Effect of Dietary Ginger (Zingiber officinalis) Powder on Growth Performance, Carcass Characteristics, And Gut Microbiota in Weaned Rabbits (Oryctolagus cuniculus)

Tansho Lufong Anslem; Nounamo Arthenice Jemima Guiekep; Aziwo Tatanja Niba

doi:10.37284/eajab.7.1.1881

Tansho Lufong Anslem The University of Bamenda
Nounamo Arthenice Jemima Guiekep The University of Bamenda
Aziwo Tatanja Niba The University of Bamenda

DOI: https://doi.org/10.37284/eajab.7.1.1881

Keywords: Carcass, Feeding, Growth, Gut microbiota, Rabbit

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Abstract

This study was conducted to evaluate the effects of dietary ginger powder as a natural feed additive on the growth performance, carcass traits and gut microbiota of growing rabbits. For this purpose, a total of 36 equal-sexed New Zealand white rabbits aged 6 weeks ± 5 days old were randomly assigned into 4 treatments with 3 replicates each. The control animals (T0) received the basal diet without feed additive, while the 3 other groups T1, T2, and T3 respectively received diets 5, 10, and 15 g of ginger/kg of feed. Data was collected on feed intake, body weight gain, carcass indices and gut microbial load. Results revealed that the inclusion of ginger significantly (p<0.05) increased daily feed intake approximately by 16.02 g in T1 (5g ginger) compared to the control. The total feed intake followed the same trend. Daily weight gain increased approximately by 3.46g T3 (15g ginger). The feed conversion ratio was not significantly affected by dietary ginger inclusion. The addition of ginger did not significantly (p>0.05) affect the carcass characteristics of rabbits; However, a reduction was observed in abdominal fat content with approximately 0.81% in T3. Ginger powder in rabbits’ diets caused a decrease in the population of pathogenic microorganisms (gram-positive bacteria) but did not have any effects on total coliforms (gram-negative bacteria). It can therefore be concluded that ginger could be added to growing rabbits’ feed to improve live weight and reduce levels of gram-positive bacteria

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References

Ademola SG, Farinu GO, Obe AA and Babatunde GM. (2006). Growth, haematological and biochemical studies on garlic-and ginger-fed broiler chickens. Moor Journal of Agricultural Research. 5(2): 122-128.

Adeniyi AA and Balogun OO. (2002). Utilization of flavour-treated blood-rumen content mixture in the diets of laying hens. Nigerian Journal of Animal Production. 29(1): 34-39.

Bakht J., Khan S., Shafi M. (2013). Antimicrobial potentials of fresh Allium cepa against gram-positive and gram-negative bacteria and fungi. Pakintain Journal of Botany 45(S1): 1–6.

Botsoglou NA, Florou-Paneri E, Christaki E, Fletouris DJ and Spais BA. (2002). Effect of dietary oregano essential oil on performance of chickens and on iron-induced lipid oxidation of breast, thigh, and abdominal fat tissues. British Poultry Science. 43: 223-230.

Cabuk M, Bozkurt M, Alcicek A, Akbas Y, Kucukylmaz K (2006). Effect of an herbal essential oil mixture on growth and internal organ weight of broilers from young and old breeder flocks. South African Journal of Animal Sciences. 36:135-141.

Choudhury, J. E. (2015). Effects of addition of ginger root powder as a natural feed additive. American Journal of Animal Science, 14:45-49.

Dieumou FE, Teguia A, Kuiate JR, Tamokou JD, Fonge NB and Dongmo MC. 2009. Effects of ginger (Zingiber officinale) and garlic (Allium sativum) essential oils on growth performance and gut microbial population of broiler chickens. Livestock research for rural development. 21(8): 23-32.

Duwa H, Amaza IB, Dikko MI, Raymond JB, Paullyne UO (2020). Effect of ginger (Zingiber officinale) on the growth performance and nutrient digestibility of finisher broiler chickens in the semi-arid zone of Nigeria. Nigerian Journal of Animal Science, 22(3): 279-286.

El-Deek AA, Attia YA, Maysa M, Hannfy M (2002). Effect of anise (Pimpinella anisum), ginger (Zingiber officinale Roscoe) and fennel (Foeniculum vulgare) and their mixture on the performance of broilers. Archieves of Geflugelkd 67(2):92-96.

Erener G, Ocak N, Ak FB, Ve-Altop A (2005). Performance of broiler fed peppermint (Menthol) or organ (Carvacrol) essential oil supplemented diet. Proceedings of 3rd National Congress of Animal Nutrition. pp. 58-62.

Fathi M., Abdelsalam M., Al-homidan I., Ebeid T., El-zarei M., Abou-Eme- ra O. (2017). Effect of probiotic supplementation and genotype on growth performance, carcass traits, haematological parameters and immunity of growing rabbits under hot environmental conditions. Animal Science journal 88: 1644–1650; doi:10.1111/asj.12811

Horton GMJ, Fennell MJ and Prasad BM. (1991). Effect of dietary garlic (Allium sativum) on performance, carcass composition and blood chemistry changes in broiler chickens. Canadian Journal of Animal Science. 71(3): 939-942.

Hossian J, Kamruzzaman M, Akbar A, Haque A (2015) Feeding garlic powder on growth performance, nutrient digestibility and carcass characteristics of rabbit. 2:74–81.

Hy-Line. (2015). Hy-Line International Hy-Line W-36 commercial layers management guide.

Jubril TO. (2019). Growth performance and Digestibility in growing rabbits fed diet supplemented with powdered ginger. Asian Journal of Research in Animal and Veterinary Sciences, 4(4): 1-5.

Karangiya VK, Savsani HH, Patil SS, Garg DD, Murthy KS, Ribadiya NK, Vekariya SJ. (2016) Effect of dietary supplementation of garlic, ginger and their combination on feed intake, growth performance and economics in commercial broilers. Veterinary World, 9(3):245–250.

Khan RU and Naz S. (2013). The applications of probiotics in poultry production. World’s Poultry Science Journal, 69 http://doi.org/10.1017/S0043933913000627.

Nasab M.E., Moslem B., Hamed A.P., Mahnaz A.H. and Jaafar E.N. (2015). Role of antibiotic in ruminant: Review. World Journal of Clinical Pharmacology, Microbiology and Toxicology, 1(1): 37-40.

Nweze B.O., Nwankwegu A.E. and Ekwe O.O. (2011). The performance of broiler chickens on African porridge fruit (Tetrapleura tetraptera) pod under different feeding regimes. Asian Journal of Poultry Sciences, 5(4): 144-149.

Odoemelam, V.U., Nwaogu, K.O., Ukachukwu, S.N., Esonu, B.O., Okoli, I.C., Etuk, E.B., Ndelekwute, E.K., Etuk, I.F., Aladi, N.O. and I.P. Ogbuewu (2013), Carcass and Organoleptic assessment of Broiler fed Ocimum gratissimum Supplemented diets. Proc. 38th Conf. Nig. Soc. Anim. Prod. 17-20th March, 2013, Rivers state Univ. of Sci. and Tech., Port Harcourt, 767-770.

Okoye F.C., Ugwuene M.C. and Mbarah J.U. (2006). Effects of local spices on the utilization of cassava peel meal-based diets by weaner rabbits. Pakistan Journal of Nutrition 5(3):203-20

Omage JJ, Onimisi PA, Adegbite EK and Agunbiade MO. 2007. The Effect of Ginger (ZingiberOfficinale Roscoe) Waste Meal on Growth Performance, Carcass characteristics, serum lipid and serum cholesterol profiles of rabbit. Pakistan Journal of Nutrition. 6(4): 359-362.

Onu PN and Aja PM. 2011. Growth performance and haematological indices of weaned rabbits fed garlic (Allium sativum) and ginger (Zingiber officinale) supplemented diets. International Journal of Food, Agriculture and Veterinary Science. 1: 51-59.

Onu P. N. (2010) Evaluation of two herbal spices as feed additives for finisher broilers. Biotechnology in Animal Husbandry, 26: 383-392.

Rahimi S, TeymoriZadeh Z, Torshizi K, Omidbaigi R and Rokni H. 2011. Effect of the three herbal extracts on growth performance, immune system, blood factors and intestinal selected bacterial population in broiler chickens. Journal of Agricultural Science and Technology. 13: 527-539.

Reeds PJ, Burrin DG, Davis TA and Fiorotto ML. 1993. Postnatal growth of gut and muscle: competitors or collaborators. Proceedings of the Nutrition Society. 52(01): 57-67.

Steel R. G., and Torrie J. H. (1980).Principles and procedures of statistics. McGraw Hill Book C, New York 633 pp. Stevens, C.E. and Hume, I.D. (1995). Comparative physiology of the vertebrate digestive system, 2nd ed. Cambridge University Press, Cambridge, United Kingdom.

Windisch W., Schedle K., Plitzer C. and Kroismayr A. (2008). Use of phytogenic products as feed additives for swine and poultry. Journal of Animal Science, 86: 140-148.

Yadgar and Yavuz G. (2015). Sumac (Rhus coriaria L) and ginger (Zingiber officinale) as feed additives in poultry nutrition. KSU Journal of Natural Science, 18(3): 44-48.

Zeng Z., Zhang S., Wang H. and Piao X. (2015). Essential oil and aromatic plants as feed additives in non-ruminant nutrition: Review. Journal of Animal Science And Biotechnology, 6: 7.

Zhang GF, Yang ZB, Wang Y, Yang WR, Jiang SZ and Gai GS. (2009). Effects of ginger root (Zingiber officinale) processed to different particle sizes on growth performance, antioxidant status and serum metabolites of broiler chickens. Poultry science. 88(10): 2159-2166.