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Maximum utilisation of available resources for efficient poultry feeding in the South Pacific: major issues and prospects

Published online by Cambridge University Press:  29 April 2019

A. DEVI
Affiliation:
School of Agriculture and Food Technology, University of the South Pacific, Alafua Campus, Samoa
S.S. DIARRA*
Affiliation:
School of Agriculture and Food Technology, University of the South Pacific, Alafua Campus, Samoa
*
Corresponding author: [email protected]; [email protected]
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Abstract

Feed cost is a major impediment to commercial poultry production in the South Pacific region because traditional feed ingredients (grains and oilseeds) are not grown in the region and imported at high price. As a result, meat has to be imported, which in Fiji increased by 69% between 2010 and 2011 (Diarra, 2017). Samoa was valued at about US$ 17 million or 87% of total cost of meat import in the country in 2012 and 2013. Several ingredients, which are available locally, could be included to reduce feed cost in the region. By-products of root/tuber harvest (peels and leaves), low value crops, fruits and by-products (peels and pulps), oil cakes (copra and palm kernel), by-products from the brewery, livestock/poultry slaughter, hatchery and fish processing and insect meal are readily available in most countries of the region. With adequate processing and correct diet formulation, these materials could replace reasonable proportions of the conventional energy and protein ingredients and reduce feed cost. Several factors including the type and source of material, processing method, diet composition, species, age and class of poultry affect the dietary recommendations of alternative ingredients. Currently however, the use of these resources in feed production in the region is limited due to lack of processing and analytical facilities, likely presence of antinutritional substances and poor knowledge on their nutritive value. Continued research into processing technology, regular training for farmers and extension staff and establishment of community owned feed processing units for optimum utilisation of locally available resources will benefits the poultry industry in the region.

Type
Review
Copyright
Copyright © World's Poultry Science Association 2019 

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References

ABEL, F.A.S., ADEYEMI, O.A., OLUWOLE, O.B., OLADUNMOYE, O.O., AYO-AJASA, O.Y. and ANUOLUWATELEMI, J.O. (2015) Effects of treated banana peel meal on feed efficiency, digestibility and cost effectiveness of broiler chickens’ diets. Journal of Veterinary Science and Animal Husbandry 3 (1): 101. https://doi.org/10.15744/2348-9790.1.603Google Scholar
ABIOLA, S.S. and ONUNKWOR, E.K. (2004) Replacement value of hatchery waste meal for fish meal in layer diets. Bioresource Technology 95: 103-106.Google Scholar
AGHABEIGI, R., MOGHADDASZADEH-AHRABI, S. and AFROUZIYEH, M. (2013) Effects of brewer's spent grain on performance and protein digestibility in broiler chickens. European Journal of Experimental Biology 3 (3): 283-286.Google Scholar
AL-HARTHI, M.A., EL-DEEK, A.A., EL-DIN, M.S. and ALABDEEN, A.A. (2010) A nutritional evaluation of hatchery byproduct in the diets for laying hens. Egyptian Poultry Science Journal 30 (I): 339-351.Google Scholar
AHN, J. (2011) Characterisation of (+)-Catechin and Quercetin from Pawpaw Pulp. Human and Consumer Sciences, Food and Nutrition. Master of Science Thesis, pp. 3-87.Google Scholar
ALAGAWANY, M., ABD EL-HACK, M.E., FARAG, M.R., SACHAN, S., KARTHIK, K. and DHAMA, K. (2018) The use of probiotics as eco-friendly alternatives for antibiotics in poultry nutrition: Review. Springer-Verlag GmbH Germany. Environmental Science and Pollution Research 25 (11): 10611-10618, https://doi.org/10.1007/s11356-018-1687-x.Google Scholar
ASAFA, A.R., OLOGHOBO, A.D. and ADEJUMO, I.O. (2012) Performance and Carcass characteristics of broiler finishers fed different levels of poultry offal meal and crayfish waste meal as replacement for fishmeal. American Journal of Experimental Agriculture 2 (4): 690-699.Google Scholar
AYALEW, W. (2011) Improved use of local feed resources for mitigating the effects of escalating food prices in PNG: a contribution for food security policy dialogue, Paper presented at the National Research Institute Food Security Conference on High Food Prices in PNG, September 1.Google Scholar
BABATUNDE, B.B. (2013) Effect of feeding cassava wastes on the performance and meat quality of broiler chickens. Malaysian Journal of Animal Science 16: 63-73.Google Scholar
BLANDON, J.C., HAMADY, G.A.A. and ABDEL-MONEIM, M.A. (2015) The effect of partial replacement of yellow corn by banana peels with and without enzymes on broiler's performance and blood parameters. Journal of Animal and Poultry Science 4 (1): 10-19.Google Scholar
CHAUDRY, M.A., BADSHAH, A., BIBI, N., ZEB, A., AHMED, T., ALI, S. and TERMEULEN, U. (2004) Citrus waste utilisation in poultry rations. Archiv für Geflügelkunde 68 (5): 206-210.Google Scholar
CRESWELL, D.C. and KOMPIANG, I.P. (1981) Studies on snail meal as a protein source for chickens. 1. Chemical composition, metabolisable energy, and feeding value for broilers. Poultry Science 60: 1854-1860.Google Scholar
DAIRO, F.A.S. and FASUYI, A.O. (2008) Evaluation of fermented palm kernel meal and fermented copra meal proteins as substitute for soybean meal protein in laying hens diets. Journal of Central European Agriculture 9 (1): 35-44.Google Scholar
DAYAL, A.D., DIARRA, S.S., LAMETA, S., DEVI, A. and AMOSA, F. (2018) High cassava peel meal-based diets with animal fat and enzyme for broilers. Livestock Research for Rural Development, 30 (99). ISSN 0121-3784. http://www.lrrd.org/lrrd30/6/siaka30099.html.Google Scholar
DENSTADLI, V., BALLANCE, S., KNUTSEN, S.H., WESTERENG, B. and SVIHUS, B. (2010) Influence of graded levels of brewers dried grains on pellet quality and performance in broiler chickens. Poultry Science 89 (12): 2640-2645.Google Scholar
DEVI, A. and DIARRA, S.S. (2017) Influence of Dietary Protein Source and Utilisation of Copra Meal in Finishing Broiler Chicken . Indian Journal of Animal Nutrition 34 (2):193-200.Google Scholar
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.Google Scholar
DIARRA, S.S. (2015a) Utilisation of cassava products-copra meal based diets supplemented with or without Allzyme SSF by growing pullets. Malaysian Journal of Animal Science 18 (1): 67-76.Google Scholar
DIARRA, S.S. (2015b) Utilisation of snail meal as a protein supplement in poultry diets. World's Poultry Science Journal 71: 547-554.Google Scholar
DIARRA, S.S. (2017) Poultry industries in the South Pacific region: issues and future direction. World's Poultry Science Journal 73 (2): 293-300.Google Scholar
DIARRA, S.S. (2018a) Utilisation of giant taro (Alocasia macrorrhiza) root meal with or without coconut oil slurry by layers and broilers. Animal Production Science 58 (2): 284-290.Google Scholar
DIARRA, S.S. (2018b) Peel meals as feed ingredients in poultry diets: Chemical composition, dietary recommendations and prospects. Journal of Animal Physiology and Animal Nutrition 102: 1284-1295.Google Scholar
DIARRA, S.S. and DEVI, A. (2015) Feeding Value of Some Cassava By-Products Meal for Poultry: A Review. Pakistan Journal of Nutrition 14 (10): 735-741.Google Scholar
DIARRA, S.S., KANT, R., TANHIMANA, J. and LELA, P. (2015) Utilisation of Giant African snail (Achatina fulica) meal as protein source for laying hens. Journal of Agriculture and Rural Development in the Tropics and Subtropics 116 (1): 85-90.Google Scholar
DIARRA, S.S., KOLUBALONA, J.K., LAL, P.P., STEWART, E., TEINE, M.A., HAVEA, T., SIOSE, I., SAMO, J. and and TABI, F. (2018) A Comparative Utilisation of High Dietary Copra and Palm Kernel Cakes Based Diets with Exogenous Enzyme by Young Pullets and Layers. Indian Journal of Animal Nutrition 35 (3): 339-344.Google Scholar
DIARRA, S.S., OMELANGA, F., WAEDALA, H., NIUFILIA, E., PRASAD, H. and MANU, L. (2017) Allzyme SSF supplementation improves the utilisation of sweet potato (Ipomoea batatas) vine meal by growing pigs. Journal of Applied Animal Research 46 (1): 583-586.Google Scholar
DIARRA, S.S., SANDAKABATU, D., PERERA, D., TABUACIRI, P. and MOHAMMED, U. (2014) Growth performance and carcass yield of broiler chickens fed commercial finisher and cassava copra meal-based diets. Asian Journal of Poultry Science 8 (1): 16-22.Google Scholar
DIARRA, S.S., WAMEKENI, I., VUNAGILEE, A., LAVAKA, H. and FINAU, T. (2019) Influence of peeling and inorganic calcium level on the utilisation of giant taro (Alocasia macrorrhiza) corn meal by laying hens. Animal Production Science: https://doi.org/10.1071/AN18625.Google Scholar
EGGUM, O.L. (1970) The protein quality of cassava leaves. British Journal of Nutrition 24: 761-769.Google Scholar
FAO (2009) Food and Agriculture Organisation: The State Of Food and Agriculture. United Nations Viale delle Terme di Caracalla 00153 Rome, Italy. http://www.fao.org/docrep/012/i0680e/i0680e.pdf.Google Scholar
FAO (2012) Food and Agriculture Organisation: Feed Resources Information System, Animal Health and Production Division, FAO, Rome. http://www.fao.org/ag/AGA/AGAP/FRG/afris/default.htm.Google Scholar
FAO SUB-REGIONAL OFFICE FOR THE PACIFIC ISLANDS (2014) Linking farmers to markets: Improving opportunities for locally produced food on domestic and tourist markets in Vanuatu. http://www.fao.org/fileadmin/user_upload/sap/docs/Linking%20farmers%20to%20markets%20in%20Vanuatu%202014.pdf.Google Scholar
FAOSTAT (2018) Statistics Division, Food and Agriculture Organisation of the United Nations Viale delle Terme di Caracalla, 00153 Rome, Italy.Google Scholar
FMIB (FIJI MEAT INDUSTRIES BOARD) (2015) Annual report 2015, Suva Fiji.Google Scholar
FOUZDER, S.K, CHOWDHURY, S.D, HOWLIDER, M.A.R and PODDER, C.K. (1999) . Use of dried papaya skin in the diet of growing pullets. British Poultry Science 40: 88-90.Google Scholar
GARCIA, M. (1999) Cassava root meal for poultry. Journal of Applied Poultry Research 8: 132-137.Google Scholar
GÖHL, B.O. (1982) Tropical Feeds 2nd edition, FAO, Rome, Italy.Google Scholar
HOSSEINZADEH, M.H., EBRAHIMNEZHAD, Y., JANMOHAMMADI, H., AHMADZADEH, A.R. and SARIKHAN, M. (2010) Poultry byproduct meal: Influence on performance and egg quality traits of layers. International Journal of Agriculture and Biology 12 (4): 547-550.Google Scholar
HUSSAINI, S.J., MOGHADDAM, N.H. and KERMANSHAH, H. (2010) The Influence of Different Levels of Brewers Spent Grain and Enzyme on Performance and Digesta Viscosity of Broiler Chicks. Journal of Animal and Veterinary Advances 9 (20): 2608-2612.Google Scholar
KAMARUZZAMAN, M., CHOWDHURY, S.D., PODDER, C.K. and PRAMANIK, M.A. (2005) Dried papaya skin as a dietary ingredient for broiler chickens. British Poultry Science 46 (3): 390-393.Google Scholar
KHAN, S.H. (2017) Sweet potato (Ipomoea batatas (L.) Lam) as feed ingredient in poultry diets. World's Poultry Science Journal 73: 77-88.Google Scholar
KIRKPINAR, F., ACIKGOZ, Z., BOZKURT, M. and AYHAN, V. (2004) Effects of inclusion of poultry by-product meal and enzyme-prebiotic supplementation in grower diets on performance and feed digestibility of broilers. British Poultry Science 45 (2): 273-279.Google Scholar
LOW, A.G. (1993) Role of dietary fibre in pig feeds, in: (COLE, D.J.A., HARESIGN, W. & GARNWORTHY, P.C) (Eds) Recent Developments in Pig Nutrition 2, pp. 137-162 (Nottingham, UK).Google Scholar
MOGHAZY, M.E.S.E. and BOUSHY, A.E. (1982) Some neglected poultry feedstuffs from vegetable and fruit wastes. World's Poultry Science Journal 38 (01): 18-27.Google Scholar
MORGAN, N.K. and CHOCT, M. (2016) Review Article Cassava: Nutrient composition and nutritive value in poultry diets. Animal Nutrition 2: 253-261 http://dx.doi.org/10.1016/j.aninu.2016.08.010.Google Scholar
MOURAO, J.L., PINHEIRO, V.M., PRATES, J.A.M., BESSA, R.J.B., FERREIRA, L.M.A., FONTES, C.M.G.A. and PONTE, P.I.P. (2008) Effect of dietary dehydrated pasture and citrus pulp on the performance and meat quality of broiler chickens. Poultry Science 87: 733-743.Google Scholar
MUSSATTO, S.I., DRAGONE, G. and ROBERTO, I.C. (2006) Brewers’ spent grain: generation, characteristics and potential applications. Journal of Cereal Science 43 (1): 1-14.Google Scholar
NAZOK, A., REZAEI, M. and SAYYAHZADEH, H. (2010) Effect of different levels of dried citrus pulp on performance, egg quality, and blood parameters of laying hens in early phase of production. Tropical Animal Health and Production 42 (4): 737-742.Google Scholar
NRC (2012) Nutrient requirements of swine. 11th edition. Natl Acad. Press, Washington, DC.Google Scholar
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 37 (2): 139-150.Google Scholar
OLADUNJOYE, I.O., OLOGHOBO, A.D. and OLANIYI, C.O. (2010) Nutrient composition, energy value and residual antinutritional factors in differently processed breadfruit (Artocarpus altilis) meal. African Journal of Biotechnology 9 (27): 4259-4263.Google Scholar
OLUREMI, O.I.A., OJIGHEN, V.O. and EJEMBI, E.H. (2006) The nutritive potential of sweet orange (Citrus Sinensis) rind in broiler production. International Journal of Poultry Science 5: 613-617.Google Scholar
PHAMA (PACIFIC HORTICULTURAL AND AGRICULTURAL MARKET ACCESS PROGRAM) (2012) : Submission to FSANZ for BSE Country Categorisation AusAID 255 London Circuit Canberra ACT 2601AUSTRALIA pp. 1-24.Google Scholar
PICKARD, M.D. (2005) By-products utilisation, in: SHAHIDI, F. (Ed.) Bailey's industrial oil products, 6th Edition, Volume 4 - Edible Oil and Fat Products: Products and applications (Wiley-Interscience).Google Scholar
QUARTERLY REPORT (2015) Economics Research and Statistics Department. Central Bank of Solomon Islands 28 (4): 3-75.Google Scholar
RAHMAN, M., AKTER, M.N. and HOWLIDER, M.A.R. (2003) Replacement of fish meal by hatchery wastes in broilers diets. Bangladesh Veterinarian 20 (1):29-35.Google Scholar
RAVINDRAN, V. (1991) Preparation of cassava leaf product and their use as animal feeds. Proceedings of the FAO expert consultation CIAL, Cali, Colombia, 21- 25, pp. 81-95.Google Scholar
RAVINDRAN, V. and BLAIR, R. (1991) Feed resources for poultry production in Asia and the Pacific. 1. Energy sources. World's Poultry Science Journal 47: 213-231.Google Scholar
RAVINDRAN, V. and BLAIR, R. (1992) Feed resources for poultry production in Asia and the Pacific. 11. Plant protein sources. World's Poultry Science Journal 48: 205-231.Google Scholar
RAVINDRAN, V. (1993) Cassava leaves as animal feed: Potential and limitations. Journal of the Science of Food and Agriculture 61 (2): 141-150.Google Scholar
RAVINDRAN, V. and BLAIR, R. (1993) Feed sources for poultry production in Asia and Pacific. III. Animal protein sources. World's Poultry Science Journal 49: 219-235.Google Scholar
RAVINDRAN, V. and SIVAKANESAN, R. (1995) Breadfruit (Artocarpus communis) meal: Nutrient composition and feeding value for broilers. Journal of the Science of Food and Agriculture 69 (3): 379-383.Google Scholar
RAVINDRAN, V., SIVAKANESAN, R. and CYRIL, H.W. (1996) Nutritive value of raw and processed Colocasia (Colocasia esculentus) corn meal for poultry. Animal Feed Science and Technology 57: 335-345.Google Scholar
SALAMI, R.I. (2000) Preliminary Studies on the use of parboiled cassava peel meal as a substitute for Maize in layers diets. Tropical Agriculture (Trinidad) 77: 199-204.Google Scholar
SELL, J.L., KROGDAHL, A. and HANYU, N. (1986) Influence of age on utilisation of supplemental fats by young turkeys. Poultry Science 65: 546.Google Scholar
SIYAL, F.A., WAGAN, R., BHUTTO, Z.A., TAREEN, M.H., ARAIN, M.A., MUHAMMAD SAEED, M., BROHI, S.A. and SOOMRO, R.N. (2016) Effect of Orange and Banana Peels on the Growth Performance of Broilers. Advances in Animal and Veterinary Sciences 4 (7): 376-380.Google Scholar
SHAHRIAR, H.A., NAZER-ADL, K., DOOLGARISHARAF, J. and MONIRIFAR, H. (2008) Effects of dietary different levels of hatchery wastes in Broiler. Journal of Animal and Veterinary Advances 7: 100-105.Google Scholar
SUNDU, B., KUMAR, A. and DINGLE, J. (2004) The effect of levels of copra meal and enzymes on bird performance. Australian Poultry Science Symposium 16: 52-54.Google Scholar
SUNDU, B., KUMAR, A. and DINGLE, J. (2006) Response of broiler chicks fed increasing levels of copra meal and enzymes. International Journal of Poultry Science 5 (1): 13-18.Google Scholar
SUNDU, B., KUMAR, A. and DINGLE, J. (2008) The Effect of Proportion of Crumbled Copra Meal and Enzyme Supplementation on Broiler Growth and Gastrointestinal Development. International Journal of Poultry Science 7 (5): 511-515.Google Scholar
SUNDU, B., KUMAR, A. and DINGLE, J. (2009) Feeding value of copra meal for Broilers. World Poultry Science Journal 65: 481-491.Google Scholar
SWAIN, B.J., NAIK, P., CHAKURKAR, K. and SINGH, N.P. (2012) Effect of feeding brewers’ dried grain on the performance and carcass characteristics of Vanaraja chicks. Journal of Applied Animal Research 40 (2): 163-166.Google Scholar
ŚWIATKIEWICZ, S. and KORELESKI, J. (2008) The use of distillers dried grains with solubles (DDGS) in poultry nutrition. World's Poultry Science Journal 64: 257-266.Google Scholar
SWICK, R.A. (1999) Considerations in using protein meals for poultry and swine. American Soybean Association, Technical Bulletin, 19pp.Google Scholar
TEWE, O.O. and EGBUNIKE, G.N. (1992) Utilisation of cassava in non-ruminant livestock feeds. Cassava as livestock feed in Africa. Proceedings of the IITA/ILCA/University of Ibadan workshop on the potential utilisation of cassava as livestock feed in Africa, Nigeria, pp. 28-38.Google Scholar
THACKER, P.A. and WIDYARATNE, G.P. (2007) Nutritional value of diets containing graded levels of wheat distillers grains with solubles fed to broiler chicks. Journal of Science Food and Agriculture 87: 1386-1390.Google Scholar
ULEP, L.J.L. and BUANEFE, M.M. (1991) Performance of broilers fed with snail (Pomacea canaliculata) meal as substitute to fish meal or meat and bone meal. Tropicultura 9 (2): 58-60.Google Scholar
ZAMANI, H.U., LOH, T.C., FOO, H.L., SAMSUDIN, A.A. and ALSHELMANI, M.I. (2017) Effects of feeding palm kernel cake with crude enzyme supplementation on growth performance and meat quality of broiler chickens. International Journal of Microbiology and Biotechnology 2 (1): 22-27.Google Scholar
ZHOU, Q.C., TAN, B.P., MAI, K.S. and LIU, Y.J. (2004) Apparent digestibility of selected feed ingredients for juvenile cobia Rachycentron canadum. Aquaculture 241: 441-451.Google Scholar