Abstract
Feed constitutes about 60–70 percent of the total production costs of poultry meat, of which about 175% are animal protein. The protein content of a feed ingredient is a factor of great importance. It has been reported that the protein content of Eisenia fetida differs with the treatment used and it ranges between 50.1% and 66.2%. E. fetida contains 4.95–5.70 g/100 g 20 out of 24 major amino acids, including the ten essential amino acids. The fat content of worm meal has been reported to range from 5–20% of dry matter. A number of mono and polyunsaturated fatty acids are in fairly high concentration in worm meal and the total fatty acids is about 6.6 to 10.5 mg/g. It contains an adequate mineral content and an excellent range of vitamins which are a valuable component of poultry feed. It has been found that it encompasses essential elements such as calcium (1020–7070 μg/g) and iron (1050–2990 μg/g), which are 10 times higher than soya bean and fish meal. Earthworm Eisenia fetida has been found to be a promising alternative source of protein due to its high protein content, amino acid and fatty acid profiles. In this review, we outline the E. fetida characteristics, nutrient composition, processing methods and its effects as a source of feed for chickens.
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References
Advisory Committee on Animal Feeding Stuffs (2001) The use of fish meal in animal feeds. Eight Meeting of ACAF- Agenda Item 3
Albarran GN (1996) Formulation de alimentos concentrados para animalers a parti de harina de lombriz (Tesis de lecenciatura. Menda-Venezuela Universidad de Los Andes, Ingeniera) Laboratorio de Ciencia de los Alimentos
Anitha J, Jayraaj IA (2012) Nutritional and oxidant evaluation of earthworm powder. Int J Pharm 3:177–180
Antolovic N, Kozul V, Antovic M, Bolotin J (2012) Effect of partial replacement of fish meal and soya bean meal on the growth of Juvenile Saddled Bream. Turk J Fish Aquat Sci 12:247–252
Atiyeh RM, Dominguez J, Subler S, Edward C (2000) Changes in biochemical properties of cow manure during processing by earthworms (Eisenia andrei, bouche) and the effect on seedling growth. Pedobiologia 44:709–724
Barcelo PM (1988) Production and utilisation of earthworm for broiler in the Philippines. Tropicult 6:21–24
Bhatti BM, Talat T, Sardar R (2002) Estimation of crude fibre and crude protein in commercial poultry rations and some important feed ingredients. Pak Vet J 22:5–7
Bhuvaneshwaran T, Sanjay G, Jayakumar N et al (2019) Potentiality of earthworm as replacement for fish meal and its role in aquaculture. J Aqucult Trop 34:115–127
Bou-Maorun E, Louiac C, Loison A et al (2013) Impact of preparation process on protein structure and the volatile compounds in Eisenia fetida protein powders. Food Nutri Sci 4:1175–1183
Boushy ARY, van der Poel AFB (2000) Poultry feed from waste processing and use. 2nd Ed, Kluwer Academic Publishers, U.S.A, pp. 51–52
Davis DE, Miller CL, Phelps RP (2005) Replacement of fishmeal with soybean meal in the production diets of Juveline Red Snapper. Lutjanus campechanus J World Aqualt Soc 36:114–119
De Chaves RC, Paula RQ, Gücker B et al (2015) An alternative fish feed based on earthworm and fruit meals for tilapia and carp postlarvae. Braz J Biol Sci 13:15–24
Dedeke GA, Owa SO, Olurin KB et al (2013) Partial replacement of fishmeal by earthworm meal (Libyodrilus violaceus) in the diet for 38 African catfish, Clarias gareipinus. Int J Fish Aquac 5:229–233
Dedeke GA, Owa SO, Olurin KB (2010) Amino acid profile of four earthworm species from Nigeria. Agriculture and Biology Journal of North America, ScienceHuβ, http://www.scihub.org/ABJNA
Dynes RA (2003) Earthworms, Technology information to enable the development of earthworm production, Australian Government, Rural Industrial Research, and Development Corporation, Australia
Edward CA (1988) Breakdown of animal, vegetable and industrial organic wastes by earthworm in waste and in the environment. Academic Publishing, Netherlands, SPB
Edward CA, Arancon NQ (2010) The Science of vermiculture: The use of earthworms in organic waste management, The Ohio State University, Columbus, Ohio, U.S.A
Edward CA, Arancon NQ (1994) The use of earthworms in the breakdown of Organic Waste to produce vermicompost and animal feed protein, in:Earthworm Ecology 2nd Edition, CRC Press, U.S.A. pp 345
Edwards CA, Bohlen PJ (1996) Biology and Ecology of Earthworms, 3rd edn. Chapman & Hall, London
Fadaee R (2012) A review on earthworm Eisenia fetida and its implications. Ann Biol Res 3:2500–2506
Gabriel A, Dedeke SO, Kayode BO (2010) Amino Acid profile of four earthworm species from Nigeria. Agric Biol J North Amer 1:97–102
Garg VK, Chand S, Chhilar A, Yadav A (2005) Growth and reproduction of Eisenia Fetida in various Animal wastes during vermicomposting. Appl Ecol Environ Res 3:51–59
Gabanakgosi K, Moreki JC, Nsoso SJ, Tsopito C (2012) Ethnoveterinary medicine usage in family chickens in the selected four villages of Botswana. J Anim Vet Adva 2: 586-594
Guerrero RD (1983) The culture and use of Perionxy excatus as protein resource in the Philippines. In: Satchell JE (ed) Earthworm Ecology. Chapman and Hall, London, pp 309–319
Gunadi B, Edward CA (2003) The growth and fecundity of Eisenia fetida (Savigny) in cattle solid pre-composted for different periods. Pedobiologia 64:15–23
Gunya B, Masika PJ, Hugo A, Muchenje V (2016) Nutrient composition and fatty acid profiles of oven-dried and freeze dried earthworm Eisenia fetida. J Food Nutr Res 4:343–348
Gunya B, Masika MV, PJ, (2019) The potential of Eisenia fetida as a protein source on the growth performance, digestive organs size, bone strength and carcass characteristics of broilers. J Appl Poult Res 28:374–382
Hinrichs J, Steinfeild H (2007) Feed availability inducing a structural change in the poultry sector Thyme, O Pillinf, D., eds. Poultry in the 21st century: avian influenza and beyond. Proc Int Poul ZCOnf, held 5–7 November 2007, Bangkong, Thailand. FAO Animal Production and Health Proceedings, Np. 9. Rome. 2008. Available at https://www.fao.org/againinfo/resources/en/pubs_aprod.html
Istiqomah L, Sofyan A, Diamante E, Julendra H (2009) Amino acid profile of earthworm and earthworm meal (Lumbricus rubellus) for animal feedstuff. J Trop Anim Agric 32:253–257
Julendra H, Damayanti E, Istoqomah L, Nurhayati S, Karimy MF (2012) The effectiveness of earthworm meal supplementation as antibiotic growth promoter replaced with different processing method, proceeding of the 1st Poultry International Symposium, 145–157
Koh TS, Oh CH (1984) Biological values of earthworm (Eisenia fetida) cake protein in chick. Korean J Anim Sci 26:389–395
Kokstecka J, Packza G (2006) Possible uses of earthworm Eisenia fetida biomass for breeding aquarium fish. Eur J Soil Biol 42:5231–5233
LeeMaster BR (2007) Parasite Important to poultry in Hawai’i and their control, Livestock Management, Cooperative Extension Service, College of Tropical Agriculture and Human Resources, University of Hawai’i, Manca.
Mason WT, Rottman RW, Dequine JF (1992) Culture of earthworm for Bait for Fish Food. Publication, #CIR 1053 of the Department of Fisheries and Aquatic Sci., Florida Cooperation Extension Service, Institute of Food Agric. Sci. University of Florida
Miculec Z, Mas N, Masek T, Stmotiae A (2004) Soybean meal and sunflower meal as a substitute for fish meal in broiler diet. Vet Arch 74:271–279
Musyoka SN, Liti DM, Ogella EO et al (2020) Using earthworm, Eisenia fetida, to Bio-convert Agro-industrial wastes for Aquaculture Nutrition. BioRes 15:574–587
Musyoka SN, Liti DM, Waidbacher H (2019) Utilization of the earthworm, Eisenia fetida (Savigny, 1826) as an altanative protein source in fish processing: A review. Aquacult Res 50:2301–2315
Nagavallmma KP, Wani KP, Stephanen L, et al (2004) Vermicomposting: Recycling waste into valuable organic fertiliser, Global Theme on Agrocosystem Report no.8. Patancheru 502 325, Anhara Pradesh, India: International Crop Research Institute for Semi-Arid Tropics
Ogello EO, Munguti JM, Sakakura Y, Hagiwara A (2014) Complete replacement of fish meal in the diet of Nile Tilapia (Oreochromis niloticus) Grow-out with an alternative protein source. A review Int J Adv Res 2:926–978
Parolin M, Ganzaroli A, Baccenetti J (2020) Earthworm as an altanative protein source in poultry and fish farming; current. Department of Agriculture and Evironmental Science. UNiversita degli Studi Milano, Milan, Italia, Availavble at https://core.ac.uk/download/pdf/333583482.pdf
Prayogi HS (2011) The effect of Earthworm meal supplementation in the diet on Qual’s growth performance in an attempt to replace the usage of fish meal. Int J Poult Sci 10:804–806
Ramos-Elorduy J, Gonzalez EA, Hernandez AR et al (2002) Use of tenebrio molito (Coleoptera:tenebrionide) to recycle organic waste and as feed for broiler chickens. J of Econom Entomol 95:214–220
Reinecke AJ, Alberts JN (1988) The chemical and amino acid composition of the compost worm (Eisenia fetida Oligocheata) as potential source of protein for animal feed. S.A
Reinecke AJ, Alberts JN (1987) The chemical and amino acid composition of the compost worm (Eisenia fetida Oligocheata) as potential source of protein for animal feed. S.A. Tydskrif Vir Natuurwetenskap en Tengnologie 6:1–14
Reinecke AJ, Hayes JP, Cilliers SC (1991) Protein quality of three different species of earthworms. S Afr J Anim Sci 21:99–103
Reinecke AJ, Viljoen SA (1991) A comparison of the biology of Eisenia fetida and Eisenia andrei (Oligochaeta). Biol Fertil Soils 11(4):295–300
Resnawati, (2004) Technology in animal husbandry and veterinary as motor of change in animal agribusiness. Puslitbang Peternakan 2:473–478
Rezaeipour V, Nejad OM, Miri HD (2014) Growth performance, blood metabolites and jejunum morphology of broiler chickens fed diets containing earthworm (Eisenia fetida) meal as a source of protein. Int J Adv Biol Biom Res 2:2483–2524
Rufchaei R, Hoseinifar SH, Nedaei S, et al (2019) No-specific immune responses, stress resistance and growth performance of Caspian roach (Rutilus caspicus) fed supplemented with earthworm (Eisenia fetida) extract. Aquaculture, 511
Sabine JR (1986) Earthworms as a source of food and drugs. Earthworm ecology from Darwin to Vermiculture. Chapman and Hall, London, New York, pp 285–296
Schuld M (2004) Lombriz roja (Eisenia foetida). Available at: https://www.researchgate.net/profile/Ana-Carrera-Aguilar/publication/292129975_Que_paso_en_Mexico_durante_la_primera_decada_del_siglo_XXI_Una_perspectiva_socioeconomica_regional/links/56a910bc08aef6e05df28a76/Quepaso-en-Mexico-durante-la-primera-decada-del-siglo-XXI-Una-perspectiva-socioeconomica-regional.pdf#page=106
Segovia E (1996) Analysis flsico-quimico de la harina de lombriz Eisenia fetida (Tesis de licenciatura, Ingeniera). Universidal Agraria La Molina, Lima-Peru
Sharma S, Pradhan K, Satya S, Vesudevan P (2005) Potentiality of earthworms for waste management and in other uses. A review J Amer Sci 1:4–16
Sherman R (2003) Raising Earthworms successfully. North Carolina State University Raleigh, NC, North Carolina Cooperative Extension Service
Singh K, Nath R, Rai R, Shikla RC (2013) Food Preference of Eisenia Fetida among different combinations of animal dung and agro/kitchen waste. Bot Res Int 6:23–26
Sogbesan AO, Ugwumba AAA (2008) Nutrient value of some non-conventional animal protein feedstuffs used as fishmeal supplement in aquaculture practice in Nigeria. Turk J Fish Aquat Sci 8:159–164
Stafford EA, Tacon AGJ (1985) The nutritional evaluation of dried earthworm meal included at low level in production diets for rainbow trout, Salmo Gardner. Richardson Aquacult Fish Manag 16:213–222
Swick RA (1999) Consideration in using protein meals for poultry and swine, ASA Technical Bulletin Vol. AN21–1999
Tacon AGJ (1994) Feed ingredient for carnivore’s fish species. Alternative to fishmeal and other fishery resources. FAO of United Nations, Fisheries Circular No 881. FIRI/C881, Rome
Tiroesele B, Moereki JS (2012) Terminates and Earthworms as a potential alternative source of protein for poultry. Int. J Agro Vet. Med, Sci 6:368–376
Ton VD, Hanh HQ, Linh NG Duy GV (2009) Use of red worm (Perionyx excavates) to manage agricultural waste and supply valuable feed for poultry. Livest Res Rural Dev 21(11)
Tripathi P, Bhardwaj B (2004) Earthworms in waste and environmental management. Bioresour Technol 92:275–283
Tuan NN, Focken U (2009) Earthworm meal as a potential protein source in diets for common carp (Cyprinus carpio L.). Biophy. and Socio-econom. Frame Cond Sust Man Nat Resourc 44:43–58
Valembois P, Roch P, Lasseques M, Davant N (1982) Bacteriostatic activity of a chloragogen cell secretion. Pedobiologia 24:191–19
Venter JM, Reinecke AJ (1988) The life-cycle of the compost worm Eisenia fetida (Oligochacta). S Afri J Zool 23:161–165
Vielma R, Carrero P, Rondón C, Medina A (2001) Contenido de minerales y elementos trazas en la haring de lombriz californiana (Eisenia fetida). 51st Annual Convention of the Venezuelan Association for the Advancement of Science (AsoVAC); (2001) 16–21. National Experimental University of Táchira, Táchira-Venezuela
Vodounnou DS, Juste V, Kpogue DNS, Apollinaire MG, Didier FE (2016) Culture of earthworm (Eisenia fetida), production, nutritive value and utilization of its meal in diet for Parachanna obscura fingerlings reared in captivity. Int J Fish Aquat 4:01–05
Yadav A, Garg VK (2009) Feasibility of nutrient recovery from industrial sludge by vermicomposting technology. J Hazard Mat 168:262–268
Yaqub HB (1997) Earthworm and maggot meal as a potential fish meal replacement, Repository of Ocean Publications, Marine Fisheries Research Division, Tema, Available at http://www.oceandocs.org/handle/1834/1268
Zhenjun S, Xianchun Lihui S, Chunyang S (1997) Earthworm as a protein source. Ecol Food Nutri 36:221–236
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Gunya, B., Masika, P.J. Eisenia fetida worm as an alternative source of protein for poultry: a review. Int J Trop Insect Sci 42, 1–8 (2022). https://doi.org/10.1007/s42690-021-00531-6
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DOI: https://doi.org/10.1007/s42690-021-00531-6