Influences of dietary supplementation of peanut skin powder (Arachis Hypogaea) on growth performance, carcass traits, blood chemistry, antioxidant activity and meat quality of broilers
M. E. Abd El-Hack A E , E. A. Ashour A , Gh. M. Elaraby B , A. O. Osman C and M. Arif DA Poultry Department, Faculty of Agriculture, Zagazig University, Zagazig 44111, Egypt.
B Food Science Department, Faculty of Agriculture, Zagazig University, Zagazig 44111, Egypt.
C Biochemistry Department, Faculty of Agriculture, Zagazig University, Zagazig 44111, Egypt.
D Department of Animal Sciences, University College of Agriculture, University of Sargodha, 40100, Pakistan.
E Corresponding author. Email: [email protected]; [email protected]
Animal Production Science 58(5) 965-972 https://doi.org/10.1071/AN16346
Submitted: 31 May 2016 Accepted: 28 September 2016 Published: 7 April 2017
Abstract
The present study aimed to investigate the effects of dietary supplementation with powdered peanut skin (PS) as natural antioxidant and growth promoter on growth performance, carcass characteristics, serum metabolites and meat quality of Cobb broiler chickens. A total of 240 unsexed Cobb 500 1-week-old broiler chicks were randomly assigned to four treatment groups with six replicates. The dietary treatments consisted of the basal diet as control and PS groups (1.0, 2.0, and 3.0 PS g/kg). Results showed that the highest values (P < 0.01) of live bodyweight and bodyweight gain were observed in the control group at 3 weeks of age and during the period of 1–3 weeks of age, respectively compared with all levels of PS. During 1–3 weeks of age, feed intake per day chicks fed the diet containing PS levels decreased numerically (P > 0.01) with increased levels of PS compared with the control. Supplementing 1.0 or 3.0 g/kg of PS insignificantly enhanced feed conversion ratio at 1–6 weeks of age. Dietary treatments significantly depressed giblets (P = 0.002), thigh (P = 0.0.027) and abdominal fat percentages (P > 0.0.1), however, increased (P = 0.004) breast percentage of broiler chicks at 6 weeks of age. The lowest value of serum creatinine and urea achieved by chicks fed diet contained 3.0 PS g/kg diet. Also, high density lipoprotein cholesterol in addition to triglycerides were significantly (P < 0.05 and P < 0.01) decreased with increasing level of PS supplementation. It can be concluded that PS as a phytogenic additive could be used as a supplementation to broiler diets to lower abdominal fat in carcass and cholesterol, creatinin and urea in blood. Sensory characteristics were not affected except that appearance was improved. Water-holding capacity was also improved.
Additional keywords: antioxidant enzymes, broiler chicks, peanut skin, performance, serum metabolites.
References
Abd El-Hack ME, Alagawany M (2015) Performance, egg quality, blood profile, immune function, and antioxidant enzyme activities in laying hens fed diets with thyme powder. Journal of Animal and Feed Sciences 24, 127–133.Abd El-Hack ME, Alagawany M, Farag MR, Tiwari R, Karthik K, Dhama K, Zorriehzahra J, Adel M (2016) Beneficial impacts of thymol essential oil on health and production of animals, fish and poultry: a review. Journal of Essential Oil Research 28, 365–382.
| Beneficial impacts of thymol essential oil on health and production of animals, fish and poultry: a review.Crossref | GoogleScholarGoogle Scholar |
Alagawany MM, Farag MR, Dhama K, Abd El-Hack ME, Tiwari R, Alam GM (2015a) Mechanisms and beneficial applications of resveratrol as feed additive in animal and poultry nutrition: a review. International Journal of Pharmacology 11, 213–221.
| Mechanisms and beneficial applications of resveratrol as feed additive in animal and poultry nutrition: a review.Crossref | GoogleScholarGoogle Scholar |
Alagawany M, Abd El-Hack ME, Farag MR, Tiwari R, Dhama K (2015b) Biological effects and modes of action of carvacrol in animal and poultry production and health - a review. Advances in Animal and Veterinary Sciences 3, 73–84.
| Biological effects and modes of action of carvacrol in animal and poultry production and health - a review.Crossref | GoogleScholarGoogle Scholar |
Ashour EA, Alagawany M, Reda FM, Abd El-Hack ME (2014) Effect of supplementation of Yucca Schidigera extract to growing rabbit diets on growth performance, carcass characteristics, serum biochemistry and liver oxidative status. Asian Journal of Animal and Veterinary Advances 9, 732–742.
| Effect of supplementation of Yucca Schidigera extract to growing rabbit diets on growth performance, carcass characteristics, serum biochemistry and liver oxidative status.Crossref | GoogleScholarGoogle Scholar |
Biswas A, Ahmed M, Bharti VK, Singh SB (2011) Effect of antioxidants on physio-biochemical and hematological parameters in broiler chicken at high altitude. Asian-Australasian Journal of Animal Sciences 24, 246–249.
| Effect of antioxidants on physio-biochemical and hematological parameters in broiler chicken at high altitude.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3MXjs12ru7s%3D&md5=146e32fc3b126094e8c3e6c53ff59d53CAS |
Çabuk M, Bozkurt M, Alcicek A, Akbas Y, Kucukyilmaz K (2006) Effect of a herbal essential oil mixture on growth and internal organ weight of broilers from young and old breeder flocks. South African Journal of Animal Science 36, 135–141.
| Effect of a herbal essential oil mixture on growth and internal organ weight of broilers from young and old breeder flocks.Crossref | GoogleScholarGoogle Scholar |
Cardoso VS, De-Lima CAR, De-Lima MEF, Dorneles LEG, Danelli MGM (2012) Piperine as a phytogenic additive in broiler diets. Pesquisa Agropecuaria Brasileira 47, 489–496.
| Piperine as a phytogenic additive in broiler diets.Crossref | GoogleScholarGoogle Scholar |
Cho JH, Kim HJ, Kim IH (2014) Effects of phytogenic feed additive on growth performance, digestibility, blood metabolites, intestinal microbiota, meat color and relative organ weight after oral challenge with Clostridium perfringens in broilers. Livestock Science 160, 82–88.
| Effects of phytogenic feed additive on growth performance, digestibility, blood metabolites, intestinal microbiota, meat color and relative organ weight after oral challenge with Clostridium perfringens in broilers.Crossref | GoogleScholarGoogle Scholar |
Fotina AA, Fisinin VI, Surai PF (2013) Recent developments in usage of natural antioxidants to improve chicken meat production and quality. Bulgarian Journal of Agricultural Science 19, 889–896.
Friedewald WT, Levy RI, Fredrickson DS (1972) Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clinical Chemistry 18, 499–502.
Hatano T, Kagawa H, Yasuhara T, Okuda T (1988) Two new flavonoids and other constituents in licorice root: their relative astringency and radical scavenging effects. Chemical & Pharmaceutical Bulletin 36, 2090–2097.
| Two new flavonoids and other constituents in licorice root: their relative astringency and radical scavenging effects.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL1cXlsVajsLc%3D&md5=21370d54e9500c94099e7b195b7d5181CAS |
Khajuria A, Thusu N, Zutshi U (2002) Piperine modulates permeability characteristics of intestine by inducing alterations in membrane dynamics: influence on brush border membrane fluidity, ultrastructure and enzyme kinetics. Phytomedicine 9, 224–231.
| Piperine modulates permeability characteristics of intestine by inducing alterations in membrane dynamics: influence on brush border membrane fluidity, ultrastructure and enzyme kinetics.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38Xlt1ejtrw%3D&md5=d5f73b01d91b4c6d60ec3b51fc9f815eCAS |
Kim JS, Ingale SL, Kim YW, Kim KH, Sen S, Ryu MH, Lohakare JD, Kwon IK, Chae BJ (2011) Effect of supplementation of multi-microbe probiotic product on growth performance, apparent digestibility, cecal microbiota and small intestinal morphology of broilers. Journal of Animal Physiology and Animal Nutrition 95, 632–641.
Kohlert C, van Rensen I, März R, Schindler G, Graefe EU, Veit M (2000) Bioavailability and pharmacokinetics of natural volatile terpenes in animals and humans. Planta Medica 66, 495–505.
| Bioavailability and pharmacokinetics of natural volatile terpenes in animals and humans.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3cXlvFais7s%3D&md5=2ed1b1eac015992592a9ae9500cec7a3CAS |
Kumar M, Sharma BD (2004) Quality and storage stability of low-fat pork patties containing barley flour as fat substitute. Journal of Food Science and Technology 41, 496–502.
Marzoni M, Chiarini R, Castillo A, Romboli I, De Marco M, Schiavone A (2014) Effects of dietary natural antioxidant supplementation on broiler chicken and Muscovy duck meat quality. Animal Science Papers and Reports 32, 359–368.
Munekata PES, Calomeni AV, Rodrigues CEC, Favaro-Trindade CS, Alencar SM, Trindade MA (2015) Peanut skin extract reduces lipid oxidation in cooked chicken patties. Poultry Science 94, 442–446.
| Peanut skin extract reduces lipid oxidation in cooked chicken patties.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC28XitVahsL%2FN&md5=6c3a560e46a846bac467e5a43a0fff36CAS |
Nath RL, Mahapatra CM, Kondaiah N, Singh JN (1996) Quality of chicken patties as influenced by microwave and conventional oven cooking. Journal of Food Science and Technology 33, 162–164.
Nepote V, Grosso NR, Guzmán CA (2000) Antioxidant activity of methanolic extracts from peanut skin. Molecules (Basel, Switzerland) 5, 487–488.
| Antioxidant activity of methanolic extracts from peanut skin.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3cXktlekt7k%3D&md5=9fd9c061e8d9239ab3a45261ac3d5a38CAS |
Nepote V, Grosso N, Guzman C (2002) Extraction of antioxidant components from peanut skins. Grasas y Aceites 53, 391–395.
| Extraction of antioxidant components from peanut skins.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3sXjsVarsLw%3D&md5=4dba8378bb1a6bbc8130cf442656e9e3CAS |
National Research Council (NRC) (1994) ‘Nutrient requirements of poultry.’ (National Academy of Sciences: Washington, DC)
O’Keefe SF, Wang H (2006) Effects of peanut skin extract on quality and storage stability of beef products. Meat Science 73, 278–286.
| Effects of peanut skin extract on quality and storage stability of beef products.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XivFSit70%3D&md5=64bf86eefdb6bf5572a9102820a012e4CAS |
Ocak N, Erener G, Burak AKF, Sungu M, Altop A, Ozmen A (2008) Performance of broilers fed diets supplemented with dry peppermint (Mentha piperita L.) or thyme (Thymus vulgaris L.) leaves as growth promoter source. Czech Journal of Animal Science 53, 169–175.
Perić L, Žikić D, Lukić M (2009) Application of alternative growth promoters in broiler production. Biotechnology in Animal Husbandry 25, 387–397.
| Application of alternative growth promoters in broiler production.Crossref | GoogleScholarGoogle Scholar |
Pradhan AA, Rhee KS, Hernández P (2000) Stability of catalase and its potential role in lipid oxidation in meat. Meat Science 54, 385–390.
| Stability of catalase and its potential role in lipid oxidation in meat.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3cXhs1Ghurk%3D&md5=530703fa0161d55927ad54bb37491ef0CAS |
Qwele K, Hugo A, Oyedemi SO, Moyo B, Masika PJ, Muchenje V (2013) Chemical composition, fatty acid content and antioxidant potential of meat from goats supplemented with Moringa (Moringa Oleifera) leaves, sunflower cake and grass hay. Meat Science 93, 455–462.
| Chemical composition, fatty acid content and antioxidant potential of meat from goats supplemented with Moringa (Moringa Oleifera) leaves, sunflower cake and grass hay.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXhsl2htQ%3D%3D&md5=49960db7744d129591a2882f975566ddCAS |
Rao L, Khizar H, Yi L, Karangwa E, Xia SQ, Jia CS, Zhong F, Zhang XM (2011) Effect of ultrafiltration and fining adsorbents on the clarification of green tea. Journal of Food Engineering 102, 321–326.
| Effect of ultrafiltration and fining adsorbents on the clarification of green tea.Crossref | GoogleScholarGoogle Scholar |
Rhee KS, Ziprin YA (2001) Pro-oxidative effects of NaCl in microbial growth controlled and uncontrolled beef and chicken. Meat Science 57, 105–112.
| Pro-oxidative effects of NaCl in microbial growth controlled and uncontrolled beef and chicken.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3cXmslKlt7s%3D&md5=4f554fef06b0117a44b13cd2b38165c0CAS |
Scheuermann GN, Cunha Junior A, Cypriano L, Gabbi AM (2009) Phytogenic additive as an alternative to growth promoters in broiler chickens. Ciência Rural 39, 522–527.
| Phytogenic additive as an alternative to growth promoters in broiler chickens.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXkvVCqsLw%3D&md5=0795d6e859c502b0b8eb3d84d1e485aeCAS |
SPSS (2008) ‘Statistical package for the social sciences.’ Release 16. (SPSS Inc.: Chicago, IL)
Su YK, Bowers JA, Zayas JF (2000) Physical characteristics and microstructure of reduced-fat frankfurters as affected by salt and emulsified fats stabilized with non-meat. Proteins. Journal of Food Science and Technology 65, 128–132.
Swain BK, Johri TS (2000) Effects of supplementation of combinations of different levels of selenium and vitamin E on relative weight of some organs and serum enzymes level in broilers. Indian Journal of Poultry Science 35, 66–69.
Tomotake H, Shimaoka I, Kayashita J, Nakajoh M, Kato N (2002) Physicochemical and functional properties of buckwheat protein product. Journal of Agricultural and Food Chemistry 50, 2125–2129.
| Physicochemical and functional properties of buckwheat protein product.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38XhsFWrtrg%3D&md5=31502bbf9eb6ade9893d5a943d3cda00CAS |
Van Ha H, Pokorny J, Sakurai H (2007) Peanut skin antioxidants. Journal of Food Lipids 14, 298–314.
| Peanut skin antioxidants.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXpvVekug%3D%3D&md5=289e7f68a9049a2faf4773ac439f99f0CAS |
Yen GC, Duh PD (1994) Scavenging effect of methanolic extracts of peanut hulls on free-radical and active-oxigen species. Journal of Agricultural and Food Chemistry 42, 629–632.
| Scavenging effect of methanolic extracts of peanut hulls on free-radical and active-oxigen species.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK2cXhs1ajsrk%3D&md5=884168854e31fc70d5e995bf5d27c589CAS |