References
- Adeola, O., 2001. Digestion and balance techniques in pigs. In Swine nutrition (ed. Lewis A.J., Southern, L.L.). CRC Press, Washington, DC, USA, pp. 903-916.
- Association of Official Analytical Chemists (AOAC). 2000. Official methods of analysis. Gaithersburg, MD, USA: AOAC.
- Biasato I, Renna M, Gai F, Dabbou S, Meneguzm M, Perona G, Martinez S, Lajusticia ACBL, Bergagna S, Sardi L. 2019. Partially defatted black soldier fly larva meal inclusion in piglet diets: effects on the growth performance, nutrient digestibility, blood profile, gut morphology and histological features. J Anim Sci Biotechnol. 10:1–11.
- Chatelet A, Gondret F, Merlot E, Gilbert H, Friggens NC, Le Floc’h N. 2018. Impact of hygiene of housing conditions on performance and health of two pig genetic lines divergent for residual feed intake. Animal. 12:350–358.
- Chia SY, Tanga CM, Osuga IM, Cheseto X, Ekesi S, Dicke M, Loon JJA. 2020. Nutritional composition of black soldier fly larvae feeding on agro-industrial by-products. Entomol Exp Appl. 168:472–481.
- Cho HM, Kim E, Wickramasuriya SS, Shin TK, Heo JM. 2021. Growth and gut performance of young pigs in response to different dietary cellulose concentration and rearing condition. Animal Bioscience. 34:1653–1662.
- Crosbie M, Zhu C, Karrow NA, Huber LA. 2021. The effects of partially replacing animal protein sources with full fat black soldier fly larvae meal (Hermetia illucens) in nursery diets on growth performance, gut morphology, and immune response of pigs. Translational Animal Science. 5:1–11.
- Crosbie M, Zhu C, Shoveller AK, Huber LA. 2020. Standardized ileal digestible amino acids and net energy contents in full fat and defatted black soldier fly larvae meals (Hermetia illucens) fed to growing pigs. Translational Animal Science. 4:1–10.
- DiGiacomo K, Leury B. 2019. Review: insect meal: A future source of protein feed for pigs? Animal. 13:3022–3030.
- Ewald N, Vidakovic A, Langeland M, Kiessling A, Sampels S, Lalander C. 2020. Fatty acid composition of black soldier fly larvae (Hermetia illucens) - possibilities and limitations for modification through diet. Waste Manage. 102:40–47.
- Jackman J, Boyd RD, Elrod CC. 2020. Prepartum dietary energy intake alters adipose tissue transcriptome profiles during the periparturient period in Holstein dairy cows. J Anim Sci Biotechnol. 11:1–15.
- Jayaraman B, Htoo JK, Nyachoti CM. 2015. Effects of dietary threonine:lysine ratioes and sanitary conditions on performance, plasma urea nitrogen, plasma-free threonine and lysine of weaned pigs. Animal Nutrition. 1:283–288.
- Jayaraman B, Nyachoti CM. 2017. Husbandry practices and gut health outcomes in weaned piglets: A review. Animal Nutrition. 3:205–211.
- Ji FJ, Wang LX, Yang HS, Hu A, Yin YL. 2019. Review: The roles and functions of glutamine on intestinal health and performance of weaning pigs. Animal. 13:2727–2735.
- Kar SK, Schokker D, Harms AC, Kruijt L, Smits MA, Jansman AJM. 2021. Plasma Hsp90 levels in patients with systemic sclerosis and relation to lung and skin involvement: a cross-sectional and longitudinal study. Sci Rep. 11:1–16.
- Khonyoung D, Yamauchi S. 2015. Influence of dietary fat sources and lysolecithin on growth performance, visceral organ size, and histological intestinal alteration in broiler chickens. Livest Sci. 176:111–120.
- Lallès JP, Boudry G, Favir C, Floc’h NL, Luron I, Montagne L, Oswald IP, Pié S, Piel C, Sève B. 2004. Gut function and dysfunction in young pigs: physiology. Anim Res. 53:301–316.
- Liu Y. 2015. Impact of source tissue and ex vivo expansion on the characterization of goat mesenchymal stem cells. J Anim Sci Biotechnol. 6:1–9.
- Metzler-Zebeli BU, Canibe N, Montagne L, Freire J, Bosi P, Prates JAM, Tanghe S, Trevisi P. 2019. Resistant starch reduces large intestinal pH and promotes fecal lactobacilli and bifidobacteria in pigs. Animal. 13:64–73.
- Murru E, Carta G, Manca C, Sogos V, Pistis M, Melis M, Banni S. 2021. Conjugated linoleic acid and brain metabolism: a possible anti-neuroinflammatory role mediated by PPARα activation. Front Pharmacol. 11:1–12.
- National Research Council (NRC). 2012. Nutrient requirements of swine. Washington: National Academies Press.
- Neumann C, Velten S, Liebert F. 2018. N balance studies emphasize the superior protein quality of Pig diets at high inclusion level of algae meal (Spirulina platensis) or insect meal (Hermetia illucens) when adequate amino acid supplementation Is ensured. Animals (Basel). 8:172–114.
- Pastorelli H, Le Floc’h N, Merlot E, Meunier-Salaün MC, van Milgen J, Montagne L. 2012. Sanitary housing conditions modify the performance and behavioural response of weaned pigs to feed- and housing-related stressors. Animal. 6:1811–1820.
- Ravi HK, Guidou C, Costil J, Trespeuch C, Chemat F, Vian MA. 2021. Novel insights on the sustainable wet mode fractionation of black soldier fly larvae (Hermetia illucens) into lipids, proteins and chitin. Processes. 9:1–20.
- Rebucci R, Comi M, Ghiringhelli M, Giorgi S, Cheli F, Bontempo V. 2021. Lauric acid saponified with calcium ameliorates indices of intestinal function and gut health in weaned piglets. Ital J Anim Sci. 20:1479–1490.
- Selenius O, Korpela J, Salminen S, Gallego GC. 2018. Effect of chitin and chitooligosaccharide on in vitro growth of Lactobacillus rhamnosus GC and escherichia coli TG. Appl Food Biotech. 5:163–172.
- Sepponen K, Ruusunen M, Pakkanen JA, Pösö AR. 2007. Expression of CD147 and monocarboxylate transporters MCT1, MCT2, MCT4 in porcine small intestine and colon. The Veterinary Journal. 174:122–128.
- Shumo M, Osuga IM, Khamis FM, Tanga CM, Fiaboe KKM, Subramanian S, Ekesi S, van Huis A, Borgemeister C. 2019. The nutritive value of black soldier fly larvae reared on common organic waste streams in Kenya. Sci Rep. 9:1–13.
- Sierżant K, Perruchot MH, Merlot E, Floc’h NL, Gondret F. 2019. Tissue-specific responses of antioxidant pathways to poor hygiene conditions in growing pigs divergently selected for feed efficiency. BMC Vet Res. 15:1–13.
- Spranghers T, Michiels J, Vrancx J, Ovyn A, Eeckhout M, de Clercq P, de Smet S. 2018. Gut microbial effects and nutritional value of black soldier fly (Hermetia illucens L.) prepupae for weaned piglets. Animal. 235:33–42.
- Wan J, Jiang F, Xu Q, Chen D, Yu B, Huang Z, Mao X, Yu J, He J. 2017. New insights into the role of chitosan oligosaccharide in enhancing growth performance, antioxidative capacity, immunity and intestinal development of weaned pigs. RCS Advances. 7:1–11.
- Xia J, Ge C, Yao H. 2021. Antimicrobial peptides from black soldier fly (Hermetia illucens) as potential antimicrobial factors representing an alternative to antibiotics in livestock farming. Animals (Basel). 11:1–16.
- Yoon BK, Jackman JA, Valle-González E, Cho NJ. 2018. Antibacterial free fatty acids and monoglycerides: biological activities, experimental testing, and therapeutic applications. Int J Molec Sci. 19:1–40.
- Yu M, Li Z, Chen W, Rong T, Wang G, Ma X. 2019. Piglet gut microbial shifts early in life: causes and effects. J Anim Sci Biotechnol. 10:1–16.
- Yu M, Li Z, Chen W, Wang G, Rong T, Liu Z, Wang F, Ma X. 2020. Hermetia illucens larvae as a fishmeal replacement alters intestinal specific bacterial populations and immune homeostasis in weanling piglets. J Anim Sci. 98:1–13.