Fermented black soldier fly larvae as a sustainable replacement for marine fish in Asian swamp eel diets.

IF 2 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Veterinary World Pub Date : 2025-04-01 Epub Date: 2025-04-25 DOI:10.14202/vetworld.2025.1002-1013

Yifan Xiang, Shaoqi Gao, Yanhui Luo, Gaojian Tang, Xiuwei Zou, Kai Xie, Wenjie Niu, Xinyi Li, Junan Xiang, Ling Zhang, Zhu Tan, Xiaoyu Zeng, Bo Wang

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引用次数: 0

Abstract

Background and aim: Fermented black soldier fly larvae (BSFL) have emerged as a sustainable and economically viable protein source in aquaculture. However, their potential as a replacement for marine fish in the diets of Asian swamp eels (Monopterus albus, ASEs) remains underexplored. This study assessed the effects of partially substituting marine fish with fermented BSFL on ASE growth performance, intestinal development, and hepatic health.

Materials and methods: A total of 480 ASEs were randomly assigned to four dietary groups: control (40% marine fish), BSFL34 (13.4% BSFL), BSFL61 (24.1% BSFL), and BSFL82 (32.8% BSFL), replacing marine fish on a dry matter basis. All diets were isonitrogenous and isoenergetic. Fish were reared in net cages for over 90 days, and parameters including survival rate, growth metrics, muscle and liver histology, intestinal morphology, gene expression (quantitative real-time polymerase chain reaction), and inflammatory protein levels (Western blotting) were assessed.

Results: Survival rate was significantly higher in the BSFL61 group (p < 0.05). Growth performance was not impaired across BSFL-fed groups, although BSFL61 showed reduced body weight compared to BSFL82 (p < 0.05). Muscle fiber size, satellite cell number, and muscle triglyceride (TG) content remained unchanged. BSFL82 showed increased hepatic TG accumulation (p < 0.05) and reduced liver fibrosis, while BSFL61 exhibited a significantly lower hepatosomatic index and increased fibrosis. Intestinal villus height was reduced in BSFL34 and BSFL61, while goblet cell density increased in all BSFL groups. Notch1 expression was upregulated in BSFL61 and BSFL82, whereas ctnnb1 and wnt5a were downregulated. Inflammatory markers nuclear factor-kappa B and interleukin-1 beta were elevated in BSFL-fed groups, indicating an activated mucosal immune response.

Conclusion: Partial replacement of marine fish with fermented BSFL enhanced ASE survival, modulated intestinal immunity, and improved mucosal barrier function, without compromising overall growth performance. However, excessive inclusion may induce hepatic lipid accumulation and affect intestinal morphology. These findings support the use of fermented BSFL as a sustainable aquafeed ingredient, though inclusion levels should be carefully optimized to balance health benefits and growth efficiency.

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发酵黑兵蝇幼虫在亚洲沼泽鳗饲料中可持续替代海鱼。

背景与目的：发酵黑虻幼虫（BSFL）已成为一种可持续的、经济可行的水产养殖蛋白质来源。然而，它们作为亚洲沼泽鳗（Monopterus albus, as）饮食中海鱼替代品的潜力仍未得到充分探索。本研究评估了发酵BSFL部分替代海鱼对ASE生长性能、肠道发育和肝脏健康的影响。材料和方法：将480只asa随机分为4个饲粮组：对照（40%海鱼）、BSFL34 （13.4% BSFL34）、BSFL61 (24.1% BSFL82) (32.8% BSFL82)，以干物质替代海鱼。所有日粮均为等氮、等能。在网箱中饲养90天以上的鱼，评估其存活率、生长指标、肌肉和肝脏组织学、肠道形态学、基因表达（实时定量聚合酶链反应）和炎症蛋白水平（Western blotting）等参数。结果：BSFL61组患者生存率显著高于对照组（p < 0.05）。BSFL61与BSFL82相比体重降低，但饲喂BSFL61组的生长性能未受影响（p < 0.05）。肌纤维大小、卫星细胞数和肌肉甘油三酯（TG）含量保持不变。BSFL82增加肝脏TG积累（p < 0.05），减少肝纤维化，而BSFL61显著降低肝体指数，增加肝纤维化。BSFL34和BSFL61组肠绒毛高度降低，杯状细胞密度增加。Notch1在BSFL61和BSFL82中表达上调，而ctnnb1和wnt5a表达下调。炎症标志物核因子- κ B和白细胞介素-1 β在bsfl喂养组升高，表明激活的粘膜免疫反应。结论：发酵BSFL部分替代海鱼可提高ASE存活率，调节肠道免疫，改善粘膜屏障功能，但不影响整体生长性能。然而，过量的包涵可诱导肝脏脂质积累，影响肠道形态。这些研究结果支持将发酵BSFL作为一种可持续的水产饲料成分，但应仔细优化添加水平，以平衡健康效益和生长效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Veterinary World Multiple-

CiteScore

3.60

自引率

12.50%

发文量

317

审稿时长

16 weeks

期刊介绍： Veterinary World publishes high quality papers focusing on Veterinary and Animal Science. The fields of study are bacteriology, parasitology, pathology, virology, immunology, mycology, public health, biotechnology, meat science, fish diseases, nutrition, gynecology, genetics, wildlife, laboratory animals, animal models of human infections, prion diseases and epidemiology. Studies on zoonotic and emerging infections are highly appreciated. Review articles are highly appreciated. All articles published by Veterinary World are made freely and permanently accessible online. All articles to Veterinary World are posted online immediately as they are ready for publication.