The effect of dietary docosahexaenoic acid (DHA; 22:6n-3) on photoreceptor abundance, rhodopsin expression and growth in developing gilthead sea bream (Sparus aurata) larvae

IF 0.5 4区农林科学 Q4 FISHERIES

Israeli Journal of Aquaculture-bamidgeh Pub Date : 2023-06-07 DOI:10.46989/001c.77592

A. Tandler, A. Levitan, Oriya Nixon, Aviad Gaon, W. Koven

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Abstract

This study determined the effect of prey DHA on larval gilthead sea bream (GSB; Sparus aurata) photoreceptor abundance, rhodopsin expression, and growth performance. It was carried out in a twenty-eight 400 l conical tank system that was stocked with 100 viable GSB eggs/l/tank. This allowed the testing of 4 levels of rotifer DHA; 0.99 (Low; L), 1.9 (Intermediate low; I-L), 3.2 (Intermediate high; I-H) and 12.1(High; H) mg DHA/g DW rotifer, which were fed (10 rotifers/ml) to 3-16 DPH larvae. These rotifer diets continued to be offered to 17-34 DPH fish, although these larvae predominantly fed on 4 DHA enriched Artemia nauplii treatments that were offered at a concentration from 0.1 nauplii/ml to 4 nauplii/ml, depending on larval age. This resulted in 4 DHA rotifer-Artemia ranges: 0.99-0.0 (L), 1.9-2.6 (I-L), 3.2-7.2 (I-H), and 12.1-11.77 (H) mg DHA/g DW. The 4 DHA treatments and ranges were tested in replicates of 7 conical tanks per treatment. Increasing rotifer DHA significantly (P<0.0001) improved TL, in an exponential manner, throughout larval rearing. DW in 34 DPH larvae was markedly (P<0.05) enhanced with dietary DHA inclusion in the rotifers and Artemia. There was a significant (P < 0.005) prey DHA dose dependent range effect on the abundance of photoreceptor cells in the retina of 34 DPH larvae. The gene expression of rhodopsin in GSB larvae was significantly (P<0.05) upregulated with dietary DHA dose range and larval age (P<0.0001). This study established a link between dietary DHA level with photoreceptor abundance and rhodopsin expression, which led to improved vision, prey acquisition, and growth in developing GSB larvae.

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膳食二十二碳六烯酸(DHA);22:6n-3)对光感受器丰度、视紫红质表达和发育中的金头鲷(Sparus aurata)幼虫生长的影响

本研究确定了饵料DHA对gilhead sea bream (GSB;光Sparus aurata)光感受器丰度、视紫红质表达和生长性能。试验在28个400升的锥形槽系统中进行，每升槽中有100个活的GSB卵。这样可以测试轮虫DHA的4个水平;0.99(低;L)， 1.9(中低;I-L)， 3.2(中高;I-H)和12.1(高;H) mg DHA/g DW轮虫，以10只/ml的剂量饲喂3 ~ 16只DPH幼虫。这些轮虫饲料继续提供给17-34 DPH鱼，尽管这些幼虫主要以富含4 DHA的阿耳特弥(Artemia nauplii)处理为食，根据幼虫的年龄，提供的浓度从0.1 nauplii/ml到4 nauplii/ml。结果表明，轮虫-蒿的DHA含量分别为0.99 ~ 0.0 (L)、1.9 ~ 2.6 (I-L)、3.2 ~ 7.2 (I-H)和12.1 ~ 11.77 (H) mg /g DW。试验4个DHA处理和范围，每个处理重复7个锥形槽。在整个幼虫饲养过程中，增加轮虫DHA显著(P<0.0001)提高了TL，且呈指数增长。在轮虫和蒿中添加DHA显著提高了34只DPH幼虫的DW (P<0.05)。食饵DHA对34只DPH幼虫视网膜感光细胞丰度有显著(P < 0.005)剂量依赖范围效应。随着饲料DHA剂量范围和幼虫年龄的增加，GSB幼虫视紫红质基因表达量显著上调(P<0.05) (P<0.0001)。本研究建立了膳食DHA水平与光感受器丰度和视紫红质表达之间的联系，从而改善了发育中的GSB幼虫的视力、猎物获取和生长。

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