Synergistic Effects of Microbial and Enzymatic Hydrolysis on the Growth Performance and Nutrient Utilization of BSF and Soybean in Macrobrachium rosenbergii: Mitigating Oxidative Stress and Enabling Metabolic Energy-Sparing

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Karnchana Karnchanamayoon
Rungkan Klahan
Doungporn Amornlerdpison
Pairote Wongputtisin
Piyanuch Niamsup
Sudaporn Tongsiri

Abstract

The present study aimed to investigate the synergy effect of the use of BSF (Hermetia illucens) and SB (soybean) in combination as a fish meal and supplementing the feeding with microbial solid-state fermentation (MSF) using a co-inoculant of Rhizopus microsporus and Lactobacillus reuteri in feeding Macrobrachium rosenbergii. Sustainable BSF is limited by a tough, crystal-like alpha-chitin lattice responsible for damage to the structure of the intestine; SB harbors antinutritional properties causing systemic inflammation. The biological optimum was T6 (50% fermented BSF/SB and bromelain), which had the highest final weight (18.80 ± 1.26 g), specific growth rate (1.18 ± 0.17%/day), and feed conversion ratio (2.24 ± 0.30). FTIR spectra and SEM confirmed that fermentation was effective in reducing the chitinous matrix, resulting in an energy-sparing effect. This was manifested by a marked decrease in the endogenous secretion of protease from 6.88 ± 0.60 to 3.89 ± 0.14 mU/min/mg protein, with metabolic energy focused on somatic growth. However, the raw diets (T3 and T4) caused mechanical chitin abrasion and chemical irritations, which led to the highest level of MDA (3.18 ± 0.37μmol/g protein). T6 had the lowest oxidative stress (1.41 ± 0.04 μmol/g protein), and full replacement (T7) promoted metabolic overload and hyperlipidemia (73.53 ± 11.16 mg/dL triglycerides). In addition, fermentation promoted the integrity of the exoskeleton by generating prebiotic chito-oligosaccharides (maximum chitin yield 24.77 ± 2.15%). The results presented here confirm the potential of the 50% synergistic replacement approach, in combination with microbial and enzymatic bioprocessing, as a validated pathway for sustainable and efficient aquaculture.

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How to Cite

Karnchanamayoon, K., Klahan, R., Amornlerdpison, D., Wongputtisin, P., Niamsup, P., & Tongsiri, S. (2026). Synergistic Effects of Microbial and Enzymatic Hydrolysis on the Growth Performance and Nutrient Utilization of BSF and Soybean in Macrobrachium rosenbergii: Mitigating Oxidative Stress and Enabling Metabolic Energy-Sparing. International Journal of Aquatic Research and Environmental Studies, 6(2), 540-559. https://injoere.com/index.php/injoere/article/view/1109

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