The role of some biological and natural feed additives against the deleterious effect of diazinon in Nile tilapia (Oreochromis niloticus)

IF 3.2 2区 农林科学 Q1 FISHERIES Aquaculture Reports Pub Date : 2024-10-05 DOI:10.1016/j.aqrep.2024.102399
Hemat A. Abd El-Salam , Gamal A. Abdel-Rahman , Hemat K. Mahmoud , Tamer Ahmed Ismail , Mahmoud Alagawany
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Abstract

The present research amid to investigate the toxic effect of diazinon (DZN) and assess the modulatory role of chitosan nanoparticle (ChNP), orange peel extract (OPE), spirulina platensis (SP) and curcumin nanoparticles (CNP) as feed additives in O. niloticus fish. A total of 900 fish were divided into six equal groups, each with 3 replicates by random distribution. The 1st group was kept as the control group which was fed a basal diet. The 2nd group (DZN) was given a basic diet and exposed to 1/10th of the 96-hour LC50 of DZN. The 3rd group (DZN+ChNP) was exposed to DZN (0.28 mg/L) + 1 gm ChNP/kg diet. The 4th group (DZN+OPE) was exposed to DZN (0.28 mg/L) + 2 gm OPE/kg diet. The 5th group (DZN+SP) was exposed to DZN (0.28 mg/L) + 5 gm SP/kg diet, while, the 6th group (DZN+SP) was exposed to DZN (0.28 mg/L) + 150 mg CNP/kg diet. Apart from feed conversion, DZN decreased fish's growth performance parameters as compared to the control, while these values were modulated with ChNP, SP or CNP supplement to fish with DZN exposure. Fish exposed to DZN had the lowest values Hb, RBCs WBCs, total protein, albumin and globulin and the highest values of ALT, AST and uric acid while dietary supplementation with ChNP, OPE, SP and CNP to DZN exposed fish restored their levels to the control values. Fish group fed diet supplemented with DZN+OPE or DZN+ChNP recorded the lowest value of ALT among all studied groups. DZN altered the lipid profile of exposed fish while the DZN+SP group had the best values of all lipid profile among all groups followed by DZN+CNP group. Fish exposed to DZN had lower serum lysozyme activity, immunoglobulin (M, A and G) levels and antioxidant parameters (SOD, GSH, CAT and TAC) while dietary supplementation of ChNP or OPE to DZN exposed fish had higher values for these traits but still under control values. The highest level of lipid peroxidation marker malondialdehyde (MDA) was observed in DZN group while dietary supplementation of ChNP or OPE to DZN exposed fish decreased the MDA level. According to the genetic distance and dendrogram for the analysis of genetic diversity between treatments, compared to control; it is clear that the highest genetic diversity was found with DZN group samples (4.80) while dietary treatments with ChNP, OPE or SP to DZN exposed fish showed the lowest diversity of (3.00, 3.32 and 3.87), respectively. It could be concluded that long-term exposure to a sub-lethal DZN dose resulted in growth retardation, haemato-biochemical alteration, immune depression, oxidative stress and genetic material damage of Nile tilapia. Furthermore, the antioxidant and protective properties of ChNP, OPE, SP, and CNP induced nearly total protection in fish exposed to DZN through diet.
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一些生物和天然饲料添加剂对尼罗罗非鱼(Oreochromis niloticus)中二嗪农有害影响的作用
本研究旨在调查二嗪农(DZN)的毒性效应,并评估壳聚糖纳米颗粒(ChNP)、橘皮提取物(OPE)、螺旋藻(SP)和姜黄素纳米颗粒(CNP)作为饲料添加剂对尼罗河鱼的调节作用。将 900 尾鱼随机分为 6 组,每组 3 个重复。第 1 组为对照组,喂食基础饲料。第 2 组(DZN)喂食基本饲料,并接触 1/10 的 96 小时半数致死浓度的 DZN。第三组(DZN+ChNP)接触 DZN(0.28 毫克/升)+ 1 克 ChNP/千克食物。第 4 组(DZN+OPE)接触 DZN(0.28 毫克/升)+ 2 克 OPE/千克食物。第 5 组(DZN+SP)为 DZN(0.28 毫克/升)+ 5 克 SP/千克日粮,第 6 组(DZN+SP)为 DZN(0.28 毫克/升)+ 150 毫克 CNP/千克日粮。与对照组相比,除饲料转化率外,DZN 还降低了鱼类的生长性能参数,而在添加 ChNP、SP 或 CNP 后,这些参数均有所改善。暴露于 DZN 的鱼类的 Hb、RBC、WBC、总蛋白、白蛋白和球蛋白值最低,ALT、AST 和尿酸值最高,而给暴露于 DZN 的鱼类补充 ChNP、OPE、SP 和 CNP 可使其恢复到对照组的水平。在所有研究组中,喂食添加了 DZN+OPE 或 DZN+ChNP 的鱼组的谷丙转氨酶值最低。DZN 改变了暴露鱼类的脂质分布,而 DZN+SP 组的所有脂质分布值在所有研究组中最好,其次是 DZN+CNP 组。暴露于 DZN 的鱼的血清溶菌酶活性、免疫球蛋白(M、A 和 G)水平和抗氧化参数(SOD、GSH、CAT 和 TAC)均较低,而膳食中补充 ChNP 或 OPE 的 DZN 暴露鱼的这些特征值较高,但仍处于控制值之下。在 DZN 组观察到最高的脂质过氧化标记丙二醛 (MDA),而给暴露于 DZN 的鱼补充 ChNP 或 OPE 会降低 MDA 水平。根据遗传距离和树枝图分析处理间的遗传多样性,与对照组相比,显然发现 DZN 组样本的遗传多样性最高(4.80),而给暴露于 DZN 的鱼膳食补充 ChNP、OPE 或 SP 的处理的多样性最低,分别为(3.00、3.32 和 3.87)。由此可以得出结论,长期接触亚致死剂量的 DZN 会导致尼罗罗非鱼生长迟缓、血液生化改变、免疫抑制、氧化应激和遗传物质损伤。此外,ChNP、OPE、SP 和 CNP 的抗氧化和保护特性几乎完全保护了通过饮食接触 DZN 的鱼类。
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来源期刊
Aquaculture Reports
Aquaculture Reports Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
5.90
自引率
8.10%
发文量
469
审稿时长
77 days
期刊介绍: Aquaculture Reports will publish original research papers and reviews documenting outstanding science with a regional context and focus, answering the need for high quality information on novel species, systems and regions in emerging areas of aquaculture research and development, such as integrated multi-trophic aquaculture, urban aquaculture, ornamental, unfed aquaculture, offshore aquaculture and others. Papers having industry research as priority and encompassing product development research or current industry practice are encouraged.
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