.0а 33.9а 35.3а |
32.3а 32.6а 31.4а 32.4а 31.5а 32.4а 32.5а 31.7а |
12.6а 11.8b 11.5b 11.8ab 12.1ab 11.4b 12.1ab 11.7b |
21.1a 20.9a 21.8a 21.1a 21.5a 21.0a 21.3a 21.1a |
Pooled SELSM |
0.83 |
0.48 |
0.27 |
0.61 |
|
Treatments denoted with different letters in the same column are statistically significantly different (p<0.05)
Unlike the mass of primal carcass cuts, the share of the main cuts such as breast and drumsticks with thighs, in ready-to-grill carcass weight (Table 4) showed no significant (p>0.05) differences. In terms of the share of breasts, drumsticks with thighs and back, statistically significant differences were not observed (p>0.05). The largest share of wings in ready-to-grill carcass was recorded in the treatment T1 (12.6%) which was statistically significantly different (p<0.05) from those in the treatments T2 (11.8%), T3 (11 5%), T6 (11.4%) and T8 (11.7%), whereas treatments T4 (11.8%), T5 (12.1%) and T7 (12.1%) were not significantly different (p>0.05). Shahverdi et al. (2013) stated that drumstick and breast percentages were increased significantly (p<0.05) for broilers fed on black pepper at 0.02% level in the diet. Al-Kassie et al. (2011b) reported significant influence of hot red pepper to the dressing percentage which ranged from 72.0% in control group to 74.3% in group with addition 0.75% of pepper. Fayed et al. (2011) reported significant difference between the average dressing percentages, while this difference was not significant for giblet weight of the broilers fed rations with or without supplementation of garlic.
Based on the obtained results, it can be concluded that the addition of garlic, black pepper and hot red pepper in broiler chicken nutrition had positive effect on the chicken carcass quality. It can also be concluded that significant increase in the carcass weight after slaughtering and cooling and ready-to-grill carcass with favourable dressing percentages was influenced by hot red pepper supplementation in broiler diet, indicating hot red pepper is effective in altering the chicken body conformation. Also, the addition of garlic and hot red pepper led to significantly increased share of economically important parts of chicken carcass. The highest dressing percentage (67.2%) was recorded in the treatment T5 and in the control treatment.
This paper is a result of the research within the project III 46012 “Study of modern biotechnological methods in the production of animal feed in order to increase competitiveness, quality and safety of the feed”, financed by the Ministry of Education, Science and Technological Development, Republic of Serbia.