Auburn University, School of Fisheries, Aquaculture and Aquatic Sciences, Auburn, Alabama, United States of America.
Hubbs-SeaWorld Research Institute, San Diego, California, United States of America.
PLoS One. 2024 Jun 7;19(6):e0304679. doi: 10.1371/journal.pone.0304679. eCollection 2024.
California yellowtail (CYT), Seriola dorsalis, is a promising candidate for aquaculture due to its rapid growth and high-quality flesh, particularly in markets like Japan, Australia, China, and the United States. Soy protein has shown success as a replacement for marine protein sources in CYT diets, reducing fishmeal levels, though concerns about potential intestinal inflammation persist with the inclusion of solvent-extracted soybean meal. To address this, processing strategies like fractionation, enzymatic treatment, heat treatment, and microbial fermentation have been employed to mitigate the negative impacts of soybean meal on fish nutrition and immune systems. This study focuses on optimizing soybean meal inclusion levels by incorporating advanced soy variants into CYT diets. The eight-week feeding trial, conducted in a recirculation system, featured six diets with sequential inclusion levels (0, 50, 100%) of high protein low oligosaccharide soybean meal (Bright Day, Benson Hill, St Louis, MO) and enzyme-treated soybean meal (HP 300, Hamlet Protein Inc., Findlay, OH), replacing solvent-extracted soybean. The study compares these formulations against a soy-free animal protein-based diet. At the end of the trial, fish were sampled for growth performance, body proximate composition, intestinal morphology, and immune response from gut samples. Results showed consistent FCR (P = 0.775), weight gain (P = 0.242), and high survival rate (99.4 ± 0.5%) among dietary treatments (P>0.05). Histological evaluations revealed no gut inflammation and gene expression analysis demonstrated no significant variations in immune, physiological, and digestive markers apn (P = 0.687), mga (P = 0.397), gpx1 (P = 0.279), atpase (P = 0.590), il1β (P = 0.659). The study concludes that incorporating advanced soybean meal products, replacing up to 20% of fishmeal does not negatively affect CYT's growth and intestinal health. This suggests that all three soy sources, contributing 35% of total protein (15.4 g 100 g-1 diet), can be included in practical diets without compromising CYT's intestinal integrity or growth. These findings have positive implications for the commercial production of CYT and future research on the incorporation of plant-based proteins in aquaculture diets.
加利福尼亚黄金鲈(CYT), Seriola dorsalis,由于其生长迅速和肉质优良,特别是在日本、澳大利亚、中国和美国等市场上,是一种很有前途的水产养殖品种。大豆蛋白已被证明可以成功替代 CYT 饮食中的海洋蛋白来源,降低鱼粉水平,但由于溶剂提取豆粕的存在,人们仍然担心潜在的肠道炎症。为了解决这个问题,已经采用了分馏、酶处理、热处理和微生物发酵等加工策略来减轻豆粕对鱼类营养和免疫系统的负面影响。本研究通过在 CYT 饮食中加入先进的大豆品种来优化豆粕的添加水平。这项为期八周的循环水养殖试验共使用了六种饲料,其中包含不同水平(0、50、100%)的高蛋白低寡糖大豆(Bright Day、Benson Hill、圣路易斯,密苏里州)和酶处理大豆(HP 300,哈姆雷特蛋白公司,Findlay,俄亥俄州),替代溶剂提取豆粕。本研究将这些配方与无大豆的动物蛋白基础饲料进行了比较。试验结束时,从生长性能、体成分、肠道形态和肠道样本的免疫反应等方面对鱼进行了采样。结果表明,在不同饲料处理组中,饲料转化率(P = 0.775)、增重(P = 0.242)和高成活率(99.4±0.5%)(P>0.05)均保持一致。组织学评价显示没有肠道炎症,基因表达分析显示免疫、生理和消化标志物 apn(P = 0.687)、mga(P = 0.397)、gpx1(P = 0.279)、atpase(P = 0.590)、il1β(P = 0.659)没有显著变化。本研究得出结论,在不影响 CYT 生长和肠道健康的情况下,使用先进的大豆产品替代高达 20%的鱼粉是可行的。这表明,三种大豆来源(占总蛋白的 35%,即 15.4 g 100 g-1 饲料)可以被纳入实用饲料中,而不会损害 CYT 的肠道完整性或生长。这些发现对 CYT 的商业生产和未来水产养殖中植物蛋白的应用具有积极意义。
