膳食盐浓度对咸水中饲养的大菱鲆(Scophthalmus maximus)的生长、营养利用和脂肪酸谱的影响。

IF 2.5 3区 农林科学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Fish Physiology and Biochemistry Pub Date : 2024-12-01 Epub Date: 2024-08-10 DOI:10.1007/s10695-024-01391-w
Hüseyin Sevgili, Adem Kurtoğlu, Masahiro Oikawa, Faruk Pak, Özgür Aktaş, Firdevs Mert Sivri, O Tufan Eroldoğan
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引用次数: 0

摘要

扩大大菱鲆(Scophthalmus maximus)水产养殖的经济可行性取决于世界各地能否获得咸冷地下水源。由于咸水资源会对鱼类的生理机能和动物园技术性能造成不利影响,因此在一些水产养殖品种中,日粮中添加食盐可以减轻低盐水的负面影响。本研究调查了提高日粮含盐量对大菱鲆幼鱼(初始活重 120.3 ± 0.03 克/尾)的生长、饲料利用率、体成分和组织脂肪酸组成的影响。给鱼喂食五种添加不同水平氯化钠(1.8-6.4%)的实验日粮或不含盐的对照日粮。每种饲料都在一式三份的水槽中进行了为期 9 周的试验。结果表明,增加日粮盐摄入量会对大菱鲆的生长性能产生负面影响,显著降低增重、特定生长率和饲料转化率。全身和鱼片的干物质和灰分含量随食盐量的增加呈二次方增加,而鳃的水分和蛋白质含量则呈线性下降。此外,氮、脂和能量的利用效率随各自的摄入量和增重水平而降低。食盐对鳃、肝和鱼片组织的脂肪酸谱有明显影响。在鳃组织中,单不饱和脂肪酸(16:1n-7,ΣMUFA)和 n-6 PUFA(20:2n-6)增加,而 EPA 和 DHA 减少。随着膳食盐的增加,肝脏中的ΣSFA(16:0、18:0)增加,n-3 PUFA(18:3n-3、20:5n-3)减少。鱼片中的饱和脂肪酸(14:0、15:0、17:0)和 n-6 PUFA(20:2n-6、20:4n-6)随膳食盐的增加而增加,而 n-3 PUFA(18:3n-3、EPA)随膳食盐的增加而减少。鱼片中的 DHA 含量呈二次增长。总之,该研究表明,增加日粮盐分会对咸水中多宝鱼的生长、饲料利用率和组织脂肪酸组成产生负面影响,因此需要进一步研究多宝鱼养殖的盐度管理策略。
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Dietary salt concentrations influence growth, nutrient utilization, and fatty acid profiles of turbot (Scophthalmus maximus) reared in brackish water.

Expansion of economically viable turbot (Scophthalmus maximus) aquaculture depends on access to brackish-cold ground water sources in various parts of the world. Since brackish water sources can adversely affect the physiology and zoo technical performance of fish due to the burden of osmoregulation, dietary salt inclusion can alleviate the negative impacts of low-saline waters in several aquaculture species. This study investigated the effects of increasing dietary salt levels on the growth, feed utilization, body composition, and tissue fatty acid composition of juvenile turbot (initial live weight 120.3 ± 0.03 g/fish). Fish were fed five experimental diets supplemented with varying levels of sodium chloride (1.8-6.4%) or a control diet without salt. Each diet was tested in triplicate tanks for 9 weeks. Results showed that increasing dietary salt intake negatively impacted turbot performance, with significant reductions in weight gain, specific growth rate, and feed conversion ratio. Dry matter and ash content in the whole body and filet increased quadratically with increasing salt levels, whereas gill moisture and protein content decreased linearly. Furthermore, the nitrogen, lipid, and energy utilization efficiencies decreased with their respective intake and gain levels. Dietary salt significantly influenced the fatty acid profiles of gill, liver, and filet tissues. In the gill, monounsaturated fatty acids (16:1n-7, ΣMUFA) and n-6 PUFA (20:2n-6) increased, whereas EPA and DHA decreased. Liver ΣSFA (16:0, 18:0) increased, and n-3 PUFA (18:3n-3, 20:5n-3) decreased with increasing dietary salt. Filet saturated fatty acids (14:0, 15:0, 17:0) and n-6 PUFA (20:2n-6, 20:4n-6) increased, while n-3 PUFA (18:3n-3, EPA) decreased with dietary salt. DHA levels in filets showed a quadratic increase. Overall, this study shows that increasing dietary salt negatively impacts turbot growth, feed utilization, and tissue fatty acid composition in brackish water, highlighting the need for further studies on salinity management strategies for turbot aquaculture.

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来源期刊
Fish Physiology and Biochemistry
Fish Physiology and Biochemistry 农林科学-生化与分子生物学
CiteScore
5.60
自引率
6.90%
发文量
106
审稿时长
4 months
期刊介绍: Fish Physiology and Biochemistry is an international journal publishing original research papers in all aspects of the physiology and biochemistry of fishes. Coverage includes experimental work in such topics as biochemistry of organisms, organs, tissues and cells; structure of organs, tissues, cells and organelles related to their function; nutritional, osmotic, ionic, respiratory and excretory homeostasis; nerve and muscle physiology; endocrinology; reproductive physiology; energetics; biochemical and physiological effects of toxicants; molecular biology and biotechnology and more.
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