Mango seed meal as partial replacement in diet for red hybrid tilapia (Oreochromis niloticus × O. mossambicus): Growth performance, feed utilization and economic efficiency
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Abstract
The effects on the supplemention of mango seed meal (MSM) with different levels in diets for red hybrid tilapia (Oreochromis niloticus × O. mossambicus) was investigated. Five experimental diets were formulated containing the different levels of MSM from 0, 5, 10, 25, and 50%. Each group of 20 fish was randomly distributed into 15 glass tanks in triplicates. The fish were fed to apparent satiation twice daily for 8 weeks. The results showed that fish fed diet containing 10% MSM had higher final body weight (FBW), weight gain, average daily gain (ADG), specific growth rate (SGR), feed efficiency (FE) and feed efficiency ratio (FER) than those of other experimental diets. No significant difference was observed in growth performance in fishes fed with a diet containing 25% MSM compared with 10% MSM group. While FBW, weight gain, ADG, and SGR were significantly reduced with increasing MSM higher than 25% replacement. These results indicated that 10% of MSM replacement could improve growth performance without any adverse effects. Based on SGR and FBW, the optimum dietary MSM inclusion in diet was estimated to be around 17.14 ‒ 17.46 g kg‒1 of dry weight predicted by second-order polynomial regression analysis.
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References
Abdalla, A. E. M., Darwish, S. M., Ayad, E. H. E. and El-Hamahmy, R. M. (2007). Egyptian mango by-product 1. Compositional quality of mango seed kernel. Food Chemistry, 103:1134-1140.
Ahmed, M., Liang, H., Chisomo Kasiya, H., Ji, K., Ge, X., Ren, M., Liu, B., Zhu, X. and Sun, A. (2019). Complete replacement of fish meal by plant protein ingredients with dietary essential amino acids supplementation for juvenile blunt snout bream (Megalobrama amblycephala). Aquaculture Nutrition, 25:205-214.
Arogba, S. S. (2000). Mango (Mangifera indica) kernel: Chromatographic analysis of the tannin, and stability study of the associated polyphenol oxidase activity. Journal of Food Composition and Analysis, 13:149-156.
Belghit, I., Skiba-Cassy, S., Geurden, I., Dias, K., Surget, A., Kaushik, S., Panserat, S. and Seiliez, I. (2014). Dietary methionine availability affects the main factors involved in muscle protein turnover in rainbow trout (Oncorhynchus mykiss). British Journal of Nutrition, 112:493-503.
Diarra, S. S. (2014). Potential of mango (Mangifera indica L.) seed kernel as a feed ingredient for poultry: a review. World's Poultry Science Journal, 70:279-288.
Diarra, S. S., Usman, B. A. and Igwebuike, J. U. (2010). Replacement value of boiled mango kernel meal for maize in broiler finisher diets ARPN journal of agricultural and biological science, 5:1990-6148.
Ediriweera, M. K., Tennekoon, K. H. and Samarakoon, S. R. (2017). A review on ethnopharmacological applications, pharmacological activities, and bioactive compounds of Mangifera indica (Mango). Evid Based Complement Alternat Med, 2017:6949835-6949835.
Fowomola, M. A. (2010). Some nutrients and antinutrients contents of mango (Magnifera indica) seed. African Journal of food science, 4:472-786.
García-Ortega, A., Kissinger, K. R. and Trushenski, J. T. (2016). Evaluation of fish meal and fish oil replacement by soybean protein and algal meal from Schizochytrium limacinum in diets for giant grouper Epinephelus lanceolatus. Aquaculture, 452:1-8.
Hirano, R., Htun Oo, T. and Watanabe, K. N. (2010). Myanmar mango landraces reveal genetic uniqueness over common cultivars from Florida, India, and Southeast Asia. Genome, 53:321-330.
Kaushik, S. J., Covès, D., Dutto, G. and Blanc, D. (2004). Almost total replacement of fish meal by plant protein sources in the diet of a marine teleost, the European seabass, Dicentrarchus labrax. Aquaculture, 230:391-404.
Luo, Z., Liu, Y. J., Mai, K. S., Tian, L. X., Liu, D. H. and Tan, X. Y. (2004). Optimal dietary protein requirement of grouper Epinephelus coioides juveniles fed isoenergetic diets in floating net cages. Aquaculture Nutrition, 10:247-252.
Martínez-Llorens, S., Moñino, A. V., Tomás Vidal, A., Salvador, V. J. M., Pla Torres, M. and Jover Cerdá, M. (2007). Soybean meal as a protein source in gilthead sea bream (Sparus aurata L.) diets: effects on growth and nutrient utilization. Aquaculture Research, 38:82-90.
Mbunwen, N.-F. H., Ngongeh, L. A., Okolie, P. N. and Okoli, E. L. (2015). Comparative study of growth traits and haematological parameters of Anak and Nigerian heavy ecotype chickens fed with graded levels of mango seed kernel (Mangifera indica) meal. Tropical Animal Health and Production, 47:1109-1115.
Monge-Ortiz, R., Martínez-Llorens, S., Márquez, L., Moyano, F. J., Jover-Cerdá, M. and Tomás-Vidal, A. (2016). Potential use of high levels of vegetal proteins in diets for market-sized gilthead sea bream (Sparus aurata). Archives of Animal Nutrition, 70:155-172.
Ng, W.-K. and Hanim, R. (2007). Performance of genetically improved Nile tilapia compared with red hybrid tilapia fed diets containing two protein levels. Aquaculture Research, 38:965-972.
Odunsi, A. A. (2005). Response of laying hens and growing broilers to the dietary inclusion of mango (Mangifera indica L.) seed kernel meal. Tropical animal health and production v. 37, pp. 139-150-2005 v.2037 no.2002.
Oluremi, O. I. A. and Musa, S. A. (2004). Performance of growing rabbits fed mango seed meal incorporated diets. Journal of Applied Animal Research, 25:61-63.
Omoregie, E. (2001). Utilization and nutrient digestibility of mango seeds and palm kernel meal by juvenile Labeo senegalensis (Antheriniformes: Cyprinidae). Aquaculture Research, 32:681-687.
Pereira, T. G. and Oliva-Teles, A. (2003). Evaluation of corn gluten meal as a protein source in diets for gilthead sea bream (Sparus aurata L.) juveniles. Aquaculture Research, 34:1111-1117.
Ravindran, V. and Sivakanesan, R. (1996). The nutritive value of mango seed kernels for starting chicks. Journal of the Science of Food and Agriculture, 71:245-250.
Regost, C., Arzel, J. and Kaushik, S. J. (1999). Partial or total replacement of fish meal by corn gluten meal in diet for turbot (Psetta maxima). Aquaculture, 180:99-117.
Sagar, N. A., Pareek, S., Sharma, S., Yahia, E. M. and Lobo, M. G. (2018). Fruit and vegetable waste: Bioactive compounds, their extraction, and possible utilization. Comprehensive Reviews in Food Science and Food Safety, 17:512-531.
SÁNchez-Lozano, N. B., MartÍNez-Llorens, S., TomÁS-Vidal, A. and Jover CerdÁ, M. (2011). Amino acid retention of gilthead sea bream (Sparus aurata, L.) fed with pea protein concentrate. Aquaculture Nutrition, 17:e604-e614.
Sanon, H. O., Kanwe, A. B., Millogo, A. and Ledin, I. (2013). Chemical composition, digestibility, and voluntary feed intake of mango residues by sheep. Tropical Animal Health and Production, 45:665-669.
Sitjà-Bobadilla, A., Peña-Llopis, S., Gómez-Requeni, P., Médale, F., Kaushik, S. and Pérez-Sánchez, J. (2005). Effect of fish meal replacement by plant protein sources on non-specific defence mechanisms and oxidative stress in gilthead sea bream (Sparus aurata). Aquaculture, 249:387-400.
Tacon, A. (2004). Use of fish meal and fish oil in aquaculture: a global perspective. Aquatic Resources, Culture and Development, 1:3-14.
Tacon, A. and Metian, M. (2008). Global overview on the use of fish meal and fish oil in industrially compounded aquafeeds: Trends and future prospects. Aquaculture, 285:146-158.
Torres-León, C., Rojas, R., Contreras-Esquivel, J. C., Serna-Cock, L., Belmares-Cerda, R. E. and Aguilar, C. N. (2016). Mango seed: Functional and nutritional properties. Trends in Food Science and Technology, 55:109-117.
Wu, P., Tang, L., Jiang, W., Hu, K., Liu, Y., Jiang, J., Kuang, S., Tang, L., Tang, W., Zhang, Y., Zhou, X. and Feng, L. (2017). The relationship between dietary methionine and growth, digestion, absorption, and antioxidant status in intestinal and hepatopancreatic tissues of sub-adult grass carp (Ctenopharyngodon idella). Journal of Animal Science and Biotechnology, 8:63-63.