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Effect of dietary supplementation with full-fat silkworm (Bombyx mori L.) chrysalis meal on growth performance and meat quality of Rhode Island Red × Fayoumi crossbred chickens

ORCID Icon, ORCID Icon, ORCID Icon, & ORCID Icon
Pages 447-456 | Received 06 Feb 2020, Accepted 30 Mar 2020, Published online: 02 May 2020

References

  • Agazzi A, Invernizzi G, Savoini G. 2016. New perspectives for a sustainable nutrition of poultry and pigs. J Dairy Vet Anim Res. 3:00079.
  • Association of Official Analytical Chemists. 2000. Official methods of analysis. 17th ed. Arlington, VA: AOAC.
  • Biasato I, De Marco M, Rotolo L, Renna M, Lussiana C, Dabbou S, Capucchio MT, Biasibetti E, Costa B, Gai F, et al. 2016. Effects of dietary Tenebrio molitor meal inclusion in free-range chickens. J Anim Physiol Anim Nutr. 100(6):1104–1112.
  • Bovera F, Piccolo G, Gasco L, Marono S, Loponte R, Vassalotti G, Mastellone V, Lombardi P, Attia YA, Nizza A. 2015. Yellow mealworm larvae (Tenebrio molitor, L.) as a possible alternative to soybean meal in broiler diets. Br Poult Sci. 56(5):569–575.
  • CIE 1976. Recommendations on uniform colour spaces, colour differences, equations. Psychometric colour terms. Suppl. 2, CIE Publications n.15. Paris, France: Commission Internationale de l’Eclairage, Colorimetry.
  • Cullere M, Tasoniero G, Giaccone V, Acuti G, Marangon A, Dalle Zotte A. 2018. Black soldier fly as dietary protein source for broiler quails: meat proximate composition, fatty acid and amino acid profile, oxidative status and sensory traits. Animal. 12(3):640–647.
  • Cullere M, Tasoniero G, Giaccone V, Miotti-Scapin R, Claeys E, De Smet S, Dalle Zotte A. 2016. Black soldier fly as dietary protein source for broiler quails: apparent digestibility, excreta microbial load, feed choice, performance, carcass and meat traits. Animal. 10(12):1923–1930.
  • Dalle Zotte A, Singh Y, Michiels J, Cullere M. 2019. Black soldier fly (Hermetia Illucens) as dietary source for laying quails: live performance, and egg physico-chemical quality, sensory profile and storage stability. Animals. 9(3):115.
  • European Commission. 1998. Commission Directive 98/64/EC of 3 September 1998 establishing community methods of analysis for the determination of amino acids, crude oils and fats, and Olaquindox in feeding stuffs and amending Directive 71/393/EEC. https://op.europa.eu/en/publication-detail/-/publication/856db9b7-6f1d-4d6e-a778-c766c9fa1776. [Accessed 11 2020 April].
  • Fagoonee I. 1983. Possible growth factors for chickens in silkworm pupae meal. Br Poultry Sci. 24(3):295–300.
  • Fernandes J. 2002. Nutrition and health Recommendations of the health council of the Netherlands regarding energy, proteins, fats and carbohydrates. Ned Tijdschr Geneeskd. 146(47):2226–2229.
  • Folch J, Lees M, Stanley G. 1957. A simple method for the isolation and purification of total lipids from animal tissues. J Biol Chem. 226(1):497–509.
  • Gale F, Arnade C. 2015. Effects of rising feed and labour costs on China’s chicken price. Int Food Agribus Man. 18:137–150.
  • Guil-Guerrero JL, Ramos-Bueno RP, González-Fernández MJ, Fabrikov D, Sánchez-Muros MJ, Barroso FG. 2018. Insects as food: fatty acid profiles, lipid classes, and sn-2 fatty acid distribution of Lepidoptera larvae. Eur J Lipid Sci Technol. 120(6):1700391.
  • Horlings LG, Marsden TK. 2011. Towards the real green revolution? Exploring the conceptual dimensions of a new ecological modernisation of agriculture that could ‘feed the world. Glob Environ Change. 21(2):441–452.
  • Ijaiya AT, Eko EO. 2009. Effect of replacing dietary fish meal with silkworm (Anaphe infracta) caterpillar meal on performance, carcass characteristics and haematological parameters of finishing broiler chicken. Pak J Nutr. 8(6):850–855.
  • Khatun R, Howlider MAR, Rahman MM, Hasanuzzama M. 2003. Replacement of fish meal by silkworm pupae in broiler diets. Pak J Biol Sci. 6(11):955–958.
  • Khempaka S, Chitsatchapong C, Molee W. 2011. Effect of chitin and protein constituents in shrimp head meal on growth performance, nutrient digestibility, intestinal microbial populations, volatile fatty acids, and ammonia production in broilers. J Appl Poult Res. 20(1):1–11.
  • Konwar P, Konwar BK, Ahmed HF, Nath NC, Ghosh MK. 2008. Effect of feeding silkworm pupae meal with enzyme supplementation on growth performance of broilers. Ind Vet J. 85:47–49.
  • Koudela K, Tenora J, Bajer J, Mathova A, Sláma K. 1995. Stimulation of growth and development in Japanese quails after oral administration of ecdysteroid-containing diet. Eur J Entomol. 92:349–349.
  • Kwon M-G, Kim D-S, Lee J-H, Park S-W, Choo Y-K, Han Y-S, Kim J-S, Hwang K-A, Ko K, Ko K. 2012. Isolation and analysis of natural compounds from silkworm pupae and effect of its extracts on alcohol detoxification. Entomol Res. 42(1):55–62.
  • Lee CM, Trevino B, Chaiyawat M. 1996. A simple and rapid solvent extraction method for determining total lipids in fish tissue. J AOAC Int. 79(2):487–492.
  • Makkar HPS, Tran G, Heuzé V, Ankers P. 2014. State of the art on use of insects as animal feed. Anim Feed Sci Technol. 197:1–33.
  • NRC-National Research Council, subcommittee on Poultry Nutrition. 1994. Nutrient requirements of poultry (9th revised edition, National Academy of Sciences). Washington, DC: National Academy of Sciences.
  • Ojewola GS, Okoye FC, Ukoha OA. 2005. Comparative utilization of three animal protein sources by broiler chickens. Int J Poultry Sci. 4(7):462–467.
  • Pieterse E, Pretorius Q, Hoffman LC, Drew DW. 2014. The carcass quality, meat quality and sensory characteristics of broilers raised on diets containing either Musca domestica larvae meal, fish meal or soya bean meal as the main protein source. Anim Prod Sci. 54(5):622–628.
  • Rao PU. 1994. Chemical composition and nutritional evaluation of spent silk worm pupae. J Agric Food Chem. 42(10):2201–2203.
  • Rattana S, Katisart T, Butiman C, Sungthong B. 2019. Total flavonoids, total phenolics, 1-deoxynojirimycin content and alpha-glucosidase inhibitory activity of Thai silkworm races (Bombyx mori Linn.). Pak J Pharm Sci. 32:2539–2544.
  • Rumpold BA, Schlüter OK. 2013. Nutritional composition and safety aspects of edible insects. Mol Nutr Food Res. 57(5):802–823.
  • Schiavone A, Dabbou S, Petracci M, Zampiga M, Sirri F, Biasato I, Gai F, Gasco L. 2019. Black soldier fly defatted meal as a dietary protein source for broiler chickens: effects on carcass traits, breast meat quality and safety. Animal. 13(10):2397–2405.
  • Sheikh IU, Banday MT, Baba IA, Adil S, Nissa SS, Zaffer B, Bulbul KH. 2018. Utilization of silkworm pupae meal as an alternative source of protein in the diet of livestock and poultry: a review. J Entomol Zool Stud. 6:1010–1016.
  • Simopoulos AP. 1989. Summary of the NATO advanced research workshop acids: biological effects and nutritional essentiality. J Nutr. 119(4):521–528.
  • Statistical Analysis Software for Windows. 2008. Statistics version 9.1.3 ed. Cary, NC: SAS Institute.
  • Ullah R, Khan S, Hafeez A, Asad S, Nazir AK, Naila C, Naseer A. 2017a. Silkworm (Bombyx mori) meal as alternate protein ingredient in broiler finisher ration. PJZ. 49(4):1463–1470.
  • Ullah R, Khan S, Khan N, Mobashar M, Sultan A, Ahmad N, Lohakare J. 2017b. Replacement of soybean meal with silkworm meal in the diets of white leghorn layers and effects on performance, apparent total tract digestibility, blood profile and egg quality. IJVHSR. 5:200–207.
  • Usub T, Lertsatitthanakorn C, Poomsa-Ad N, Wiset L, Yang L, Siriamornpun S. 2008. Experimental performance of a solar tunnel dryer for drying silkworm pupae. Biosyst Eng. 101(2):209–216.
  • Van Huis A, Oonincx D. 2017. The environmental sustainability of insects as food and feed. A review. Agron Sustain Dev. 37(5):43.
  • Van Zanten HHE, Oonincx D, Mollenhorst H, Bikker P, Meerburg BG, deBoer I. 2014. Can the environmental impact of livestock feed be reduced by using waste-fed housefly larvae? In Proceedings of the 9th International Conference on Life Cycle Assessment in the Agri-Food Sector; October 8–10; San Francisco, USA. ACLCA, Vashon, WA, p. 1455–1461.
  • Veldkamp T, Bosch G. 2015. Insects: a protein-rich feed ingredient in pig and poultry diets. Anim Front. 5:45–50.
  • Yu XB, Shen YY, Cui QM, Chen Y, Sun W, Huang XZ, Zhu Y. 2018. Silkworm (Bombyx mori) has the capability to accumulate C20 and C22 polyunsaturated fatty acids. Eur J Lipid Sci Technol. 120(2):1700268.
  • Zeng Z, Jiang J-j, Yu J, Mao X-b, Yu B, Chen D-w. 2019. Effect of dietary supplementation with mulberry (Morus alba L.) leaves on the growth performance, meat quality and antioxidative capacity of finishing pigs. J Integr Agric. 18(1):143–151.
  • Zhang R, Sun J, Li Y, Zhang D. 2020. Associations of n-3, n-6 fatty acids intakes and n-6:n-3 ratio with the risk of depressive symptoms: NHANES 2009–2016. Nutrients. 12(1):240.