Abado-Becognee K, Fleurat-Lessard F, Creppy EE, Melcion D, 1998. Effects of fumonisin B1 on growth and metabolism of larvae of the yellow mealworm, Tenebrio molitor. Entomologia Experimentalis et Applicata 86: 135–143.
Anderson SJ, 2000. Increasing calcium levels in cultured insects. Zoo Biology 19: 1–9.
Baker JE, Lum PT, 1973. Development of aposymbiosis in larvae of Sitophilus oryzae (Coleoptera: Curculionidae) by dietary treatment with antibiotics. Journal of Stored Products Research 9 (4): 241–245.
Belghit I, Wagbo R, Lock EJ, Liland NS, 2018. Insect-based diets high in lauric acid reduce liver lipids in freshwater Atlantic salmon. Aquaculture Nutrition 25 (2): 343–357.
Bovera F, Piccolo G, Gasco L, Marono S, Loponte R, et al., 2015. Yellow mealworm larvae (Tenebrio molitor, L.) as possible alternative to soybean meal in broiler diets. British Poultry Science 56 (5): 569–575.
Buffie CG, Pamer EG, 2013. Microbiota-mediated colonization resistance against intestinal pathogens. Nature Reviews Immunology 13: 790–801.
Buyukguzel K, Yazgan S, 2002. Effects of antimicrobial agents on the survival and development of larvae of Pimpla turionellae L. (Hymenoptera: Ichneumonidae) reared on an artificial diet. Turkish Journal of Zoology 26: 111–119.
Buyukguzel E, Kalender Y, 2008. Galleria mellonella (L.) survivorship, development and protein content in response to dietary antibiotics. Journal of Entomological Science 43 (1): 27–40.
Buyukguzel E, Buyukguzel K, 2016. Effects of antiviral agent, acyclovir, on the biological fitness of Galleria mellonella (Lepidoptera: Pyralidae) adults. Journal of Economic Entomology 109: 2090–2095.
Chaucheyras-Durand F, Durand H, 2009. Probiotics in animal nutrition and health. Beneficial Microbes 1: 3–9.
Chernysh S, Gordya N, Suborova T, 2015. Insect antimicrobial peptide complexes prevent resistance development in bacteria. PLoS One 10 (7): e0130788.
Cohen AC, 2003. Insect Diets: Science & Technology. CRC Press, London, UK. 324 pp.
Davis GRF, Sosulski FW, 1974. Nutritional quality of oilseed protein isolates as determined with larvae of the yellow mealworm, Tenebrio molitor L. The Journal of Nutrition 104: 1172–1177.
Derler H, Lienhard A, Berner S, Grasser M, Posch A, et al., 2021. Use them for what they are good at: Mealworms in circular food systems. Insects 12: 40.
Deshpande G, Rao S, Patole S, Bulsara M, 2010. Updated meta-analysis of probiotics for preventing necrotizing enterocolitis in preterm neonates. Pediatrics 125: 921–930.
Dickel F, Freitak D, Mappes J, 2016. Long-term prophylactic antibiotic treatment: effects on survival, immunocompetence and reproduction success of Parasemia plantaginis (Lepidoptera: Erebidae). Journal of Insect Science 16 (1): 46.
Dimou I, Rempoulakis P, Economopoulos AP, 2010. Olive fruit fly [Bactrocera (Dacus) oleae (Rossi) (Diptera: Tephritidae)] adult rearing diet without antibiotic. Journal of Applied Entomology 134: 72–79.
Elahi U, Wang J, Ma YB, Wu SG, Wu J, et al., 2020. Evaluation of yellow mealworm meal as a protein feedstuff in the diet of broiler chicks. Animals 10 (2): 224.
Finke M, 2002. Complete nutrient composition of commercially raised invertebrates used as food for insectivores. Zoo Biology 21: 269–285.
Food and Agriculture Organisation of the United Nations/World Health Organisation (FAO/WHO), 2006. Probiotics in food: health and nutritional properties and guidelines for evaluation. Food and Agriculture Organization Food and Nutrition. Rome, Italy. p. 85.
Gomez E, Martín F, Nogacka AM, Salazar N, Alaez L, et al., 2019. Impact of probiotics on development and behaviour in Drosophila melanogaster–a potential in vivo model to assess probiotics. Beneficial Microbes 10 (2): 179–188.
Ghosh S, Lee SM, Jung C, Meyer-Rochow VB, 2017. Nutritional composition of five commercial edible insects in South Korea. Journal of Asia-Pacific Entomology 20 (2): 686–694.
Huis AV, Tomberlin JK, 2016. Insects as Food and Feed: From Production to Consumption. Wageningen Academic Publishers. 448 pp.
Inglis GD, Cohen AC, 2004. Influence of antimicrobial agents on the spoilage of a meat-based entomophage diet. Journal of Economic Entomology 97: 235–250.
Jawad SM, Alshukri BM, Altaee RA, Al-Bdery AS, 2021. Microcin as an insecticidal antibiotic against Trogoderma granarium Everts (Coleoptera: Dermestidae). Annals of the Romanian Society for Cell Biology 27: 4440–4449.
Jozefiak D, Jozefiak A, Kieronczyk B, Rawski M, Swiatkiewicz S, et al., 2016. Insects–a natural nutrient source for poultry–a review. Annals of Animal Science 16 (2): 297–313.
Jung J, Heo A, Park YW, Kim YJ, Koh H, et al., 2014. Gut microbiota of Tenebrio molitor and their response to environmental change. Journal of Microbiology and Biotechnology 24 (7): 888–897.
Kareem KY, Abdulla NR, Foo HL, Zamri AN, Shazali N, et al., 2018. Effect of feeding larvae meal in the diets on growth performance, nutrient digestibility and meat quality in broiler chicken. Indian Journal of Animal Sciences 88 (10): 1180–1185.
Kastamonuluoglu S, Buyukguzel K, Buyukguzel E, 2020. The use of dietary antifungal agent terbinafine in artificial diet and its effects on some biological and biochemical parameters of the model organism Galleria mellonella (Lepidoptera: Pyralidae). Journal of Economic Entomology 113 (3): 1110–1117.
Kavallieratos NG, Michail EJ, Boukouvala MC, Nika EP, Skourti A, 2019. Efficacy of pirimiphos-methyl, deltamethrin, spinosad and silicoSec against adults and larvae of Tenebrio molitor L. on wheat, barley and maize. Journal of Stored Products Research 83: 161–167.
Khan M, Seheli K, Bari MA, Sultana N, Khan SA, et al., 2019. Potential of a fly gut microbiota incorporated gel-based larval diet for rearing Bactrocera dorsalis (Hendel). BMC biotechnology 19 (2): 1–10.
Lalev M, Mincheva N, Oblakova M, Hristakieva P, Ivanova I, et al., 2020. Effects of insect-and probiotic-based diets on turkeys’ production, health, and immune parameters. Bulgarian Journal of Agricultural Science 26 (6): 1254–1265.
Lecocq A, Natsopoulou ME, Berggreen IE, Eilenberg J, Heckmann LH, et al., 2021. Probiotic properties of an indigenous Pediococcus pentosaceus strain on Tenebrio molitor larval growth and survival. Journal of Insects as Food and Feed 7 (6): 975–986.
Lehman RM, Lundgren JG, Petzke LM, 2009. Bacterial communities associated with the digestive tract of the predatory ground beetle, Poecilus chalcites, and their modification by laboratory rearing and antibiotic treatment. Microbial Ecology 57: 349–358.
Lin J, 2011. Effect of antibiotic growth promoters on intestinal microbiota in food animals: a novel model for studying the relationship between gut microbiota and human obesity? Frontiers in Microbiology 2: 53.
Liu C, Masri J, Perez V, Maya C, Zhao J, 2020. Growth performance and nutrient composition of mealworms (Tenebrio molitor) fed on fresh plant materials-supplemented diets. Foods, 9 (2): 151.
Miglietta PP, De Leo F, Ruberti M, Massari S, 2015. Mealworms for food: A water footprint perspective. Water 7: 6190–6203.
Morales-Ramos JA, Rojas MG, Shelby KS, Coudron TA, 2016. Nutritional value of pupae versus larvae of Tenebrio molitor (Coleoptera: Tenebrionidae) as food for rearing Podisus maculiventris (Heteroptera: Pentatomidae). Journal of Economic Entomology 109: 564–571.
Moruzzo R, Riccioli F, Espinosa Diaz S, Secci C, Poli G, et al., 2021. Mealworm (Tenebrio molitor): Potential and challenges to promote circular economy. Animals 11 (9): 2568.
Nash WJ, Chapman T, 2014. Effect of dietary components on larval life history characteristics in the Medfly (Ceratitis capitata: Diptera, Tephritidae). PLoS One 9 (1): e86029.
Oelschlaeger TA, 2010. Mechanisms of probiotic actions – A review. International Journal of Medical Microbiology 300, 57–62.
Oonincx DGAB, de Boer IJM, 2012. Environmental impact of the production of mealworms as a protein source for humans—a life cycle assessment. PLoS One 7: e51145.
Pandiyan P, Balaraman D, Thirunavukkarasu R, George EG, Subaramaniyan K, et al., 2013. Probiotics in aquaculture. Drug Invention Today 5: 55–59.
Park JB, Choi WH, Kim SH, Jin HJ, Han YS, et al., 2014. Developmental characteristics of Tenebrio molitor larvae (Coleoptera: Tenebrionidae) in different instars. International Journal of Industrial Entomology 28 (1): 5–9.
Ptaszyńska AA, Borsuk G, Zdybicka-Barabas A, Cytryńska M, Małek W, 2016. Are commercial probiotics and prebiotics effective in the treatment and prevention of honeybee nosemosis C?. Parasitology Research 115 (1): 397–406.
Radulovic S, Pavlovic M, Sefer D, Katoch S, Hadzi-Milic M, et al., 2018. Effects of housefly larvae (Musca domestica) dehydrated meal on production performances and sensory properties of broiler meat. The Thai Journal of Veterinary Medicine 48 (1): 63–70.
Rees D, 2004. Insects of Stored Products. Manson Publishing, London, UK. 181 pp.
Rumbos CI, Karapanagiotidis IT, Mente E, Psofakis P, Athanassiou CG, 2020. Evaluation of various commodities for the development of the yellow mealworm, Tenebrio molitor. Scientific Reports 10 (1): 1–10.
Sacchetti P, Ghiardi B, Granchietti A, Stefanini FM, Belcari A, 2014. Development of probiotic diets for the olive fly: evaluation of their effects on fly longevity and fecundity. Annals of Applied Biology 164 (1): 138–150.
Silva TR, Almeida AC, Moura TD, Silva AR, Freitas SD, et al., 2016. Effect of the flavonoid rutin on the biology of Spodoptera frugiperda (Lepidoptera: Noctuidae). Acta Scientiarum. Agronomy 38: 165–70.
Siemianowska E, Kosewska A, Aljewicz M, Skibniewska KA, Polak-Juszczak L, et al., 2013. Larvae of mealworm (Tenebrio molitor L.) as European novel food. Agricultural Sciences 4 (6): 287–291.
Sorensen JG, Addison MF, Terblanche JS, 2012. Mass-rearing of insects for pest management: challenges, synergies and advances from evolutionary physiology. Crop Protection 38: 87–94.
Son Y, Luckhart S, Zhang X, Lieber MJ, Lewis EE, 2008. Effects and implications of antibiotic treatment on Wolbachia-infected vine weevil (Coleoptera: Curculionidae). Agricultural and Forest Entomology 10 (2): 147–155.
Stevens L, Wade MJ, 1988. Effect of antibiotics on the productivity of genetic strains of Tribolium confusum and Tribolium castaneum (Coleoptera: Tenebrionidae). Environmental entomology 17 (1): 115–119.
Sun T, Long RJ, Liu ZY, Ding WR, Zhang Y, 2012. Aspects of lipid oxidation of meat from free-range broilers consuming a diet containing grasshoppers on alpine steppe of the Tibetan Plateau. Poultry Science 91 (1): 224–231.
Thakur A, Dhammi P, Saini HS, Kaur S, 2016. Effect of antibiotic on survival and development of Spodoptera litura (Lepidoptera: Noctuidae) and its gut microbial diversity. Bulletin of Entomological Research 106 (3): 387–394.
Ullah R, Khan S, Hafeez A, Sultan A, Khan NA, et al., 2017. Silkworm (Bombyx mori) meal as alternate protein ingredient in broiler finisher ration. Pakistan Journal of Zoology 49 (4): 1463–1470.
Van Der Hoeven R, Betrabet G, Forst S, 2008. Characterization of the gut bacterial community in Manduca sexta and effect of antibiotics on bacterial diversity and nematode reproduction. FEMS Microbiology Letters 286: 249–256.
Van Huis A, Van Itterbeeck J, Klunder H, Mertens E, Halloran A, et al., 2013. Edible insects: future prospects for food and feed security. Food and Agriculture Organization Foresty. Rome, Italy. p. 171.
Varankovich NV, Nickerson MT, Korber DR, 2015. Probiotic-based strategies for therapeutic and prophylactic use against multiple gastrointestinal diseases. Frontiers in Microbiology 6: 685.
Wang HC, Liao HY, Chen HL, 2012. Tenebrio small-scale ecological farming feasibility study. Advanced Materials Research 356: 267–270.
Zha C, Cohen, A, 2014. Effects of anti-fungal compounds on feeding behavior and nutritional ecology of tobacco budworm and painted lady butterfly larvae. Entomology Ornithology and Herpetology 3: 120.
Zhao X, Vazquez-Gutierrez JL, Johansson DP, Landberg R, Langton M, 2016. Yellow mealworm protein for food purposes-extraction and functional properties. PLoS One 11 (2): e0147791.