Plumeria obtusa Leaf Powder Supplemented in the Diet of Pekin Ducks: Effect on Growth Performance, Carcass Characteristics and Caecal Microflora Count

Alagbe John Olujimi

doi:10.59653/ijmars.v3i02.1458

Authors

Alagbe John Olujimi Sumitra Research Institute, Gujarat, India

DOI:

https://doi.org/10.59653/ijmars.v3i02.1458

Keywords:

Antimicrobial, Duck, Growth, Performance, Phytoconstituents

Abstract

This experiment was carried out to evaluate Plumeria obtusa leaf powder supplemented in the diet of Pekin ducks: effect on growth performance, carcass characteristics and caecal microflora count. 400 Pekin ducklings (mixed sex) were used in the 42 days trial (Poultry Unit of Sumitra Research Institute, India) with an initial body weight of 42.55± 1.35 g were randomly distributed into five treatment groups with ten replicates (10 birds per replicate). An experimental bird (basal diet) was compounded following the requirement for ducks according Nutritional Research Council’s recommendation in 1994. Ducks in group A which also served as the control, was fed basal diet only, group B received basal diet supplemented with Oxytet® Plus (synthetic antibiotics) at 0.25 g/kg diet while those in group C, D and E were fed same diet (basal diet) supplemented with Plumeria obtusa leaf powder at 20 g, 40 g and 60 g/kg diet respectively. Average daily weight gain and average daily feed intake were higher in birds fed Plumeria obtusa leaf powder (C, D and E), intermediate in group B and lowest in group A (p˂0.05). Feed to gain ratio decreased as the level of Plumeria obtusa leaf powder increased in the diet (p˂0.05). Dressed percentage, eviscerated weight were significantly (p˂0.05) influenced by the diet except for the relative weights of heart, liver, spleen, head, back, thigh, drumstick, breast and wing (p˃0.05). Escherichia coli, Pseudomonas spp, Staphyllococcus spp and Stereptococcus spp counts were higher in group A relative to the other treatments. Conversely, Lactobacillus spp count were higher in group C, D and E compared to the other groups. It was concluded that dietary supplementation of Plumeria obtusa leaf powder up to 60 g/kg had to negative effect on the performance of ducks.

Downloads

Download data is not yet available.

References

Abudabos, A. M., M.Q. Al-Ghadi, A.H. Alyemni, R.M. Al-Atiyat and A.A. Al-Haidary. 2017. Effects of oregano essential oil on growth performance of broilers infected with Salmonella Typhimurium. Asian-Australasian Journal of Animal Sciences 30:227-233.

Adewale, A.O., Alagbe, J.O., Adeoye, Adekemi. O. (2021). Dietary Supplementation of Rauvolfia Vomitoria Root Extract as A Phytogenic Feed Additive in Growing Rabbit Diets: Haematology and serum biochemical indices. International Journal of Orange Technologies, 3(3): 1-12.

Aguoru, C.U., Offia, K.L., Olasan, J.O. (2016). Insecticidal efficacy of Plumeria species leaf extract on two economically important insects populations: mosquito (Anopheles) and Been weevils (Colloscobruchus maculatus). J. Herbal Med. Res. 1, 0001–0009.

Ahmed, S. T., M.E. Hossain, G.M. Kim, J.A. Hwang, H. Ji, C.J. Yang and S.B. Cho. 2019. Effects of natural blend of essential oil on growth performance, blood biochemistry, cecal morphology, and carcass quality of broiler chickens. Poultry Science 98:6589-6598.

Alagbe, J.O. (2024). Impact of dietary supplementation of Rhamnus prinoides leaf extract on the growth performance, nutrient retention and intestinal microbial count of Japanese quails. Brazilian Journal of Science, 3(5), 40-50.

Alagbe Olujimi John (2024). Novel phytogenics’ impact on weaned pigs growth performance, haematology and serum biochemical indicators. Black Sea Journal of Agriculture, 7(2): 82-89.

Ali, N., Ahmad, D., Bakht, J., Shah, S., Ullah, F., Rehman, M.V. (2013). Antimicrobial activity of leaves extracts samples from medicinally important Plumeria obtusa. J. Med. Plants Res. 7, 1121–1128.

Ali, N., Junaid, M., Ahmad, D., Urrahman, M., Ali, N., Katzenmeier, G. (2014). Antibacterial and antifungal activity of solvent extracts from Plumeria obtusa Linn. Trop. Biomed. 31, 607–615.

Amaral, A.C.F., Ramos, A.D.S., Ferreira, J.L.P., Santos, A.R.D., Falcão, D.Q., Silva, B.O.D., Ohana, D.T., Silva, J.R.A. (2013). A general description of apocynaceae iridoids chromatography. In: Martin, D.F., Martin, B.B. (Eds.), Column Chromatography. IntechOpen, pp. 149–182. doi:10.5772/55784 Chapter 6.

Ao, Y and I. H. Kim (2020). Effects of grape seed extract on performance, immunity, antioxidant capacity, and meat quality in Pekin ducks. Poultry Science 99:2078–2086 https://doi.org/10.1016/j.psj.2019.12.014

Asiimwe, S., Kamatenesi-Mugisha, M., Namutebi, A., Borg-Karlsson, A.K., Musiimenta, P. (2013). Ethnobotanical study of nutria-medicinal plants used for the management of HIV/Aids opportunistic ailments among the local communities of western Uganda. J. Ethnopharmacol. 150, 639–648.

Bihani, T and Mhaske, N. (2020). Evaluation of in vivo wound healing activity of Plumeria obtusa L. (Champa) spray in rats. Wound Med 28, 100176.

Botsoglou, N. A., P. Florou-Paneri, E. Christaki, I. Giannenas, A.B. Spais, and A. Ayoutanti. 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

Choudhary, M., Kumar, V., Singh, S. (2014). Phytochemical and pharmacological activity of genus Plumeria: an updated review. Int. J. Biomed. Adv. Res. 5, 266–271.

Daniel Nnadozie Anorue, Friday Ubong and Alagbe Olujimi John (2023). Investigating the effects of pawpaw (Carica papaya) essential oil dietary supplementation on the growth performance and carcass characteristics of broilers. Research in: Agricultural and Veterinary Sciences, 7(3): 164 - 174.

Devprakash, Tambare, R., Gurav, S., Kumar, G.P.S., Mani, T.T. (2012). An review of phytochemical constituents and pharmacological activity of Plumeria Species. Int. J. Curr. Pharmac. Res. 4, 1–6.

Diaz-Sanchez, S., D. D’Souza, D. Biswas, and I. Hanning. (2015). Botanical alternatives to antibiotics for use in organic poultry production. Poult. Sci. 94:1419–1430.

El-Kashef, D.F., Hamed, A.N.E., Khalil, H.E., Kamel, M.S. (2015). Triterpenes and sterols of family Apocynaceae (2013-1955), A review. J. Pharmacog. Phytochemistry 4, 21–39.

El-Sabrout, K., and S. Saleh. 2014. Effect of probiotic supplementation on growth performance, carcass characteristics and economic efficiency of Muscovy ducks. Egyptian Poultry Science Journal 34:865-880.

Garcia, V., P. Catalá-Gregori, F. Hernández, M.D. Megías and J. Madrid. 2016. Effect of formic acid and plant extracts on growth, nutrient digestibility, intestine mucosa morphology, and meat yield of broilers. Journal of Applied Poultry Research 26:463-474.

Hajati, H., A. Hassanabadi, H. Nassiri Moghaddam, and M. R. Nassiri. (2015). The effect of grape seed extract and vitamin C feed supplements carcass characteristics, gut morphology and ileal microflora in broiler chickens Exposed to Chronic heat stress. Iran. J. Appl. Anim. Sci. 5:155–165.

Haque, M.M., Choudhury, M.S., Hossain, M.S., Haque, M.A., Seraj, S., Rahmatullah, M. (2012). Ethnographic information and medicinal formulations of a Mro community of Gazalia union in the Bandarbans district of Bangladesh. Am.-Eurasian J. Sustain. Agric. 6, 162–171.

Iqbal, Z., Z. Kamran, J. I. Sultan, A. Ali, S. Ahmad, M. I. Shahzad, U. Ahsan, S. Ashraf, and M. U. Sohail. (2015). Replacement effect of Vitamin E with grape polyphenols on antioxidant status, immune, and organs histopathological responses in broilers from 1- to 35-d age. J. Appl. Poult. Res. 24:127–134.

John, A.O. (2024b). Clerodendron splendens leaf extract supplementation in weaner rabbits: impact on growth performance, haematology and intestinal microbial population. Cerrado: Agricultural and Biological Research, 1(1): 21-31.

John, A.O. (2024a). Impact of dietary supplementation of Rhamnus prinoides leaf extract on the growth performance, nutrient retention and intestinal microbial count of Japanese quails. Brazilian Journal of Science, 3(5): 40-50.

John, A.O. (2024c). Effect of coconut shell extract on the growth performance and some haemato-biochemical parameters of broiler chicken. Brazilian Journal of Science, 3(6): 82-95.

John, A.O. (2024d). Effect of performance, serum biochemistry and heamatological components of feeding Japanese quails phytogenic feed additions comprising Megaphrynium macrostachyum leaves. Brazilian Journal of Science, 3(5): 51-64.

John, A.O. (2024e). Growth performance, haemato-biochemical indices of broiler chicken fed Aristochia indica as a phytogenic feed additive. Cerrado: Agricultural and Biological Research, 1(1): 42-53.

Kamran, R.M., Khaliq, H.A., Uzair, M. (2020). Pharmacognostic and phytochemical studies on Plumeria obtusa L. J. Phytopharmacol. 9, 120–124.

Kanlayavattanakul, M., Lourith, N., Janwattanapol, J. (2013). Extraits and asolutes of Thia Plumeria obtusa L. flowers and their preference for cosmetics. House Pers. Care Today 8, 25–28.

Kasiyati K, Djaelani MA and Amal. K. (2019). Effect of supplementation of Moringa Oleifera leaf powder on reproductive performance and ovarian morphometry of pengging duck. International Journal of Poultry Science. 2019; 18: 340-348

Lokapirnasari WP, Agustono B. (2022). Effect of probiotic and Moringa oleifera extract on performance, carcass yield, and mortality of Peking duck. Veterinary World. 2022; 15(3): 694-700.

Lotankar, A.R., Momin, A.J., Wankhede, S., Sharma, J.B. (2016). Anti-inflammatory activity of an ornamental plant Plumeria obtusa. Adv. Pharmacol. Pharm. 4, 23–26. Narwariya, P., Nabi, J., Lalit, P., 2017. Comprehensive overview of Plumeria obtusa. World J. Pharmac. Res. 6, 664–676

Muritala, Daniel Shittu., Alagbe, J.O., Ojebiyi, O.O., Ojediran, T.K and Rafiu, T.A. (2022). Growth performance and haematological and serum biochemical parameters of broiler chickens given varied concentrations of Polyalthia longifolia leaf extract in place of conventional antibiotics. Animal Science and Genetics 18(2): 57-71.

Musa, B., Alagbe, J.O., Adegbite Motunrade Betty, Omokore, E.A. (2020). Growth performance, caeca microbial population and immune response of broiler chicks fed aqueous extract of Balanites aegyptiaca and Alchornea cordifolia stem bark mixture. United Journal for Research and Technology, 2(2):13-21.

Narwariya, P., Nabi, J., Lalit, P. (2017). Comprehensive overview of Plumeria obtusa. World J. Pharmac. Research, 6: 664–676.

Nittya, D. (2016). Phytochemical analysis and in vitro antioxidant studies of Plumeria obtusa L. leaves. Indian J. Pharm. Sci. 78, 169–171.

NRC (National Research Council and Subcommittee on Poultry Nutrition). Nutrient requirements of poultry. 1994. National Academies Press, Washington, D.C., USA.

Nuraeni, H and Rustaman, N.Y. (2019). Traditional knowledge of medicinal plants for health of women in Cibodas village, Lembang subdistrict West Bandung regency and their potency to development of biodiversity education. J. Phys. Conf. Series. 1317, 022115.

Ojediran, T.K., Emiola, I.A., Durojaye, V and John Alagbe (2024a). Proximate, vitamin and GC-MS profiling of Kigella africana powder. Cerrado: Agricultural and Biological Research, 1(1): 13-20.

Ojediran, T.K., Emiola, I.A., Durojaye, V and Alagbe, J.O. (2024b). Analysis of Kigellia africana fruit’s powder antioxidant and phytochemical properties. Brazilian Journal of Science, 3(7): 38-49.

Omokore, E.O and Alagbe, J.O. (2019). Efficacy of dried Phyllantus amarus leaf meal as an herbal feed additive on the growth performance, haematology and serum biochemistry of growing rabbits. International Journal of Academic Research and Development. 4(3): 97-104.

Olujimi John (2024). Cordyline fruticosa leaf powder supplemented in the diet of weaned pigs: effect on growth performance, heamatological and serum biochemical indices. Brazilian Journal of Sciences, 3(8): 52-63.

Olumuyiwa Joseph Olarotimi., Francis Ayodeji Gbore., Olufemi Adesanya Adu, Olugbenga David Oloruntola, Andrew Bamidele Falowo (2022). Effects of ginger meal supplementation on performance and meat antioxidative enzymes of broilers fed monosodium glutamate. Acta fytotechn zootechn, 25, 2022(3): 174–184 http://www.acta.fapz.uniag.sk.

Pramestya NR, Hidanah S and Kim, H. (2021). Supplementation of fermented moringa leaf powder (Moringa oleifera) on feed consumption, egg weight and feed conversion ratio (FCR) in laying duck. Jurnal Medik Veteriner. 2021; 4(1): 78-83

Ralph Lester M. Enriquez and Sance J. Secondez (2024). Enhancing Muscovy Duck Meat Quality and Growth Development Through Oregano Extract Supplementation: A Study in Agricultural Innovation. J. Global Journal of Innovation in Agricultural Science, 12(2):449-455.

Shittu, M.D., Alagbe, J.O., Alaba, O., Okanlawon, E.O., Adelakun, F.A., Emmanuel, E.O and Adejumo, D.O. (2024). Effect of ginger, garlic and Negro pepper on the gut microbes, gut histomorphometry and pathological assessment of selected organs of broiler chickens. Association of Deans of Agriculture in Nigerian Universities, 5: 105-121.

Singh Sharma., Alagbe Olujimi John., Liu Xing., Sharma Ram and Kumar Amita (2022). Comparative analysis of ethanolic Juniperus thurifera leaf, stem bark and root extract using gas chromatography and mass spectroemetry. International Journal of Agriculture and Animal Production, 2(6): 18-27.

Wu, S., B. Y. Jiang, Z. Z. Song, D. X. Hou, S. R. Shi, and X. He. (2018) Effects of botanical polyphenol on antioxidant capacity, intestinal morphology, meat quality of yellow broilers. Chin. J. Anim. Nutri. 30:5118–5126.