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Latest publications

Publications from May 2025

 

NoAuthor(s)YearTitleJournalDoi
1Abajue, M.C. and Wogu, M.N.2025Sustainable Food Systems: Case Studies of Successful Insect-Based Enterprises. In: M. Chidozie Ogwu and S. Chibueze Izah (Eds.), Edible Insects: Nutritional Benefits, Culinary Innovations and Sustainability. Springer Nature Switzerland, Cham, pp. 265-289. https://doi.org/10.1007/978-3-031-90087-7_12
2Abbasi, E.2025Edible insects as a sustainable and innovative approach to addressing global food security and environmental challenges: a comprehensive review. Journal of Insects as Food and Feed: 1-12. https://doi.org/10.1163/23524588-bja10208
3Abdelfattah, E.A. and Ahmed, D.H.A.E.-M.2025Using of Black Solider Fly Larvae as A Biodegradation Tool of Oil Contamination of Organic Waste. World Journal of Environmental Science and Energy 1.
4Abdoullahi, I., Bienvenu, F.Z., Kouatcho, F.D., Mbougueng, P.D., Ibrahim, B.M., Iya, S.B. and Radu-Rusu, R.M.2024EFFECT OF THREE DIFFERENT SUBSTRATES ON THE GROWTH OF BLACK SOLDIER FLIES LARVAES Hermetia illucens (L. 1758) AIMEDFOR Clarias gariepinus FEEDING. Animal & Food Sciences Journal Iasi2024: 253-259. https://biblioteca.uaiasi.ro/firaa/Pdf/Pdf_Vol_82/I_Abdoullahi.pdf
5Adam, N.R., Obese, F.Y., Adjorlolo, L.K. and Ayizanga, R.A.2025INFLUENCE OF BLACK SOLDIER FLY LARVAE MEAL-BASED DIETS ON GROWTH PERFORMANCE, HAEMATOLOGICAL AND SERUM BIOCHEMICAL PARAMETERS DURING THE STARTER AND FINISHER PHASES IN BROILER CHICKEN. Ghanaian Journal of Animal Science 16: 11-25. https://dx.doi.org/10.4314/gjansci.v16i1.2
6Adesoye, O.A., Olanrewaju, C.A. and Malann, Y.D.2025INSECT-DERIVED BIOACTIVE COMPOUNDS: UNLOCKING THEIR POTENTIALACROSS MEDICINE, AGRICULTURE, AND OTHER INDUSTRIES.AFRICAN JOURNAL OF AGRICUL AGRICULTURE AND ALLIED SCIENCES (AJAAS) V ALLIED SCIENCES (AJAAS) 5. https://doi.org/10.70118/ajaas.02025050502.10
7Agbai, L.E., David, O.M. and Ajayi, O.2025Extract of Pterocarpus santalinoides (L’Her. Ex Dc) Leaf Decolonizes Escherichia coli on and in the Larvae of Housefly Intended for Feed Meal. Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca. Veterinary Medicine 82: 99-104. https://doi.org/10.15835/buasvmcnvm:2024.0009
8Akwa, T.E., Tsafack, H.N., Djoko, G.R.P. and Azefack, L.T.2025Valorization of black soldier fly larvae production using kitchen waste as alternative solution to waste management and source of protein for animal production in Dschang, Cameroon. International Journal of Tropical Insect Science. https://doi.org/10.1007/s42690-025-01515-6
9Akwuaka, P.C., Nsofor, C.I., Ufele-Obiesie, A.N., Umeaniebue, A.C., Offor, V.O. and Olisa, C.S.2025Synergistic Effect of Hermetia illucens Larval Meal and Moringa oleifera Leaf Meal on the Growth Performance of Clarias gariepinus. Asian Journal of Research in Zoology 8: 69-83. https://doi.org/10.9734/ajriz/2025/v8i2194
10Alagappan, S., Hong, H., Mikkelsen, D., Olarte Mantilla, S., James, P., Yarger, O., Hoffman, L. and Cozzolino, D.2025Investigating the effect of larval instar, post-harvest treatments, and substrate on the nutritional profile of black soldier fly larvae (Hermetia illucens). Animal Production Science 65. https://doi-org.ezproxy.library.wur.nl/10.1071/AN24108
11Albuquerque, R.S.d., Bernardo, Y.A.d.A., Santos, J.F.d., Santos, D.d.S.e., Monteiro, M.L.G. and Conte-Junior, C.A.2025Simplex-Centroid Design to Evaluate the Effects of Adding Cricket Flour (Gryllus assimilis) and Soy Protein to Beef Burgers. Journal of Food Science 90: e70284. https://doi.org/10.1111/1750-3841.70284
12Alfaro-Wisaquillo, Y.M.2025Food Security and Sustainability Based on Alternative Proteins from Insects in the Santander Region (Colombia): A Perspective. In: A. Meneses-Jácome, U. Schmid-Staiger and T.C. Guarín C (Eds.), The Circular Bioeconomy in Industry: Strategies for Sustainable Resource Recovery, Environmental Balance, and Ecosystem Protection. Springer Nature Switzerland, Cham, pp. 113-114. https://doi.org/10.1007/978-3-031-84359-4_17
13Alho, C.F.B.V., Deen, S.N.E., Groote, B.G.H.d., Poel, M.A.v.d., Ndambi, A. and Beintema, N.M.2025Applying the Butterfly Framework to appraise stakeholder assessments of biochar and black soldier fly as circular innovations in KenyaWageningen Social & Economic Research, Report 2025-045. https://edepot.wur.nl/690957
14Ali, P., Khan, S., Al-Khalaifah, H., Rafiullah, Khan, R.U., Naz, S., Alhidary, I.A. and Abudabos, A.2025Lactobacillus-Enriched Zophobas morio Larvae Impact Performance, Digestibility, Immunity and Economics in Broilers. Journal of Animal Physiology and Animal Nutrition n/a. https://doi.org/10.1111/jpn.14131
15Alltech2025Agri-Food Outlook 2025. Alltech. https://www.alltech.com/agri-food-outlook
16Alves, M.M.d.M., de Almeida Passos, V.H.A., de Souza Leal, P.P.M., Neta, P.P.L., dos Anjos, B.S., Acha, B.T., Tavares Neto, J.M., Almeida, J.O.C.S.d., Sousa, L.d.R., Arcanjo, D.D.R., Rodrigues, K.A.d.F., Carvalho, F.A.d.A. and Baneth, G.2025Yellow mealworm beetle (Tenebrio molitor) larvae as an alternative model for antileishmanial drug evaluation. Veterinary Parasitology 337: 110468. https://doi.org/10.1016/j.vetpar.2025.110468
17Ambele, F.C., Chia, S.Y., Nsobinenyui, D., Akutse, K.S., Ngantu, N.H., Akumeyam, A.E., Kababu, M. and Tanga, C.M.2025Edible insects as a sustainable solution to food insecurity in conflict-ridden regions of Cameroon. Journal of Insects as Food and Feed: 1-21. https://doi.org/10.1163/23524588-bja10213
18Andleeb, S., Ahmad, I., Asimi, O.A., Bazaz, A.I., Shah, A., Qazi, D., Razak, I.N. and Baba, S.H.2025Contemporary Overview of Insect Meal in Aquaculture: Opportunity & Prospects. Proceedings of the Zoological Society. https://doi.org/10.1007/s12595-025-00568-2
19Arachchige, A.M.M., Williams, M., Bishnoi, M. and Jayasena, V.2025Black soldier fly larvae (Hermetiaillucens) as a novel and sustainable source of nutrition and bioactive compounds. Proceedings of the Nutrition Society 84: E127. https://doi.org/10.1017/S0029665125001375
20Aslam, M.R., Kierończyk, B., Rawski, M., Szymkowiak, P., Stuper-Szablewska, K., Kołodziejski, P., Mikuła, R., Dankowiakowska, A. and Józefiak, D.2025Insect fat influences broiler performance, meat quality, and the cecal microbiota similarly to plant oils rather than animal fats. Scientific Reports 15: 18086. https://doi.org/10.1038/s41598-025-02820-3
21Babczyńska, A., Monika, T., Klaudia, C., Barbara, F., K., A.A., Łukasz, N.-R., Katarzyna, R., Ewa, Ś., Andrzej, K. and and Augustyniak, M.,2025Effects on digestive enzyme activities in the house crickets Acheta domesticus exposed to graphene oxide in food for several generations. Nanotoxicology: 1-14. https://doi.org/10.1080/17435390.2025.2500430
22Baek, S.-H., Lim, C.-G. and Nam, I.-S.2025Effects of blanching and washing on microbial safety, acid value, and peroxide value in drone pupae as a safe food ingredient. J Humanimal Sci 1: 10-18. https://doi.org/10.23341/jhas.2025.1.1.10
23Bai, S.Y., Fu, X., Li, Y.P., Zhou, X.F., Jin, X.D., Wang, Y. and Liu, Y.Q.2025An overview of the infectious diseases of edible wild silkworm Antheraea pernyi (Lepidoptera: Saturniidae). Journal of Insects as Food and Feed: 1-19. https://doi.org/10.1163/23524588-bja10229
24Barragán-Fonseca, K.B. and Gómez, D.2025Review: Ecosystem service indicators in insect farming – a novel One Health perspective. Animal: 101549. https://doi.org/10.1016/j.animal.2025.101549
25Barreto Amaral, S.M., Saraiva, M.C., Silva, R.D.S., Moreira, J.D. and Silva, E.M.C.D.2025INTENTION TO CONSUME INSECTS AS AN ALTERNATIVE PROTEIN IN FOOD. Conex. Ci. e Tecnol. Fortaleza 19, e025011. https://doi.org/10.21439/conexoes.v19.3631
26Batista da Silva, A.A., Figueiredo, E.d.S., Ferreira, H.K.A., Paula, G.H.d., Klein, S., Coldebella, A., Gentilin, A.L. and Signor, A.A.2025Hermetia illucens in the feeding of tilapia larvae (Oreochromis niloticus). Revista Caderno Pedagogico 22: 1-18. https://doi.org/10.54033/cadpedv22n7-180
27Bejaei, M., Forster, I., Vandersteen, W. and Cannon, B.2025Effects of black soldier fly larvae with and without algal oil on sensory and physical-chemical properties of Chinook salmon fillets. Journal of Insects as Food and Feed: 1-22. https://doi.org/10.1163/23524588-bja10202
28Bellezza Oddon, S., Rossi, G., Bongiorno, V., Gasco, L., Ojha, S., Rastello, L., Renna, M., Rossi Ribeiro, L., Sandrock, C., Schlüter, O.K. and Biasato, I.2025Advancing insect utilization for food and feed: standardizing processing methods, enhancing techno-functional properties, and refining feeding trial protocols.Journal of Insects as Food and Feed: 1-30. https://doi.org/10.1163/23524588-bja10224
29Benashvili, M., Lee, S., Ju, Y.-W., Park, Y.-J., Kim, S.-A., Park, S.-W. and Son, Y.-J.2025Effect of mealworm (Tenebrio molitor L.) chitosan coating on the postharvest qualities of strawberries. Postharvest Biology and Technology 228: 113657. https://doi.org/10.1016/j.postharvbio.2025.113657
30Berggreen, I.E., Schøn, M.L., Nørgaard, J.V. and Jensen, K.2025Optimal dietary protein content and essential amino acid limitation in larvae of the black soldier fly (Hermetia illucens). Journal of Insects as Food and Feed: 1-12. https://doi.org/10.1163/23524588-bja10221
31Bhowmik, S., Rajeswari, D., Sogala, M. and Dhanapati, G.K.2025CHAPTER: 8. INSECTS IN AGRICULTURE: FRIENDS AND FOES OF FARMERS. In: ENTOMOLOGY VISTAS: EMERGING TRENDS IN ENT0MOLOGY, vOL. 3. (EDS: Editors : B. L. Manisha, Maharaj Satwika, P. Logeshkumar, Neelam A. Singh). Stella International Publication, pp. 141-156.
32Bisht, K.2025Optimizing Nutritional Regimes for Sustainable Weight Gain in House Crickets (Acheta domesticus) for Food Security. Uttar Pradesh Journal of Zoology 46: 145-151. https://doi.org/10.56557/upjoz/2025/v46i104973
33Boonthong, S., Nuntapong, N., Hahor, W., Waeowannajit, S. and Thongprajukaew, K.2025Mealworm (Tenebrio molitor) feed substrate waste: An alternative protein source for aquafeed production. Journal of Insects as Food and Feed: 1-15. https://doi.org/10.1163/23524588-bja10196
34Bou-Mitri, C., Mashtoub, L.A., Issa, A., Doumit, J. and Karam, L.2025Consumers perception of insect-based foods in Lebanon: A novel sustainable food source. Journal of Insects as Food and Feed: 1-15. https://doi.org/10.1163/23524588-bja10239
35Brahmacharimayum, P.D., Singh, S.K., Biswas, P., Debbarma, R., Debbarma, S., Devi, A.G., Waikhom, G., Patel, A.B., Singh, S.B., Singh, T.B. and Sharma, B.A.2025Valorising rice straw waste: pre-treatment and insect bioconversion as a bridge for waste management and sustainable feed production. Discover Sustainability 6: 395. https://doi.org/10.1007/s43621-025-00939-x
36Brian Mboya, J.2025Enhancing Aquaculture Sustainability: The Use of Insect Meals in Fish Feed. Animal Science Cases. https://doi-org.ezproxy.library.wur.nl/10.1079/animalsciencecases.2025.00
37Browning, H. and Veit, W.2025Animal Welfare Cases: Best practice for farmed insect welfare: Lessons from Black soldier flies. https://philsci-archive.pitt.edu/25307/1/Browning_Veit%20insect%20welfare.pdf
38Bruno, D., Manas, F., Bonelli, M., Gold, M., Marzari, M., Roma, D., Valoroso, M.C., Montali, A., Guillaume, J.B., Rebora, M., Bressac, C., Herman, N., Caccia, S., Casartelli, M. and Tettamanti, G.2025Life cycle, reproduction, and morphofunctional characterisation of the gut, fat body, and haemocytes in the black soldier fly. Journal of Insects as Food and Feed: 1-28. https://doi.org/10.1163/23524588-20250002
39Bukamba Tshanga, C., Van Engeland, C., Kapuku Kayiba, M., Kambashi Mutiaka, B., Bindelle, J., Haut, B. and Debaste, F.2025Convective drying of Cirina forda caterpillars: drying kinetics and shrinkage. Journal of Insects as Food and Feed: 1-12. https://doi.org/10.1163/23524588-bja10199
40Cai, Y.2025Progress in the study of nutrient composition and biological functions of locusts. Dean&Francis. ISSN 2959-409X.
41Čaloudová, J., Pospiech, M., Hoffman, L.C., Alagappan, S., Yarger, O. and Cozzolino, D.2025Tracing the addition of black soldier fly larvae to barley flour using near infrared spectroscopy – effects of batch and processing treatment. Journal of Food Composition and Analysis: 107774. https://doi.org/10.1016/j.jfca.2025.107774
42Candian, V., Scarpino, V., Bona, A., Tedeschi, R. and Blandino, M.2025Mycotoxins-contaminated wheat matrices bioconversion by Tenebrio molitor larvae (Coleoptera: Tenebrionidae). Insect Science n/a. https://doi.org/10.1111/1744-7917.70066
43Cantero-Bahillo, E., da Cunha-Borges, V. and Martin, D.2025Quinoa (Chenopodium quinoa) or quinoa husk in the diet of Tenebrio molitor: Productive parameters, larvae composition, saponins bioaccumulation and bioactivity. Food Chemistry 487: 144667. https://doi.org/10.1016/j.foodchem.2025.144667
44Carmona-Cantillo, D., López-Padilla, A. and Ortega-Toro, R.2025Innovation in Biodegradable Composites: Wheat Flour and Hermetia illucens Larvae Flour Biocomposites Enhanced with Cellulose NanocrystalsJournal of Composites Science.https://doi.org/10.3390/jcs9050249
45Cattaneo, A.2025Insect rearing: agri-food, welfare and feed sustainabilityBEFWelSust. PhD Università di Trento. https://iris.unitn.it/handle/11572/450432
46Chen, L., Sun, H., Song, H., Wang, G., Ma, X., Tu, J.T., Yang, L., Li, J., Wang, Y., Meng, X., Zhang, W., Li, S., Tian, Q., Zhao, Y., Yang, H., Wang, P. and Li, L.2025Dietary Inclusion of Defatted Black Soldier Fly Larvae Meal: Impacts on Laying Hen Performance, Egg Quality, Serum Biomarkers, and Intestinal Morphology. Front. Vet. Sci. 12. https://doi.org/10.3389/fvets.2025.1605077
47Chen, L., Wang, G., Song, H., Yang, Q., Fu, J., Liu, J., Sun, H., Wang, Y., Tian, Q., Sun, Y., Sun, L., Xin, H., Xiao, Z., Wang, G., Zhang, Z., Zhao, Y., Yang, H. and Li, L.2025Adding Fruit Fermentation Liquid Improves the Efficiency of the Black Soldier Fly in Converting Chicken Manure and Reshapes the Structure of Its Intestinal Microbial CommunityInsects. https://doi.org/10.3390/insects16050472
48Chen, L., Yang, L., Peng, C., Chen, Z., Li, H. and Deng, Z.2025Feeding black fly soldier larva using fermented solid residue generated from food waste three-phase separation. Journal of Material Cycles and Waste Management. https://doi.org/10.1007/s10163-025-02249-w
49Chenarian Nakhaei, N., Ahmadi, K. and Asadi, M.2025Comparison of the Effects of Various Low Carbon Footprint Diets on the Growth Parameters of Yellow Mealworm (Tenebrio molitor Linnaeus) (Col. Tenebrionidae) as a Climate-Friendly Protein Source. Journal of Entomological Society of Iran 45: 327-339. https://doi.org/10.61186/jesi.45.2.11
50Chibueze Izah, S., Chidozie Ogwu, M. and Kurian, N.K.2025Processing and Preservation of Edible Insects and the Role of Biotechnology in Entomoculture. In: M. Chidozie Ogwu and S. Chibueze Izah (Eds.), Edible Insects: Nutritional Benefits, Culinary Innovations and Sustainability. Springer Nature Switzerland, Cham, pp. 97-117. https://doi.org/10.1007/978-3-031-90087-7_5
51Chibueze Izah, S. and Fayiah, M.2025Edible Insects for Food Security and Sustainable Development. In: M. Chidozie Ogwu and S. Chibueze Izah (Eds.), Edible Insects: Nutritional Benefits, Culinary Innovations and Sustainability. Springer Nature Switzerland, Cham, pp. 241-263. https://doi.org/10.1007/978-3-031-90087-7_11
52Chidozie Ogwu, M.2025Entomophagy Through a Cultural Lens: Traditions, Barriers, and Opportunities. In: M. Chidozie Ogwu and S. Chibueze Izah (Eds.), Edible Insects: Nutritional Benefits, Culinary Innovations and Sustainability. Springer Nature Switzerland, Cham, pp. 325-344. https://doi.org/10.1007/978-3-031-90087-7_14
53Chidozie Ogwu, M.2025Market Trends and Business Opportunities in Edible Insects.In: M. Chidozie Ogwu and S. Chibueze Izah (Eds.), Edible Insects: Nutritional Benefits, Culinary Innovations and Sustainability. Springer Nature Switzerland, Cham, pp. 189-214. https://doi.org/10.1007/978-3-031-90087-7_9
54Chidozie Ogwu, M., Kosoe, E.A., Kaburi, S.A., Fagariba, C.J. and Chibueze Izah, S.2025Safety Concerns and Consumer Acceptance of Edible Insects. In: M. Chidozie Ogwu and S. Chibueze Izah (Eds.), Edible Insects: Nutritional Benefits, Culinary Innovations and Sustainability. Springer Nature Switzerland, Cham, pp. 141-163. https://doi.org/10.1007/978-3-031-90087-7_7
55Chidozie Ogwu, M., Osei-Kwarteng, M. and Mukah, F.E.2025Insect Farming: Methods and Sustainability. In: M. Chidozie Ogwu and S. Chibueze Izah (Eds.), Edible Insects: Nutritional Benefits, Culinary Innovations and Sustainability. Springer Nature Switzerland, Cham, pp. 69-95. https://doi.org/10.1007/978-3-031-90087-7_4
56Choi, Y., Lee, D.Y., Mariano, E.J., Park, J., Han, D., Kim, J.S., Park, J.W., Seok, N. and Hur, S.J.2025A review on the current research and industrialization status of edible insect protein. food science of animal resources. Food Sci Anim Resour. https://doi.org/10.5851/kosfa.2025.e31
57Chung, T.-H.2025Evaluation of Environmental Control Ability of Tenebrio Molitor Larvae on Laying Hens’ Manure. Journal of Environmental Science International 34: 249~252. https://doi.org/10.5322/JESI.2025.34.4.249
58Cui, X., Xie, Y., Xu, M.-L. and Gao, Y.2025Sulfur-containing amino acids enhanced antioxidant of yellow mealworm proteins: GPx4 activation through structural modulation evidenced by spectroscopy method. Food Chemistry: X 28: 102562. https://doi.org/10.1016/j.fochx.2025.102562
59Danmek, K., Ghosh, S., Jung, C., Wu, M.-C., Maniwara, P., Hongsibsong, S., Klaithin, K. and Chuttong, B.2025Fermentation and Physicochemical Properties of Sauce Made from Adult Worker Honey Bees (Apis mellifera) Using Aspergillus oryzae. International Journal of Food Science and Technology, 60(1)https://doi-org.ezproxy.library.wur.nl/10.1093/ijfood/vvaf095
60Daokoru-Olukole, C., Chibueze Izah, S. and El-Harairy, A.2025Health Benefits of Edible Insects. In: M. Chidozie Ogwu and S. Chibueze Izah (Eds.), Edible Insects: Nutritional Benefits, Culinary Innovations and Sustainability. Springer Nature Switzerland, Cham, pp. 45-67. https://doi.org/10.1007/978-3-031-90087-7_3
61Dawood, M.M. and Saikim, F.H.2025THE ROLE OF INSECTS AS SUSTAINABLE RESOURCES IN FOOD AND TOURISM: A COMPARATIVE GLOBAL-LOCAL ANALYSIS. Borneo Science. https://doi.org/10.51200/bsj.v46i1.6307
62de Vrije, d.G.J., Lenders, R., Romijn, M., Hol, S.J.E., Elissen, H.J.H., Dijkstra, J.W., Cieplik, M. and Contreras, A.M.L.2025Potential direct uses of organic wastes on Bonaire. Wageningen Food & Biobased Research, Wageningen University & Research. Report 2693. https://doi.org/10.18174/691950
63Dearlove, E., Van Gestel, C.A.M., Loureiro, S., Svendsen, C., Lloyd, M., Mugo-Kamiri, L., Petersen, J.M., Bessette, E., Edwards, S., Lim, F.S., Herren, P., Hernández Pelegrı́n, L., Pienaar, R.D., Huditz, H., Mostafaie, A., Pinto, J., Roman, A., Savio, C., Slowik, A.R., Takacs, J., Upfold, J.K. and Hesketh, H.2025Determining multiple stressor interactions in mass-reared insects based on principles of ecotoxicology.Journal of Insects as Food and Feed: 1-18. https://doi.org/10.1163/23524588-bja10203
64Devani, M.D.D., Putra, G.A.M., Dewi, G.A.B.M. and Wahyuniari, I.A.T.2025Characteristics of Black Soldier Fly Maggot Snack Bar and The Potential as Stunting Prevention Food. Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca. Food Science and Technology 82: 111-118. https://doi.org/10.15835/buasvmcn-fst:2024.0027
65Dewangan, B., Panda, A.K., Kerketta, S., Kerketta, A., Bhatnagar, P.S., Mishra, R., DeMandal, S. and Bisht, S.S.2025Reassuring insect farming ensures waste minimization and future food security. Discover Sustainability 6: 451. https://doi.org/10.1007/s43621-025-01266-x
66Di Pasquale, A., Zoccola, M., Mohod, A., Fontana, G.D., Anastasia Anceschi and Vacche, S.D.2025From Waste to Technological Products: Bioplastics Production from Proteins Extracted from Black Soldier Fly.Preprints https://doi.org/10.20944/preprints202505.0100.v1
67Ding, Y., Cui, Y., Xie, H., Liang, J., Liu, H., Yuan, F. and Liu, T.2025Camptothecin weakens the mechanical properties of insect cuticle by inhibiting tanning. Insect Science n/a. https://doi.org/10.1111/1744-7917.70065
68Dolfi, E., Masi, M., Marrocco, E.S., Yeter, G., Magnani, M., Vecchio, Y., Bonaldo, A. and Adinolfi, F.2025Indirect entomophagy: Consumer willingness to pay toward fish fed with insect-based feed. AIMS Agriculture and Food 10: 266-292. https://doi.org/10.3934/agrfood.2025014
69Donald, C.E., Jaastad, G., Flågeng, M.H., Merel, S., Rasinger, J.D., Berntssen, M.H.G. and Belghit, I.2025Tolerance and degradation of the insecticide pirimiphos-methyl and its metabolites by black soldier fly and yellow mealworm larvae. Journal of Insects as Food and Feed: 1-13. https://doi.org/10.1163/23524588-bja10223
70Dong, W., Wang, X., Cheng, Z., Moussian, B., Zhang, J. and Zhang, X.-B.2025HiHR4 regulates chitin metabolism during molting of Hermetia illucens. Insect Biochemistry and Molecular Biology: 104318. https://doi.org/10.1016/j.ibmb.2025.104318
71Dufresne, G., Bolduc, C., Warburton, C., Vandenberg, G., Deschamps, M.-H. and Alnahhas, N.2025Parentage assignment in black soldier fly (Hermetia illucens) using genotyping-by-sequencing. Front. Genet. https://doi.org/10.3389/fgene.2025.1541812
72Edwards, W.J.S., Skingle, C., Small, R., Barker, R. and Tsaousis, A.D.2025Bridging lab and industry: The impact of a bio-conversion unit on black soldier fly larvae production and microbiome dynamics. JSFA Reports n/a. https://doi.org/10.1002/jsf2.70010
73Emmanuel, O.E., Ogbe, O.C., O.E., E. and N.J., E.2025Nutritional Composition of Four Edible Insects in Southern Nigeria. Nig. J. Pure & Appl. Sci. 38: 5199-5206. https://doi.org/10.48198/NJPAS/24.B19
74Farias, A.B.d.S., Santana, T.M., Older, C.E., Huang, J., Jordan, H.R., Affonso, E.G., Gatlin, D.M., Griffin, M.J., Yamamoto, F.Y. and Gonçalves, L.U.2025Black soldier fly larvae oil as a potential nutraceutical ingredient in diets for hybrid catfish Ictalurus punctatus × I. furcatus juveniles. Aquaculture: 742697. https://doi.org/10.1016/j.aquaculture.2025.742697
75Fernández-Salas, M., Espinosa-Ramírez, J., Morales-de la Peña, M., Garcia-Amezquita, L.E., Martín-del-Campo, S.T. and Tejada-Ortigoza, V.2025Effect of pulsed electric field on Zophobas morio flour: evaluation of lipid extraction, techno-functional properties, and protein characterization. LWT: 117876. https://doi.org/10.1016/j.lwt.2025.117876
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233Smetana, S., Coudron, C., Deruytter, D., Francis, A., Pascual, Juan J., Klammsteiner, T., Lemke, N., Sandrock, C. and Zanoli, R.2025BugBook: Data analysis methods in studies of insects for food and feed. Journal of Insects as Food and Feed: 1-27. https://doi.org/10.1163/23524588-bja10209
234Soulioti, P., Adamaki-Sotiraki, C., Rumbos, C.I. and Athanassiou, C.G.2025Unveiling the protein puzzle: How does protein in the feeding substrate affect Zophobas morio larval growth and performance? Journal of Insects as Food and Feed: 1-14. https://doi.org/10.1163/23524588-bja10210
235Souza, E., Zeferino, M., Periard, L., Gonçalves-Junior, L., Vargas-Junior, J. and Mendonça, P.2025Performance of lambari-do-rabo-amarelo Astyanax bimaculatus (Linnaeus, 1758) fed diets based on adult black soldier fly meal: analysis of its effectiveness as a substitute for fish meal. Braz J Biol. 85:e292260. https://doi.org/10.1590/1519-6984.292260
236Spranghers, T., Houbraken, M., Spanoghe, P. and De Clercq, P.2025Effects of rearing substrate and larval stage on the contamination levels of chemicals in black soldier fly larvae. Journal of Insects as Food and Feed: 1-11. https://doi.org/10.1163/23524588-bja10215
237Spranghers, T., Moradei, A., Silva, C., Neto, E., Vynckier, K., Verspreet, J., Bastiaens, L. and Deruytter, D.2025Edible Insects in Pet Food: Does the Rearing and Processing Alter the Nutritional Value? Journal of Applied Entomology. https://doi.org/10.1111/jen.13438
238Srikha, T., Pootthachaya, P., Puangsap, W., Pramotchit, S., Boonkum, W., Suntara, C., Hanboonsong, Y., Cherdthong, A., Tengjaroensakul, B. and Wongtangtintharn, S.2025The Role of Black Soldier Fly Larvae in Optimizing Performance and Amino Acid Composition in Thai Native Chicken.Animals. https://doi.org/10.3390/ani15091330
239Statkevych, O.I., Kolomiiets, Y.V., Holembovska, N.V., Israelian, V.M., Babych, О.A., Slobodyanyuk, N.M., Babytskiy, A.I. and Statkevych, A.O.2024Effects of nutrient medium on various-age larvae of Hermetia illucens (Diptera, Stratiomyidae). Regulatory Mechanisms in Biosystems 15. https://doi.org/10.15421/0224131
240Stephan, M.P., Sarkis, d.S., J.E., d.R., J.S. and Cocato, M.L.2025Tenebrio Molitor: Investigating the Scientific Foundations and Proteomic and Peptidomic Potential. Food and Nutrition Sciences 16: 427-435. https://doi.org/10.4236/fns.2025.164024
241Syahrulawal, L., Torske, M.O., Sapkota, R., Næss, G. and Khanal, P.2025Production of mineral-enriched yellow mealworm (Tenebrio molitor) larvae through a seaweed-based dietary manipulation. Journal of Insects as Food and Feed: 1-21. https://doi.org/10.1163/23524588-bja10237
242Tahamtani, F.M., Kittelsen, K. and Vasdal, G.2025Dried black soldier fly larvae (Hermetia illucens) as environmental enrichment for laying hens – a full-scale commercial study.Journal of Insects as Food and Feed: 1-15. https://doi.org/10.1163/23524588-bja10220
243Tambunan, J.A.M., Fadela, D.M., Zakaria, A., Lestari, E.S., Aynuddin, Fachrurrazie and Haziman, M.L.2025Monitoring CO2 Levels and Total Volatile Organic Compounds in Tofu Waste Composting Process Using IoT-Based Maggot Larvae. Journal Of Biology Education Research 6: 76-84. https://doi.org/10.55215/jber.v6.i1.18
244Tao, W.C.W., Niermans, K., Weide, Y.B.N., van Dongen, K.C.W., Meijer, N., Hoek – van den Hil, E.F. and van der Fels-Klerx, H.J.2025Impact of aflatoxin B1-exposure on the genotoxic potential of larval extracts of the black soldier fly (Hermetia illucens), housefly (Musca domestica) and lesser mealworm (Alphitobius diaperinus). Environmental Toxicology and Pharmacology: 104724. https://doi.org/10.1016/j.etap.2025.104724
245Taylor, I.W., Saroj, K., Francisco, A. and and Campbell, B.2025A system dynamics-based digital twin application for mealworm farming. Journal of Simulation: 1-18. https://doi.org/10.1080/17477778.2025.2492682
246Tignani, M.V., Addeo, N.F., Imperatore, R., Vozzo, S., Orso, G., Secci, G., Paolucci, M., Bovera, F., Parisi, G. and Piccolo, G.2025Queen bee larvae meal (Apis mellifera ligustica Spin.) in Dicentrarchus labrax diet: growth performance, haepatointestinal histomorphology and fillet quality. Journal of Insects as Food and Feed: 1-23. https://doi.org/10.1163/23524588-bja10230
247Tomberlin, Jeffery K., Klammsteiner, T., Lemke, N., Yadav, P. and Sandrock, C.2025BugBook: Black soldier fly as a model to assess behaviour of insects mass produced as food and feed.Journal of Insects as Food and Feed: 1-20. https://doi.org/10.1163/23524588-bja10225
248Torres-Monroy, K.C., Menjura-Rojas, E.M., Arévalo-Arévalo, H.A., Vásquez-Mejía, S.M. and Barragán-Fonseca, K.B.2025Enhancing Safety Through Implementation of HACCP Plan for Black Soldier Fly Hermetia illucens) Larvae Meal as Animal Feed. Preprints. https://doi.org/10.20944/preprints202505.1281.v1
249Torres-Monroy, K.C., Menjura-Rojas, E.M., Arévalo-Arévalo, H.A., Vásquez-Mejía, S.M. and Barragán-Fonseca, K.B.2025Enhancing Safety Through Implementation of HACCP Plan for Black Soldier Fly (Hermetia illucens) Larvae Meal as Animal Feed. Preprints. https://doi.org/10.20944/preprints202505.1281.v1
250Tovar-Ramírez, M.M., Oviedo-Olvera, M.V., Nieto-Ramirez, M.I., Parra-Pacheco, B., Feregrino-Pérez, A.A. and Garcia-Trejo, J.F.2025Egg Quality and Laying Performance of Rhode Island Red Hens Fed with Black Soldier Fly Larvae and Microalgae Meal as an Alternative DietAnimals. https://doi.org/10.3390/ani15111540
251Tran, Hung Q., Nguyen, Tram T., Øverland, M., Gasco, L., Valente, Luisa M.P. and Stejskal, V.2025Influence of dietary black soldier fly (Hermetia illucens) meal on the quality attributes of aquaculture fish products: a meta-analysis. Journal of Insects as Food and Feed: 1-17. https://doi.org/10.1163/23524588-bja10236
252Tran, T.-T. and Nguyen, V.H.P.2025Use of black soldier fly (Hermetia illucens) larvae in orange peel waste treatment. Cleaner and Circular Bioeconomy: 100155. https://doi.org/10.1016/j.clcb.2025.100155
253Trujillo-Argueta, S., del Castillo, R.F., Cortés-López, Z.D., Guzmán-Vásquez, H.M. and Sánchez-Garcı́a, J.A.2025Morphological description and DNA barcoding of an edible insect and its host plant in Oaxaca, Mexico. Journal of Insects as Food and Feed: 1-12. https://doi.org/10.1163/23524588-bja10204
254Turuczki, S.M., Mikics, P. and Monostori, T.2025Large water flea (Daphnia magnaStraus) and mealworm(Tenebrio molitorL.) as potential food sources for rearingcommon carp (Cyprinus carpioL.) juveniles indoors. Fisheries & Aquatic Life 33: 19-29. https://doi.org/10.2478/aopf-2025-0002
255Uwimbabazi, C., Ondiek, J.O. and King’ori, A.M.2025Performance and Carcass Characteristics of Broiler Chickens Fed Black Soldier Fly LarvaeBased Diets- A Review. GSAR Journal of Agriculture and Veterinary Sciences 2: 50-61.
256Vehar, A., Potočnik, D., Strojnik, L., Zuliani, T., Heath, D., Mencin, M., Vrhovšek, U.k., Škvorová, P., Kouřimská, L., Kulma, M., Heath, E. and Ogrinc, N.2025Nutritional composition of farmed insects: impact of species, developmental stage, and sex. Journal of Insects as Food and Feed: 1-23. https://doi.org/10.1163/23524588-bja10234
257Vermeer, H.M., Almekinders, T.A.A., Veldkamp, F. and Poppe, W.A.M.2025Varkensvoeders verrijkt met insecten – levende of ingemengde meelwormen; Regio Deal Foodvalley – Circulair voer. W. Wgeningen Livestock Research. Openbaar Rapport 1569.
258Verni, M., Squeo, G., Perri, G., Demarinis, C., Rizzello, C.G., Caponio, F., Faino, L. and Pontonio, E.2025Optimizing Tenebrio molitor powder as ingredient in breadmaking: Impact of enzymatic hydrolysis on dough techno-functional properties and bread quality. Future Foods: 100665. https://doi.org/10.1016/j.fufo.2025.100665
259Vervoort, E., Smets, R., Ijdema, F., Vangeel, T., Goos, P., Lagrain, B., Sels, B. and Der Borght, M.V.2025Effect of process parameters on the purity of chitin isolated from black soldier fly larvae biomass using a subcritical methanol–water mixture. Separation and Purification Technology: 133756. https://doi.org/10.1016/j.seppur.2025.133756
260Xiang, Y., Gao, S., Luo, Y., Tang, G., Zou, X., Xie, K., Niu, W., Li, X., Xiang, J., Zhang, L., Tan, Z., Zeng, X. and Wang, B.2025Fermented black soldier fly larvae as a sustainable replacement for marine fish in Asian swamp eel diets. Veterinary World: 1002-1013. https://doi.org/10.14202/vetworld.2025.1002-1013
261Xu, Y.-X., Wang, X.-Y., Gu, H.-C., Yang, J.-B., Diao, J., Zhang, Z.-S., Huang, M.-M., Fei, H. and Yang, S.2025Effects of Periplaneta americana powder instead of fishmeal on growth performance, antioxidant capacity and intestinal microbiota in Southern catfish (Silurus meridionalis). Aquaculture Reports 43: 102895. https://doi.org/10.1016/j.aqrep.2025.102895
262Yandi, I., Sengül, S., Yazir, D. and Yesilyurt, Muhammet K.2025Comparative analysis of growth models for rainbow trout fed varying levels of fish meal replacement by black soldier fly meal. Journal of Insects as Food and Feed: 1-19. https://doi.org/10.1163/23524588-bja10194
263Yang, C., Zhao, Z., Sun, C., Gao, B., Wu, Y., Li, M., Chen, L., Ju, Y., Rehman, K.u., Yu, C., Li, Q., van Huis, A., Jimenez, N., Zheng, L., Huang, F., Ren, Z., Yu, Z., Huang, Y., Zhang, J. and Cai, M.2025Synergistic Mechanism of Tetracycline Degradation by Poor-Degrading Microbe Serratia Marcescens Bsfl-6 Cooperated with Insect During Environmental Decomposition Cycle. http://dx.doi.org/10.2139/ssrn.5236857
264Yang, X.-Z., Fang, B.-Q., Wang, X., Zhao, M. and Wang, C.-Y.2025Characterisation and phylogenetic analysis of the complete mitogenome of the edible wasp Vespula orbata from Gaoligong Mountain in China. Journal of Insects as Food and Feed: 1-16. https://doi.org/10.1163/23524588-bja10232
265Yao, H.-T., Huang, Z.-L., Li, Y.-T., Herman, R.A., Zhan, Y.-F., Khurshid, M., Xu, Y., Wu, F.-A. and Wang, J.2025Silkworm pupae protein-based odorless food ingredient: Rutin-facilitated modification for off-odor volatile removal.International Journal of Biological Macromolecules 312: 143996. https://doi.org/10.1016/j.ijbiomac.2025.143996
266Yudistira, D.H.2025Effects of Food Waste Derived Black Soldier Fly Hermetia illucens (Diptera: Stratiomydae) Frass on Arthropod Abundance and Local Varieties Plant Performance. Thesis United Graduate School of Agriculture Sciences Graduate School of Iwate University Science of Bioproduction (Constituent Faculty of Agriculture Yamagata University).
267Zaalberg, R.M., Andersen, L.B., Hansen, L.S., Gebreyesus, G., Henryon, M., Jensen, K. and Nielsen, H.M.2025Short communication: Substantial heritability of larval size in the black soldier fly reveals potential for selective breeding. Animal 19: 101534. https://doi.org/10.1016/j.animal.2025.101534
268Zacarias, M.P., Perl, C.D., Rodriguez-Guevara, R. and Barrett, M.2025Fillers at the end of processing improve instantaneous death via grinding for farmed yellow mealworm larvae (Tenebrio molitor; Coleoptera: Tenebrionidae). Journal of Insects as Food and Feed: 1-14. https://doi.org/10.1163/23524588-00001419
269Zhang, J., Wang, X., Li, M., Xu, C., Pi, Y. and Shao, J.-H.2025On the mechanism of small molecule peptides purified from Antheraea pernyi pupae in preventing cellular oxidative damage. Journal of Insects as Food and Feed: 1-16. https://doi.org/10.1163/23524588-00001350
270Zhang, Y., Henawy, A.R., Rehman, K.u., van Huis, A., Cai, M., Zheng, L., Huang, F., Ding, X., Lei, H. and Zhang, J.2025Artificial light source combined with functional microorganism improves reproductive performance of black soldier fly. Insect Science n/a. https://doi.org/10.1111/1744-7917.70064
271Zhao, Z., Gao, B., Henawy, A.R., Rehman, K.u., Ren, Z., Jiménez, N., Zheng, L., Huang, F., Yu, Z., Yu, C., Zhang, J. and Cai, M.2025Mitigating the transfer risk of antibiotic resistance genes from fertilized soil to cherry radish during the application of insect fertilizer. Environment International: 109510. https://doi.org/10.1016/j.envint.2025.109510
272Zheng, C., Cheng, Z., Chen, Z.-L., Man, Y.B., Liu, Q., Zhao, L.-L., Yang, S. and Wong, M.H.2025Fate and health implications of polycyclic aromatic hydrocarbons in a sustainable food waste recycling system using housefly maggots and Nile tilapia. Aquaculture: 742675. https://doi.org/10.1016/j.aquaculture.2025.742675
273Zheng, S., Li, R., Huang, Y., Yang, M., Chen, W., Mo, S., Qi, R., Wang, W., Wan, D., Yin, Y. and Peng, J.2025Gut microbiome of black soldier fly larvae for efficient use and purification of organic waste: An environmentally friendly development concept. The Innovation Life: 100134. https://doi.org/10.59717/j.xinn-life.2025.100134
274Zhou, L., Chen, K., Song, K., Lu, K., Li, X., Wang, L. and Zhang, C.2025Black soldier fly (Hermetia illucens Linnaeus) larvae meal – a promising protein source in bullfrog (Aquarana catesbeiana) feed. Aquaculture: 742687. https://doi.org/10.1016/j.aquaculture.2025.742687

Publications from February-April 2025

NoAuthor(s)YearTitleJournalDoi
1Abd El-Gawad, E.A., Zahran, E., Youssuf, H., Shehab, A. and Matter, A.F.2025Defatted black soldier fly (Hermetia illucens) diets improved hemato-immunological responses, biochemical parameters, and antioxidant activities in Streptococcus iniae-infected Nile tilapia (Oreochromis niloticus). BMC Veterinary Research 21: 104. ‎https://doi.org/10.1186/s12917-025-04484-7
2Abdolahpur Monikh, F., Holm, S., Kortet, R., Bandekar, M., Kekäläinen, J., Koistinen, A., Leskinen, J.T.T., Akkanen, J., Huuskonen, H., Valtonen, A., Dupuis, L., Peijnenburg, W., Lynch, I., Valsami-Jones, E. and Kukkonen, J.V.K., 2022Quantifying the trophic transfer of sub-micron plastics in an assembled food chain. Nano Today 46: 101611. https://doi.org/10.1016/j.nantod.2022.101611
3Abduh, M.Y., Safira, H., Pramestiandini, G.R., Syahada, M.A., Salsabila, B.A., Lambangsari, K., Puad, N.I.M. and Kenez, A.2025Synthesis and fractionation of Protein Hydrolysate from Hermetia illucens L. pre-treated with Lactobacillus spp. Research square. https://doi.org/10.21203/rs.3.rs-6142604/v1
4Abro, Z., Sibhatu, K.T., Fetene, G.M., Alemu, M.H., Tanga, C.M., Sevgan, S. and Kassie, M.,2025Global review of consumer preferences and willingness to pay for edible insects and derived products. Global Food Security 44: 100834. https://doi.org/10.1016/j.gfs.2025.100834
5Adekanmi, A.A., O.Garuba, E., Adegboye, M.A., Oluwadare, A., Lawal, K.A. and Taoreed, A.M.,2025Biological Degradation Of Synthesised Polyethlene Plastic By Microorganisms And Invertebrates. International Journal of Academic and Applied Research (IJAAR) 9: 118-127
6Adeparusi, E.O. and Ayo, G.O.2025Effect of Black Soldier Fly (Hermetia illucens L.) Larvae Meal with Citrus Peels on Growth Performance and Nutrient Utilization of African Catfish. Asian Journal of Fisheries and Aquatic Research 27: 27-37. https://doi.org/10.9734/ajfar/2025/v27i4904
7Afam-Ibezim, E.M., Akinmutimi, A.H., Ugwuene, M.C., Onunkwo, D.N. and Onabanjo, R.S.,2025Effect of full-fat black soldier fly larvae (Hermetia illucens) meal in the diet of broiler chickens. Direct Research Journal of Agriculture and Food Science 13: 98-102.
8Afam-Ibezim, E.M., Akinmutimi, A.H., Ugwuene, M.C., Onunkwo, D.N., Oke, U.K. and Onabanjo, R.S.,2025Evaluation of full-fat and defatted black soldier fly larvae (hermetia illucens) meal as an alternative source of functional feed ingredients. Direct Research Journal of Agriculture and Food Science 13: 90-97.
9Ajax, R. and Gimah, M.,2025Edible Wild Field Cricket Trading.
10Ajax, R. and Gimah, M.,2025Impact of Seasonal Variation on nutritional Composition of Brachytrupes portentosus.
11Ajax, R. and Gimah, M.,2025The Influence of Mating and Reproductive State on Nutritional Composition of Crickets.
12Ajax, R. and Gimah, M.,2025The Role of Diet in Nutritional Differences Between Male andFemaleCricket.
13Akanda, M.A.B.R., Hashem, S., Roy, P., Haque, M.M. and Salam, M.A.2025Black soldier fly farming in Bangladesh: current practices, farmer’s challenges and future opportunities. Journal of Insects as Food and Feed: 1-15. ‎https://doi.org/10.1163/23524588-00001450
14Akande, O., Falayi, A., Oguntuga, T., Taiwo, E., Adegoke, T. and Ajewole, D.,2025Sustainable insect proteins vs. conventional proteins as fillings in gluten-free oat-based breakfast wraps: nutritional, microbial, and sensory quality. Exploration of Foods and Foodomics 3: 101078. https://doi.org/10.37349/eff.2025.101078
15Akle, M.A., Segnon, C.B., Gansa, H.A.C. and Agadjihoued, H.,2025Effect of Substitution of Fish Meal by Cricket Meal (Acheta domesticus) on the Growth of Fry of Oreochromis niloticus (Linnaeus, 1758). Asian Journal of Fisheries and Aquatic Research 27: 21-28. https://doi.org/10.9734/ajfar/2025/v27i2877
16Akter, R., Islam, M.M., Islam, M.W., Akter, T., Paul, T., Rahman, M.M., Uddin, M.T., Rahman, S., Alodhayb, A.N. and Georghiou, P.E.2025Extraction procedure and theoretical studies of chitin from black soldier fly. Journal of Polymer Research 32: 48. ‎https://doi.org/10.1007/s10965-025-04276-5
17Akullo, J.O., Kiage-Mokua, B.N., Nakimbugwe, D., Kwetegyeka, J., Ng’ang’a, J. and Kinyuru, J.2025Fatty acid composition and lipid stability of cricket (Gryllus bimaculatus) flour preserved using ginger and garlic extracts. Future Foods: 100570. ‎https://doi.org/10.1016/j.fufo.2025.100570
18Alamba, S., Malomo, G. and Shima, J.2025Production of Maggots using Different Manure Substrates for Fish Feed Supplements. Advancements in Fisheries and Veterinary Sciences.
19Albarki, H.R., Suntara, C., Wongtangtintharn, S., Iwai, C.B., Jayanegara, A. and Cherdthong, A.2025Sustainable Animal Nutrition and Feeding Strategies for Reducing Methane Emissions and Enhancing Feed Digestibility with Encapsulated Black Soldier Fly Larvae OilSustainability. https://doi.org/10.3390/su17073155
20Albayati, A.I., Attee, R.S. and AlKhshali, M.S.2025Effect of Replacing Animal Protein Concentrate with Black Soldier Fly (Hermetia illucens) Larvae Meal in Growth Performance and Some Blood Parameters of Common Carp (Cyprinus carpio L.) IOP Conf. Series: Earth and Environmental Science 1487, 012165. https://doi.org/10.1088/1755-1315/1487/1/012165
21Albayati, A.I., Attee, R.S. and Al-Khshali, M.S.2025EFFECT OF REPLACING SOYBEAN MEAL WITH LARVAE MEAL OF BLACK SOLDIER FLY HERMETIA ILLUCENS IN GROWTH PERFORMANCE AND SOME BIOCHEMICAL BLOOD PARAMETERS OF COMMON CARP CYPRINUS CARPIO L. Iraqi Journal of Agricultural Sciences 56: 92-101.
22Alejandro Ruiz, F.E., Jácome, J.F.O., Tejera, E. and Alvarez-Suarez, J.M.,2025Edible Insects as Functional Foods: Bioactive Compounds, Health Benefits, Safety Concerns, Allergenicity, and Regulatory Considerations. Front. Nutr. 12. https://doi.org/10.3389/fnut.2025.1571084
23Alejandro Ruiz, F.E., Ortega Jácome, J.F., Tejera, E. and Alvarez-Suarez, J.M.2025Edible insects as functional foods: bioactive compounds, health benefits, safety concerns, allergenicity, and regulatory considerations. Frontiers in Nutrition 12. https://doi.org/10.3389/fnut.2025.1571084
24Alexander, P., Riok, H., Hariani, N., Nugroho, R., Arif, M., Syafrizal, S., Aryani, R. and Manurung, H.,2025Fermented black soldier fly (Hermetia illucens) carcass meal as a substrate for its larva. Nusantara Bioscience 17: 49-56. https://doi.org/10.13057/nusbiosci/n170106
25Alhidayat, R., Nuraini, Rias, M.I. and Akbar, M.2025Effect of culture media composition on chitin content, nitrogen retention, crude fat digestibility, and growth of mealworms (Tenebrio molitor). Applied Animal Science Journal. March 8: 100-109. https://doi.org/10.25047/jipt.v8i2.5400
26Alifian, M.D., Jayanegara, A., Nahrowi, Sumiati, Harahap, R.P., Hasanah, Q.N. and Sholikin, M.M.2025Enriching Substrate with Fatty Acids and Vitamin D: Effect on Growth and Nutrient Transfer in Hermetia illucens Larvae. Waste and Biomass Valorization. https://doi.org/10.1007/s12649-025-03046-0
27Al-Khikani, F., Hilal, S. and Ayit, A.2025Medical Applications of Insects: A Global Perspective with Future Insights and Innovative Ideas.
28Altavilla, A.2025Ultrasound treatment of edible insects: a spectroscopic and machine learning approach. PhD Università di Bologna, Corso di Studio in Scienze e tecnologie alimentari.
29Amanipour, A., Sarkarat, R., Amirvaresi, A., Nitin, N., Shiroodi, S., Jones, C., Shahsavari, A. and Ovissipour, R.2025Biocompatibility and Mechanical Properties of Curdlan-Based Hydrogels for Cultivated Fat Production. Food and Bioproducts Processing. https://doi.org/10.1016/j.fbp.2025.04.008
30Anagonou, C.M., Loko, Y.L.E., Dassou, A.G., Toffa, J., Badoussi, E. and Dansi, A.,2025Plant material and by-product diets for the mass-rearing of house crickets (Acheta domesticus L. (Orthoptera: Gryllidae) in the Republic of Benin.International Journal of Tropical Insect Science. https://doi.org/10.1007/s42690-025-01459-x
31Andoh, T., Ishihara, K., Hano, T. and Seko, T.2025Protein and fatty acid assimilation from larvae of black soldier fly Hermetia illucens in diets for red seabream Pagrus major. Fisheries Science. https://doi.org/10.1007/s12562-025-01865-7
32Andrade, R., Martins, L.L., Mourato, M.P., Lourenço, H., Ramos, A.C., Roseiro, C., Pereira, N., Costa, G.J., Lucas, R., Alvarenga, N., Reis, J., Neves, A., Oliveira, M., Dias, I. and Abreu, M.2025Nutritional and Microbial Quality of Edible Insect Powder from Plant-Based Industrial By-Product and Fish Biowaste Diets.Foods. https://doi.org/10.3390/foods14071242
33Andriyani, R., Prayitno, S.B. and Herawati, V.E.2025Effect of Black Soldier Fly Larvae Oil as a Replacement for Fish Oil on the Growth of White Snapper (Lates calcarifer). Asian Journal of Current Research 10: 104-113. https://doi.org/10.56557/ajocr/2025/v10i29265
34Anselmo, A., Pissard, A., Vincke, D., Arnould, Q., Lecler, B., Gofflot, S., Michez, D. and Baeten, V.,2025Contribution of vibrational spectroscopy to the characterisation and detection of insect meal in compound feed. Italian Journal of Animal Science, 24: 763-771. https://doi.org/10.1080/1828051X.2025.2468337
35Anushaa, S. and Negia, P.S.2025Aqueous extracts and protein concentrate of Tenebrio molitor prolong the lifespan of Caenorhabditis elegans under environmental stress conditions. J Sci Food Agric. https://doi.org/10.1002/jsfa.14229
36Aprile, S., Baldino, N., Mileti, O., Lupi, F.R. and Gabriele, D.2025Cricket isolates as ingredients to design protein foods: Functional, structural and interfacial properties.Innovative Food Science & Emerging Technologies 102: 104013.https://doi.org/10.1016/j.ifset.2025.104013
37Arabzadeh, G., Delisle-Houde, M., Vandenberg, G.W., Deschamps, M.-H., Dorais, M., Derome, N. and Tweddell, R.J.2024Suppressive Effect of Black Soldier Fly Larvae Frass on Fusarium Wilt Disease in Tomato Plants.Insects. https://doi.org/10.3390/insects15080613
38Arce-Valdés, L.R., Mahdjoub, H., Bianco, L., Vilanova, J., Hafezi Bafti, N., Moncivais-Gómez, A.K. and Khelifa, R.2025Testing an insect-plant circular system based on black soldier fly and duckweed. Journal of Insects as Food and Feed: 1-14. ‎https://doi.org/10.1163/23524588-00001322
39Armad, R.2024EXTRACTION AND IDENTIFICATION OF ANTIMICROBIAL PEPTIDES FROM BLACK SOLDIER FLY (HERMITIA ILLUCENS) LARVAE AS A SUSTAINABLE ALTERNATIVE TO ANTIBIOTIC FEED ADDITIVES. PhD Thesis Department of Chemistry Southern Connecticut State University. New Haven, Connecticut.
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285Lourdes, M.M., Segura-Borrego, M.P., Aguilera-Velázquez, J.R., Callejón, R.M., Gutiérrez-Praena, D. and Ubeda, C.,2025Insight into the chemical and nutritional fat profile of Tenebrio molitor larvae reared on different Agri-food by-products. Food Research International: 116223. https://doi.org/10.1016/j.foodres.2025.116223
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287Lucas, B.F., da Cunha, D.T., Luce, J.-B. and Brunner, T.A.,2025Factors influencing insect burger choice in a real-life setting: a study in university restaurants in Switzerland.Future Foods: 100602. https://doi.org/10.1016/j.fufo.2025.100602
288Lucchetti, D., Rinaldi, R., Artemi, G., Salvia, R., De Stefano, F., Scieuzo, C., Falabella, P. and Sgambato, A.2025Peptide Fractions Extracted from the Hemolymph of Hermetia illucens Inhibit Growth and Motility and Enhance the Effects of Traditional Chemotherapeutics in Human Colorectal Cancer Cells.International Journal of Molecular Sciences. ‎https://doi.org/10.3390/ijms26051891
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292Madamo Malasi, F.2024Diversité et Valeur Nutritionnelle des Lépidoptères Comestibles de l’Ouest de la République Démocratique du Congo. Ph.D. Thesis, Universite de Liege (Belgium), Belgium, 235 pp.
293Magagna, G., Pederzani, S., Tilola, M., Losio, M.N. and Filipello, V.2025Set-up and validation of end-point polymerase chain reaction for the detection of edible insect DNA – Acheta domesticus and Tenebrio molitor – in food products. Ital J Food Saf. https://doi.org/10.4081/ijfs.2025.13551
294Maggitt, S., Cox, J., Dobson, K., McCann, J., Wickersham, T.A. and Drewery, M.L.,2025Intake, digestion, and rumen microbial impacts of black soldier fly larvae and frass provided as protein supplements to cattle consuming forage. Journal of animal science: skaf077. https://doi.org/10.1093/jas/skaf077
295Mahayri, T.M., Mrázek, J., Bovera, F., Piccolo, G., Murgia, G.A., Moniello, G. and Fliegerová, K.O.,2025The inclusion of insect meal from Hermetia illucens larvae in the diet of laying hens (Hy-line Brown) affects the caecal diversity of methanogenic archaea. Poultry Science: 105037. https://doi.org/10.1016/j.psj.2025.105037
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298Mahmoud, A.E. and Ravindran, V.,2025The apparent metabolisable energy and ileal amino digestibility of black soldier fly (Hermetia illucens) pre-pupae meal for broiler chickens. British Poultry Science. https://doi.org/10.1080/00071668.2025.2467938
299Majd-Marani, S., Eftekhari, A., Elias, S.G., Beffa, R., Alebrahim, M.T., Mishra, A.P. and Afrouz, M.2025A novel approach in using insect-based spinach-food waste for gene targeting to cancer tissues. Scientific Reports 15: 13905. https://doi.org/10.1038/s41598-025-98418-w
300Maltseva, T., Rudoy, D., Olshevskaya, A., Odabashyan, M. and Shevchenko, V.2025PROSPECTS FOR USING Hermetia illucens LARVAE IN THE DIET OF FARM ANIMALS: A REVIEW. J. Anim. Feed Res. 15: 108-116. https://dx.doi.org/10.51227/ojafr.2025.13
301Manas, F., Labrousse, C. and Bressac, C.2025Plastic responses in sperm expenditure to sperm competition risk in black soldier fly (Hermetia illucens, Diptera) males. Journal of Insect Physiology: 104751. ‎https://doi.org/10.1016/j.jinsphys.2025.104751
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303Mannawa Arachchige, A.M., Williams, M., Fernando, W.M.A.D.B., Karnpanit, W., Lumanlan, J. and Jayasena, V.2025The impact of solvent extraction and enzyme assisted extraction on the yield and quality of black soldier fly larvae (Hermetia illucens) oil. International Journal of Food Science and Technology: vvaf088. https://doi.org/10.1093/ijfood/vvaf088
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305Marín-Morales, M.S., Ibarra-Herrera, C.C. and Rivas-Arreola, M.J.2025Obtention and Characterization of Chitosan from Exuviae of Tenebrio molitor and Sphenarium purpurascens. ACS Omega. https://doi.org/10.1021/acsomega.5c01987
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308Maulana, M., Montesqrit, M. and Mirzah, M.2025Study on Oil Production from Black Soldier Fly (Hermetia illucens) Maggots as a Feed Additive for Broiler. TROPICAL WETLAND JOURNAL 11: 22-32. https://doi.org/10.20527/twj.v11i1.140
309Mbokane, E.M., Mbokane, L.M. and Fouche, C.H.,2022 The effect of fishmeal replacement with acid-fermented chicken silage on growth, digestive enzyme activity and histology of the intestine and liver of juvenile Mozambique tilapia (Oreochromis mossambicus).Aquaculture International 30: 2491-2512. ‎https://doi.org/10.1007/s10499-022-00916-5
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348Ntakirutimana, R., Rahiman, K.M. and Lovejan, M.,2025Baker’s Yeast-Supplemented Black Soldier Fly Larvae as a Sustainable Fishmeal Alternative in Nile Tilapia Diets: Impacts on Growth, Health and Gut Microbiota. Adv. Anim. Vet. Sci. 13: 584-595. https://dx.doi.org/10.17582/journal.aavs/2025/13.3.584.595
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401Pramono, P.B., Sihite, M., Rahayu, T.P., Sutarto, I. and Oktaviana, A.2024Fermentation of Cassava Skin Waste and Beef Cattle Manure as Growing Media on The Condition of Maggot (Hermetia illucens) Media. The 2nd International Conference on Agricultural, Nutraceutical, and Food Science (ICANFS) “Empowering the Local Agricultural Resource Management to Achieve Sustainable Development Goals 2030” October 23-24th 2024. pp. 31-37.
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404Psarianos, M., Ribeiro, L.R., Landgräber, E., Ojha, S. and Schlüter, O.2025Combined effect of pulsed electric fields and drying method on the microbial load and protein properties of house crickets (Acheta domesticus). Innovative Food Science & Emerging Technologies: 104027. https://doi.org/10.1016/j.ifset.2025.104027
405Qu, P., Yuan, J., Wu, Y., Tian, S., Wu, Z., Chen, P., Pan, M., Weng, H., Mai, K. and Zhang, W.,2025Yellow mealworm (Tenebrio molitor) meal replacing dietary fishmeal alters the intestinal microbiota, anti-oxidation and immunity of large yellow croaker (Larimichthys crocea). Fish & Shellfish Immunology: 110272. https://doi.org/10.1016/j.fsi.2025.110272
406Qu, P., Zhang, Z., Wu, Y., Tian, S., Yuan, J., Wu, Z., Chen, P., Huang, D., Pan, M., Mai, K. and Zhang, W.,2025Effects of dietary yellow mealworm Tenebrio molitor meal and selenium on the growth performance, digestive and absorptive enzyme activity, immune response, skin color, and muscle quality of large yellow croaker Larimichthys crocea. Aquaculture Reports 41: 102696. https://doi.org/10.1016/j.aqrep.2025.102696
407Quigley, J.D., Zontini, A., Schroeder, G.F., Roman-Garcia, Y., Houbiers, L. and Bach, A.,2025Nutritional value of black soldier fly larvae oil in calf milk replacers. Journal of Dairy Science 108: 2481-2488. https://doi.org/10.3168/jds.2024-25666
408Rachmawati, D., Elfitasari, T. and Yuniarti, T.2025The Effect of Replacement Fish Meal with Earthworm Meal and Maggot Meal in Feed on Protein Digestion, Growth and Survival Rate of Catfish (Pangasius hypophthalmus).Journal of Advances in Food Science & Technology 12: 20-26. https://doi.org/10.56557/jafsat/2025/v12i29161
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410Rahmawati, C.N., Rosariawari, F. and Krisnawati, A.,2025Culvitation of Maggot (Black Soldier Fly) in the Organic Waste Processing at Selopuro Landfills (TPA). Jati Emas (Jurnal Aplikasi Teknik dan Pengabdian Masyarakat) 9: 263-268. https://doi.org/10.12345/je.v9i2.276
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412Raman, S., Srinivasan, G., Shanthi, M., Saravanan, S. and Mini, M.L.2024Unravelling the role of Black Soldier Fly Frass (BSFF) in nutrient enrichment and growth promotion of groundnut (Arachis hypogaea L.). Plant Science Today 11. https://doi.org/10.14719/pst.5652
413Rampure, S.M., Velayudhannair, K. and Radhakrishnan, D.K.2025Influence of fruit and vegetable waste substrates on the nutritional profile of black soldier fly (Hermetia illucens) larvae and prepupa. International Journal of Tropical Insect Science. ‎https://doi.org/10.1007/s42690-025-01444-4
414Ranga, L., Panagiotou, M., Noci, F., Charalampidou, M., Gkatzionis, K. and Dermiki, M.2025Cross-Cultural Perspectives on Insect-Based Foods: Insights from Consumers in Greece and Ireland.Foods. ‎https://doi.org/10.3390/foods14030490
415Ravoitytė, B., Varnelytė, G., Lukša-Žebelovič, J., Tracevičius, S., Burokas, A., Baltriukienė, D. and Servienė, E.2025Microbial safety of industrially reared Hermetia illucens larvae and frass: bacterial dynamics and prevalence of antibiotic resistance genes. Journal of Insects as Food and Feed: 1-17. ‎https://doi.org/10.1163/23524588-00001398
416Rawski, M., Mazurkiewicz, J., Mikołajczak, Z., Kierończyk, B., Skrzypczak, P., Szymkowiak, P. and Józefiak, D.2025Black Soldier Fly Meal as a Gastrointestinal Tract Microbiota Remodelling Factor: A New Natural and Sustainable Source of Prebiotic Substances for Fish? Aquaculture Research 2025: 8852384. ‎https://doi.org/10.1155/are/8852384
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