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Insects as feed: species selection and their potential use in Brazilian poultry production

  • G. ALLEGRETTI (a1), V. SCHMIDT (a1) and E. TALAMINI (a1)
Abstract

The growing global demand for soybeans due to its different uses and by-products, as well as its use in the diet of several livestock species, is forcing the industry to seek alternative protein sources. Environmental concerns related to huge volumes of poultry manure serve as a warning for the choice of more sustainable production systems. Thus, the current review investigates the processing of an insect meal as an alternative protein source to feed broilers. The five desirable features in the selection of insect species proposed by the Food and Agriculture Organization (FAO) show that the high productivity of biomass, feed conversion efficiency and the organic waste conversion capacity from poultry farms is aided by the use of larvae from housefly and black soldier fly species. Brazilian production of such insects is possible due to climatic and environmental conditions and has the potential to supply part of the protein demands of the Brazilian poultry industry when raised in controlled environments. The prevalence of tropical climatic conditions and the possible use of organic waste from poultry farms as substrate can mitigate some environmental issues as well as generate income to smallholder farms prevailing in this activity.

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Corresponding author: gabica14@hotmail.com
References
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ANIEBO A.O., ERONDU E.S. and OWEN O.J. (2008) Proximate composition of housefly larvae (Musca domestica) meal generated from mixture of cattle blood and wheat bran. Livestock Research for Rural Development 20 (12): 205.
ANIEBO A.O. and OWEN O.J. (2010) Effects of age and method of drying on the proximate composition of housefly larvae (Musca domestica Linnaeus) Meal (HFLM). Pakistan Journal of Nutrition 9: 485-487.
BARNARD D.R., HARMS R.H. and SLOAN D.R. (1998) Biodegradation of poultry manure by house fly (Diptera: Muscidae). Environmental Entomology 27: 600-605.
BELLAVER C. and PALHARES C.P. (2003) Uma visão sustentável sobre a utilização da cama de aviário. Avicultura Industrial 6: 14-18.
BORGES M.A.Z. (2006) Flutuação populacional de dípteros muscóides (Dipetera: Muscomorpha), parasitoides e foréticos predadores Igarapé, MG. Ph D Thesis, Universidade Federal de Minas Gerais, Brazil, 103p.
CICKOVA H., PASTOR B., KOZÁNEK M., MARTINEZ-SÁNCHEZ A., ROJO S. and TAKÁC P. (2012) Biodegradation of pig manure by the housefly, Musca domestica: A viable ecological strategy for pig manure management. PlosOne 7: 1-9.
CORREA J.C. and MIELE M. (2011) A cama de aves e os aspectos agronômicos, ambientais e econômicos, in: PALHARES, J.C.P. & KUNZ, A. (Ed.) Manejo ambiental na avicultura, 2011. Concórdia: Embrapa Suínos e Aves, pp. 125-152. (Embrapa Suínos e Aves. Documentos, 149).
DIENER S., ZURBRÜGG C. and TOCKNER K. (2009) Conversion of organic material by black soldier fly larvae: establishing optimal feeding rates. Waste Management & Research 27: 603-610.
DIENER S., ZURBRÜGG C., GUTIÉRREZ F.R., NGUYEN D.H., MOREL A., KOOTTATEP T. and TOCKNER K. (2011) Black soldier fly larvae for organic waste treatment - Prospects and constraints. Proceedings of the Waste Safe 2011 - 2nd International Conference on Solid Waste Management in the Developing Countries, Khulna, Bangladesh, 52p.
EL BOUSHY A.R. (1991) House-fly pupae as poultry manure converters for animal feed: a review. Bioresource Technology 38: 45-49.
ERENS J., VAN ES S., HAVERKORT F., KAPSOMENOU E. and LUIJBEN A. (2012) A bug's life - Large-scale insect rearing in relation to animal welfare. Wageningen, UR, 57p.
ERICKSON M.C., ISLAM M., SHEPPARD C., LIAO J. and DOYLE M.P. (2004) Reduction of Escherichia coli O157:H7 and Salmonella enterica serovar Enteritidis in chicken manure by larvae of the black soldier fly. Journal of Food Protection 67: 685-690.
GEDEN C.J. (1990) Coleopteran and acarine predators of house-fly in poultry production systems, in: RUTZ, D.A. & PATTERSON, R.S. (Eds) Biocontrol of arthropods affecting livestock and poultry, pp. 317 (Westview, Boulder, CO).
HARDOUIN J. and MAHOUX G. (2003) Zootechnied'insectes - Elevage et utilisation au bénéfice de l'homme et de certainsanimaux. -Bureau pour l'Echange et la Distribution de l'Informationsur le Mini-élevage. BEDIM, Gembloux, Belgium.
HEUZÉ V. and TRAN G. (2013) Housefly maggot meal. Feedipedia.org. A programme by INRA, CIRAD, AFZ and FAO. http://www.feedipedia.org/node/671.
HWANGBO J., HONG E.C., JANG A., KANG H.K., OH J.S., KIM B.W. and PARK B.S. (2009) Utilisation of housefly-maggots, a feed supplement in the production of broiler chickens. Journal of Environmental Biology 30: 609-614.
IBGE - INSTITUTO BRASILEIRO DE GEOGRAFIA E ESTATÍSTICA (2014) Sistema IBGE de recuperação automática. http://www.sidra.ibge.gov.br/bda/tabela/listabl.asp?z=t&o=1&i=P&c=1094.
KEIDING J. (1999) Review of the global status and recent development of insecticide resistance in field populations of the housefly, Musca domestica (Diptera: Muscidae). Bulletin of Entomological Research 89: 67.
KENIS M., KONÉ N., CHRYSOSTOME C.A.A.M., DEVIC E., KOKO G.K.D., CLOTTEY V.A., NACAMBO S. and MENSAH G.A. (2014) Insect used for animal feed in West Africa. Entomologia 2 (218): 107-114.
KHUSRO M., ANDREW N.R. and NICHOLAS A. (2012) Insects as poultry feed: a scoping study for poultry production systems in Australia. World´s Poultry Science Journal 68: 435-446.
LI Q., ZHENG L., HOU Y. and YU Z. (2011) Insect fat, a promising resource for biodiesel. Petroleum & Environmental Biotechnology S2: 1-6.
MAC EVILLY C. (2000) Bugs in the system. Nutrition Bulletin 25: 267-268.
MAKKAR H.P.S., TRAN G., HEUZÉ V. and ANKERS P. (2014) State-of-art on use of insect as animal feed. Animal Feed Science and Technology 197: 1-33.
MENDES J. and LINHARES A.X. (1999) Diapause, pupariation sites and parasitism of the horn fly, Haematobia irritans, in southeastern Brazil. Medical and Veterinary Entomology 13: 185-190.
MILLER B.F., TEOTIA J.S. and THATCHER T.O. (1974) Digestion of poultry manure by Musca domestica . British Poultry Science 15: 231-234.
MYERS H.M., TOMBERLIN J.K., LAMBERT B.D. and KATTES D. (2008) Development of black soldier fly (Diptera: Stratiomyidae) larvae fed dairy manure. Environmental Entomology 37: 11-15.
NEWTON L., SHEPPARD C., WATSON D.W., BURTLE G. and DOVE R. (2005) Using the Black Soldier Fly, Hermetia illucens, as a value-added tool for the management of swine manure. In: Report for Mike Williams, Director of the animal and poultry waste management center. North Carolina State University, 17p.
NOORMAN N. (2001) Pheromones of the housefly: a chemical and behavioural study. Ph D Thesis, University of Groningen, The Netherlands, 127p.
OGUNJI J.O., KLOAS W., WIRTH M., SCHULZ C. and RENNERT B. (2006) Housefly maggot meal (Magmeal): an emerging substitute of fishmeal in tilapia diets. Tropentag 2006. Hohenheim. http://www.tropentag.de/2006/abstracts/full/76.pdf.
OONINCX D.G.A.B., VAN ITTERBEECK J., HEETKAMP M.J.W., VAN DEN BRAND H., VAN LOON J.J.A. and VAN HUIS A. (2010) An exploration on greenhouse gas and ammonia production by insect species suitable for animal or human consumption. PloS One 5: 1-7.
OONINCX D.G.A.B. and DE BOER I.J.M. (2012) Environmental impact of the production of mealworms as protein source for humans - a Life Cycle Assessment. PloS One 7: 1-5.
PRETORIUS Q. (2011) The evaluation of larvae of Musca domestica (common housefly) as protein source for broiler production. Thesis (MScAgric (Animal Science)). University of Stellenbosch, South Africa, 95p.
SANCHES-MUROS M-J., BARROSO F.G. and MANZANO-AGUGLIARO F. (2014) Insect meal as renewable source of food for animal feeding: a review. Journal of Cleaner Production 65: 16-27.
SCHERER E.E., NESI C.N. and MASSOTTI Z. (2010) Atributos químicos do solo influenciados por sucessivas aplicações de dejetos suínos em áreas agrícolas da Região Oeste Catarinense. Revista Brasileira de Ciência do Solo 34: 1375-1383.
SHEPPARD D.C., NEWTON G.L., THOMPSON S.A. and SAVAGE S. (1994) A value added manure management system using the black soldier fly. Bioresources Technology 50: 275-279.
SHEPPARD D.C., TOMBERLIN J.K., JOYCE J.A., KISER B.C. and SUMNER S.M. (2002) Rearing methods for the black soldier fly (Diptera: Stratiomyidae). Journal of Medical Entomology 39: 695-698.
SMIL V. (2002) Worldwide transformation of diets, burdens of meat production and opportunities for novel food proteins. Enzyme and Microbial Technology 30: 305-311.
SOGBESAN A.O., AJUONU N., MUSA B.O. and ADEWOLE A.M. (2006) Harvesting techniques and evaluation of maggot meal as animal dietary protein source for Heteoclariasin outdoor concrete tanks. World Journal of Agricultural Science 4: 394-402.
SWIATKIEWICZ S., SWIATKIEWCZ M., ARCZEWSKA-WLOSEKK A. and JOZEFIAK D. (2015) Chitosan and its oligosaccharide derivatives (chito-oligosaccharides) as feed supplements in poultry and swine nutrition. Journal of Animal Physiology and Animal Nutrition 99: 1-12.
TOMBERLIN J.K., SHEPPARD D.C. and JOYCE J.A. (2002) Susceptibility of black soldier fly (Diptera: Stratiomyidae) larvae and adults to four insecticides. Journal of Economic Entomology 95: 598-602.
UBABEF - UNIÃO BRASILEIRA DE AVICULTURA (2014) Relatório Anual 2014. 105p. http://www.ubabef.com.br/files/publicacoes/8ca705e70f0cb110ae3aed67d29c8842.pdf.
VAARST M., STEENFELDT S. and HORSTED K. (2015) Sustainable development perspectives of poultry production. World´s Poultry Science Journal 71: 609-620.
VAN HUIS A. (2013) Potential of insects as food and feed in assuring food security. Annual Review of Entomology 58: 563-583.
VAN HUIS A., ITTERBEECK J.V., KLUNDER H., MERTENS E., HALLORAN A., MUIR G. and VANTOMME P. (2013) Edible insects: future prospects for food and feed security. FAO Forestry Paper 171. Roma, Italia: FAO.
VANTOMME P., MERTENS E., VAN HUIS A. and KLUNDER H.C. (2012) Assessing the Potential of Insects as Food and Feed in assuring Food Security- Summary report. FAO (Ed.). Rome, 38p.
VAN ZANTEN H.H.E., MOLLENHORST H., OONINCX D.G.A.B., BIKKER P., MEERBURG B.G. and DE BOER I.J.M. (2015) From environmental nuisance to environmental opportunity: housefly larvae convert waste to livestock feed, Journal of Cleaner Production 102: 362-369.
VELDKAMP T., VAN DUINKERKEN G., VAN HUIS A., IAKERMOND C.M.M., OTTEVANGER E., BOSCH G. and VAN BOEKEL M.A.J.S. (2012) Insect as a sustainable feed ingredient in pig and poultry diets - a feasible study. Wageningen UR Livestock Research - Report 638.
VOGEL G. (2010) For more protein, filet of cricket. Science 327: 811-811.
WEIGERT S.C., FIGUEIREDO M.R.C., LOEBMANN D., NUNES J.A.R. and SANTOS A.L.G. (2002) Influência da temperature e do tipo de substrato na produção de larvas de Musca domestica Linnaeus, 1758 (Diptera, Muscidae) . Revista Brasileira de Zootecnia 5: 1886-1889.
ZHANG J., HUANG L., HE J., TOMBERLIN J.K., LI J., LEI C., SUN M., LIU Z. and YU Z. (2010) An artificial light source influences mating and oviposition of black soldier flies, Hermetia illucens . Journal of Insect Science 10 (202): 1-7.
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World's Poultry Science Journal
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