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Published May 17, 2021 | Version v1
Journal article Open

EFFECTS OF DIFFERENT SUBSTRATES (FRUITS AND VEGETABLES) ON THE PRODUCTION AND EVOLUTION OF BLACK SOLDIER FLY (Hermetia illucens) LARVAE

Creators

  • 1. Department of Food Science and Technology, University Nangui Abrogoua, 02 BP 801 Abidjan 02, Côte d'Ivoire

Description

The high cost of poultry feed requires the search of alternative solutions for feeding poultry. The objective of this study is to identify the substrate that offers an optimal production of larvae of the black soldier fly which can be used as source of protein in poultry feed. To do this, different substrates made up of fruits and vegetables were used for the production of larvae. Six types of substrates (papaya, avocado, cucumber, sweet banana, watermelon and orange) were tested. Fifty grams (50 g) of black soldier fly larvae (Hermetia illucens) were placed in six containers each containing 350 g of specific substrate. In order to assess the effect of these substrates, fruits and vegetables were first chemically characterized. Then the weight, the length and the rate of converted larvae were determined weekly. The results showed that the substrates had a different chemical profile. At the end of the study, larvae with sweet banana and watermelon as substrate had the highest total weights (96 g ± 4.00 and 94 g ± 3.2) compared to avocado, cucumber, papaya and orange (88 g ± 3.01; 84 g ± 3.01; 77 g ± 2.04; 72 g ± 3.02). Regarding the length, it has evolved according to the weight. Thus, the length of the larvae was significantly (p ˂ 0.05) higher with sweet banana substrates (29.1 ± 0.03 mm) and watermelon (27.3 mm ± 0.01). Regarding the rate of converted larvae, it was significantly (P˂0.05) higher with sweet banana (94.43% ± 7.01), watermelon (93.16% ± 5.00) and papaya (83.75% ± 4.02).This study has shown that sweet bananas and watermelons are excellent feed substrates for optimizing the development of black soldier fly larvae and allowing larval production on a large scale.

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Additional details

References

  • AFNOR. (1991). French Association for Standardization. Collection of French standards for cereals and cereal products. 3rd Edition, France, 1-422.
  • Alauzen, M., & Malivel, C. (2020). Le design est-il en passe de devenir une science de gouvernement? Réflexion sur les espoirs suscités par les sciences du design dans la modernisation de l'État en France (2014-2019). Sciences du Design, (2), 36-47.
  • AOAC. (2005). Official Methods of Analysis (18th Ed.). Washington, 1-949.
  • Banks, I. J., Gibson, W. T., & Cameron, M. M. (2014). Growth rates of black soldier fly larvae fed on fresh human faeces and their implication for improving sanitation. Tropical Medicine and International Health, 19(1), 14-22.
  • Barragan Fonseca, K. B., Dicke, M., & van Loon, J. J. (2017). Nutritional value of the black soldier fly (Hermetia illucens L.) and its suitability as animal feed–a review. Journal of Insects as Food and Feed, 3(2), 105-120.
  • Barros-Cordeiro K. B., Báo, S. N. & Pujol-Luz J. R. (2014). Intra-puparial development of the black soldier-fly, Hermetia illucens. Journal of Insect Science, 14(83): 1-10
  • Burtle, G., Newton, G. L., Sheppard, D. C., & Campus, T. (2012). Mass production of black soldier fly prepupae for aquaculture diets. A Manuscript for Aquaculture International. University of Georgia, Tifton Campus, Tifton, GA.
  • Carvalho, M. J. A., & Mirth, C. K. (2017). Food intake and food choice are altered by the developmental transition at critical weight in Drosophila melanogaster. Animal Behaviour, 126, 195-208.
  • Cheng, J. Y., Chiu, S. L., & Lo, I. M. (2017). Effects of moisture content of food waste on residue separation, larval growth and larval survival in black soldier fly bioconversion. Waste Management, 67, 315-323.
  • De Smet, J., Wynants, E., Cos, P., & Van Campenhout, L. (2018). Microbial community dynamics during rearing of black soldier fly larvae (Hermetia illucens) and impact on exploitation potential. Applied and Environmental Microbiology, 84(9).
  • Diclaro II, J. W., & Kaufman, P. E. (2009). Black soldier fly Hermetia illucens Linnaeus (insecta: Diptera: Stratiomyidae). Uf University of Florida IFAS Extension, 2009(7).
  • Diener, S., Solano, N. M. S., Gutiérrez, F. R., Zurbrügg, C., & Tockner, K. (2011). Biological treatment of municipal organic waste using black soldier fly larvae. Waste and Biomass Valorization, 2(4), 357-363.
  • FAO, (1975). Official Methods of Analysis (Vol. 222). Association of Official Analytical Chemists Washington, DC.
  • Gobbi, P., Martinez-Sanchez, A., & Rojo, S. (2013). The effects of larval diet on adult life-history traits of the black soldier fly, Hermetia illucens (Diptera: Stratiomyidae). European Journal of Entomology, 110(3), 461.
  • Gold, M., Tomberlin, J. K., Diener, S., Zurbrügg, C., & Mathys, A. (2018). Decomposition of biowaste macronutrients, microbes, and chemicals in black soldier fly larval treatment: A review. Waste Management, 82, 302-318.
  • Handke, B., Poernbacher, I., Goetze, S., Ahrens, C. H., Omasits, U., Marty, F., Brunner, E. (2013). The hemolymph proteome of fed and starved Drosophila larvae. PLoS One, 8(6), e67208
  • Hard, D. L. (2002). Innovative developments in the production and delivery of alternative protein sources. Protein sources for the animal feed industry. Animal and Production Health Proceedings, Food and Agriculture Organization, Rome, 125-140.
  • Hardouin, J., & Mahoux, G. (2003). Zootechnie d'insectes-Elevage et utilisation au bénéfice de l'homme et de certains animaux. Gembloux Wildlife Notes, 50, 15-25.
  • Jucker, C., Erba, D., Leonardi, M. G., Lupi, D., & Savoldelli, S. (2017). Assessment of vegetable and fruit substrates as potential rearing media for Hermetia illucens (Diptera: Stratiomyidae) larvae. Environmental Entomology, 46(6), 1415-1423
  • Kone, Y. (2013). Effect of feed supplements on growth performance, laying and organoleptic quality of broilers (Arbor strain and laying hens (Warren strain). Doctorate in Food Science and Technology, Nangui Abrogoua University, Abidjan, Côte d'Ivoire, 1- 208.
  • Li, Q., Zheng, L., Qiu, N., Cai, H., Tomberlin, J. K., & Yu, Z. (2011). Bioconversion of dairy manure by black soldier fly (Diptera: Stratiomyidae) for biodiesel and sugar
  • Ma, J., Lei, Y., Rehman, K. u., Yu, Z., Zhang, J., Li, W., Zheng, L. (2018). Dynamic effects of initial pH of substrate on biological growth and metamorphosis of black soldier fly (Diptera: Stratiomyidae). Environmental Entomology, 47(1), 159-165.
  • Makkar, H. P., Tran, G., Heuzé, V., & Ankers, P. (2014). State-of-the-art on use of insects as animal feed. Animal Feed Science and Technology, 197, 1-33.
  • Newton, G., Sheppard, D., Watson, D., Burtle, G., Dove, C., Tomberlin, J., & Thelen, E. (2005a). The black soldier fly, Hermetia illucens, as a manure management/resource recovery tool. Paper presented at the Symposium on the state of the science of Animal Manure and Waste Management. January 5-7, San Antonio, Texas, USA, 6 pp.
  • Newton, L., Sheppard, C., Watson, D. W., Burtle, G., & Dove, R. (2005b). Using the black soldier fly, Hermetia illucens, as a value-added tool for the management of swine manure. Animal and Poultry Waste Management Center, North Carolina State University, Raleigh, NC, 17.
  • Nguyen, T. T., Tomberlin, J. K., & Vanlaerhoven, S. (2013). Influence of resources on Hermetia illucens (Diptera: Stratiomyidae) larval development. Journal of Medical Entomology, 50(4), 898-906.
  • Nyakeri, E., Ogola, H., Ayieko, M., & Amimo, F. (2017a). An open system for farming black soldier fly larvae as a source of proteins for smallscale poultry and fish production. Journal of Insects as Food and Feed, 3(1), 51-56.
  • Nyakeri, E., Ogola, H., Ayieko, M., & Amimo, F. (2017b). Valorisation of organic waste material: growth performance of wild black soldier fly larvae (Hermetia illucens) reared on different organic wastes. Journal of Insects as Food and Feed, 3(3), 193-202.
  • Oonincx, D., Van Huis, A., & Van Loon, J. (2015). Nutrient utilisation by black soldier flies fed with chicken, pig, or cow manure. Journal of Insects as Food and Feed, 1(2), 131-139.
  • Pimentel, A. C., Montali, A., Bruno, D., & Tettamanti, G. (2017). Metabolic adjustment of the larval fat body in Hermetia illucens to dietary conditions. Journal of Asia Pacific Entomology, 20(4), 1307-1313.
  • Sheppard, D. C., Tomberlin, J. K., Joyce, J. A., Kiser, B. C., & Sumner, S. M. (2002). Rearing methods for the black soldier fly (Diptera: Stratiomyidae). Journal of Medical Entomology, 39(4), 695-698.
  • St‐Hilaire, S., Sheppard, C., Tomberlin, J. K., Irving, S., Newton, L., McGuire, M. A., Sealey, W. (2007). Fly prepupae as a feedstuff for rainbow trout, Oncorhynchus mykiss. Journal of the World Aquaculture Society, 38(1), 59-67.
  • Tinder, A. C., Puckett, R., Turner, N., Cammack, J., & Tomberlin, J. (2017). Bioconversion of sorghum and cowpea by black soldier fly (Hermetia illucens (L.)) larvae for alternative protein production. Journal of Insects as Food and Feed, 3(2), 121-130.
  • ur Rehman, K., Rehman, A., Cai, M., Zheng, L., Xiao, X., Somroo, A. A., Zhang, J. (2017). Conversion of mixtures of dairy manure and soybean curd residue by black soldier fly larvae (Hermetia illucens L.). Journal of Cleaner Production, 154, 366-373.
  • Van Soest, P. v., Robertson, J., & Lewis, B. (1991). Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. Journal of Dairy Science, 74(10), 3583-3597.
  • Xiao, X., Mazza, L., Yu, Y., Cai, M., Zheng, L., Tomberlin, J. K., & Fasulo, S. (2018). Efficient co-conversion process of chicken manure into protein feed and organic fertilizer by Hermetia illucens L. (Diptera: Stratiomyidae) larvae and functional bacteria. Journal of Environmental Management, 217, 668-676.

Subjects

Zoology
10.5281/zenodo.4767543