Stocking density affects immune and stress-related gene expression of Butter catfish (Ompok bimaculatus) fry in biofloc landscapes

Snigdha S. Majhi , Soibam Khogen Singh , Pradyut Biswas, Reshmi Debbarma, Janmejay Parhi, Ananya Khatei, Yumnam Abungcha Mangang, Gusheinzed Waikhom, Arun Bhai Patel
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Abstract

Scientific research into fish wellness is critical, and the concerns about crowding-related stress due to increased stocking density are inevitable. Taking this into consideration, the study defines the physiological signature of Ompok bimaculatus (Butter catfish) in a biofloc system when subjected to varying levels of stocking density. Fish (mean weight = 1.21 g ± 0.08, n = 600) were randomly stocked in 40-L glass aquaria at stocking densities of 0.5 g/L (T1), 1 g/L (T2), 1.5 g/L (T3), and 2 g/L (T4) and fed a 35% protein diet. After the 90-day trial, the physio-biochemical, molecular, and tissue-level changes were assessed. An integrated biomarker response (IBR) analysis for the key stress indicators aided us in better understanding them. There was a significant difference in blood count between T1 and T4 (total erythrocyte count, hemoglobin, and packed cell volume). T1 had higher levels of globulin and total plasma protein, but T2 had higher levels of albumin. Only in T1 did the respiratory burst and lysozyme activity appear to be higher (p < 0.05). Increased stocking densities had a significant impact on the liver function enzymes, GOT and GPT (p < 0.05). In comparison to lower densities (T1 & T2), higher stocking density (T3 & T4) was found to raise glucose and cortisol levels (p < 0.05). Antioxidant enzymes such as catalase, glutathione-S-transferase, and malondialdehyde were found to be more pronounced in lower density tissues (T1). Furthermore, the IBR plots show that lower densities have better health than higher densities. At higher stocking densities, mRNA expression of HSP70, IL-1, and IL-20 increased (p < 0.05) in kidney and liver tissues. The Nrf-2 and Tlr-9 genes were also upregulated. Also, when stocking density was increased, tissue-level histo-architectural changes were more pronounced than when stocking density was kept low. The findings of this study show that the welfare of Butter catfish cultured at high density in biofloc systems suffers from severe stress, and therefore draw more attention to the development of a species-specific standard rearing methodology in the pursuit of a profitable aqua-farming enterprise.

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放养密度影响生物群落景观中黄油鲶鱼(Ompok bimaculatus)鱼苗免疫和应激相关基因表达
对鱼类健康的科学研究至关重要,由于放养密度的增加,人们不可避免地会担心与拥挤相关的压力。考虑到这一点,该研究定义了当受到不同放养密度水平的影响时,双斑斑斑颡鱼(黄油鲶鱼)在生物定位系统中的生理特征。将鱼(平均重量=1.21 g±0.08,n=600)随机放养在40-L的玻璃水族馆中,放养密度为0.5 g/L(T1)、1 g/L(T2)、1.5 g/L(T3)和2 g/L(T4),并喂食35%的蛋白质饮食。在90天的试验后,评估生理生化、分子和组织水平的变化。对关键压力指标的综合生物标志物反应(IBR)分析有助于我们更好地理解它们。T1和T4之间的血液计数(红细胞总数、血红蛋白和堆积细胞体积)存在显著差异。T1的球蛋白和血浆总蛋白水平较高,但T2的白蛋白水平较高。只有在T1时,呼吸爆发和溶菌酶活性似乎更高(p<0.05)。放养密度的增加对肝功能酶GOT和GPT有显著影响(p<0.01)。与较低密度(T1和T2)相比,较高的放养密度(T3和T4)可提高葡萄糖和皮质醇水平(p<0.001),谷胱甘肽-S-转移酶和丙二醛在低密度组织中更明显(T1)。此外,IBR图显示,密度越低,健康状况越好。在较高的放养密度下,肾和肝组织中HSP70、IL-1和IL-20的mRNA表达增加(p<0.05)。Nrf-2和Tlr-9基因也被上调。此外,当放养密度增加时,组织水平的组织结构变化比放养密度保持低时更明显。这项研究的结果表明,在生物养殖系统中高密度养殖的黄油鲶鱼的福利受到了严重的压力,因此,为了追求盈利的水产养殖企业,人们更加关注开发一种特定物种的标准饲养方法。
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