Field testing of dual-species synbiotic microcapsules during IMNV disease outbreak and fluctuate weather: growth performance and immune response in Pacific white shrimp (Litopenaeus vannamei)

IF 2.2 3区农林科学 Q2 FISHERIES Aquaculture International Pub Date : 2024-02-23 DOI:10.1007/s10499-024-01389-4

Rikha Putri Ermawati, Munti Yuhana, Widanarni Widanarni, Usamah Afiff

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Abstract

This study aimed to evaluate the effectiveness of synbiotic microcapsules through feed on growth performance and immune response of Pacific white shrimp (Litopenaeus vannamei) in field testing during IMNV disease outbreaks and fluctuating weather. Four groups of shrimps (4.11 ± 0.05 g) with four replicates were fed with different doses of synbiotic microcapsules SIN 0 (0%), SIN 0.5 (0.5%), SIN 1 (1%), and SIN 1.5 (1.5%) for 60 days with a feeding frequency of 4 times a day (07.00, 11.00, 15.00, and 19.00) based on a feeding rate from 4% (w/w) for average body weight < 4 g, 3% (w/w) for average body weight 4–10 g, and reduced until 2% (w/w) for average body weight 10–25 g, depending on the feed index adapting to operational standards procedures for Pacific white shrimp cultivation production from PT Steladus. The synbiotic microcapsules consisted of prebiotic mannan oligosaccharide/MOS, probiotic Pseudoalteromonas piscicida (1UB), and Bacillus cereus (BR2). This study focused on parameters of growth performance (survival rate/SR, specific growth rate/SGR, feed conversion ratio/FCR), immune response (total hemocyte count/THC, differential hemocyte count/DHC, respiratory burst/RB, phenoloxidase/PO activity, phagocytic activity/PA), microbiology (total bacterial count/TBC, 1UB + BR2 Tet^R count, total Vibrio count/TVC), and histopathology. The results showed significant results that synbiotic microcapsules increased SR, SGR also reduced FCR with the best results in SIN 1.5 (SR: 93.50 ± 1.30%, SGR: 4.83 ± 0.01% days⁻¹, and FCR: 1.16 ± 0.02). Immune response of THC, RB, PO, and PA in the synbiotic microcapsule treatment showed higher values with the best results in the SIN 1.5 treatment, while DHC had no significant difference. TBC, 1UB, and BR2 Tet^R count values increased until the 60th day, with the highest value in the SIN 1.5, while TVC showed the lowest value in both intestinal and hepatopancreas organs. Histopathological results showed that hepatopancreas and intestinal organs experienced tissue damage in all treatments, with synbiotic microcapsules showing less damage when compared to SIN 0. In conclusion, supplementation of dual-species synbiotic microcapsules through feed can improve growth performance and immune response and suppress Vibrio during the outbreak with the best dose of 1.5% synbiotic microcapsules.

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在 IMNV 疾病爆发和天气波动期间对双物种合生素微胶囊进行实地测试：太平洋南美白对虾（Litopenaeus vannamei）的生长性能和免疫反应

本研究旨在评估在 IMNV 疾病爆发和天气波动期间，通过饲料添加合生元微胶囊对太平洋南美白对虾（Litopenaeus vannamei）生长性能和免疫反应的影响。用不同剂量的合生元微胶囊 SIN 0（0%）、SIN 0.5（0.5%）、SIN 1（1%）和 SIN 1.5（1.5%）喂养四组对虾（4.11 ± 0.05 克），共 60 天，每天喂养 4 次（07.00、11.00、15.00 和 19.00）。根据 PT Steladus 公司太平洋南美白对虾养殖生产操作标准程序的饲料指数，投喂率从平均体重 < 4 克的 4%（重量比）、平均体重 4-10 克的 3%（重量比）到平均体重 10-25 克的 2%（重量比）不等。益生菌微胶囊由益生元甘露寡糖/MOS、益生菌假交替单胞菌（1UB）和蜡样芽孢杆菌（BR2）组成。本研究主要关注生长性能参数（存活率/SR、特定生长率/SGR、饲料转化率/FCR）、免疫反应参数（总血细胞数/THC、差异血细胞数/DHC、呼吸爆发/RB、酚氧化酶/PO 活性、吞噬活性/PA）、微生物学参数（细菌总数/TBC、1UB + BR2 TetR 计数、弧菌总数/TVC）和组织病理学参数。结果表明，合生元微胶囊能显著提高 SR、SGR 并降低 FCR，在 SIN 1.5 中效果最好（SR：93.50 ± 1.30%，SGR：4.83 ± 0.01% 天-1，FCR：1.16 ± 0.02）。在合生元微胶囊处理中，THC、RB、PO 和 PA 的免疫反应值较高，在 SIN 1.5 处理中效果最好，而 DHC 没有显著差异。TBC、1UB和BR2的TetR计数值在第60天之前一直在增加，其中SIN 1.5处理的数值最高，而TVC在肠道和肝胰脏器官中的数值最低。组织病理学结果表明，在所有处理中，肝胰脏和肠道器官都出现了组织损伤，与 SIN 0 相比，合生元微胶囊的损伤较小。总之，在饲料中添加双种合生元微胶囊可提高生长性能和免疫反应，并在疫情爆发期间抑制弧菌，最佳剂量为合生元微胶囊 1.5%。

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来源期刊

Aquaculture International 农林科学-渔业

CiteScore

5.10

自引率

6.90%

发文量

204

审稿时长

1.0 months

期刊介绍： Aquaculture International is an international journal publishing original research papers, short communications, technical notes and review papers on all aspects of aquaculture. The Journal covers topics such as the biology, physiology, pathology and genetics of cultured fish, crustaceans, molluscs and plants, especially new species; water quality of supply systems, fluctuations in water quality within farms and the environmental impacts of aquacultural operations; nutrition, feeding and stocking practices, especially as they affect the health and growth rates of cultured species; sustainable production techniques; bioengineering studies on the design and management of offshore and land-based systems; the improvement of quality and marketing of farmed products; sociological and societal impacts of aquaculture, and more. This is the official Journal of the European Aquaculture Society.