Effects of Different Carbon Sources on Water Quality, Physiology, Growth, and Intestinal Microbiota in Cultured Sea Cucumber (Apostichopus japonicus) With Biofloc Technology

IF 1.9 4区农林科学 Q2 FISHERIES

Aquaculture Research Pub Date : 2024-12-21 DOI:10.1155/are/6294937

Haoran Xiao, Qi Ye, Zitong Wang, Weiyan Li, Shuchao Ruan, Lingshu Han, Kaihao Zhao, Xiaonan Li, Wanrong Tian, Yaqing Chang, Jun Ding

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Abstract

The biofloc technology (BFT) in sea cucumber (Apostichopus japonicus) farming utilizes nutrient cycling, driven by heterotrophic microorganisms, to improve water quality and promote sustainable aquaculture. This study explored the potential of sodium bicarbonate and sodium acetate as novel carbon sources, which may offer advantages in maintaining water stability and enhancing microbial diversity compared to traditional carbon sources. Juvenile sea cucumbers were cultured in a 64-day trial and assigned to five treatment groups: S (sucrose), SSa (S + sodium acetate), SSb (S + sodium bicarbonate), Nc (no carbon source), and Cg (control group), each treatment group was repeated three times (n = 3). The inclusion of sodium bicarbonate and sodium acetate significantly improved water quality parameters. The group SSb exhibited a higher pH (8.28), and significantly lower ammonia nitrogen (0.501 mg L⁻¹), and nitrite levels (0.031 mg L⁻¹) compared to other groups. Additionally, the biofloc volume (BFV; 17 mL L⁻¹), total suspended solids (TSSs; 238 mg L⁻¹), and protein content (13.9%) in the group SSb were all within the tolerance range for sea cucumbers. Group SSb also showed the significantly highest weight gain rate (WGR; 78.5%) and specific growth rate (SGR; 0.91%), alongside increased enzyme activities, including superoxide dismutase (SOD; 179 U mL⁻¹) and peroxidase (POD; 1.59 U mL⁻¹), which were significantly higher than those in other groups. Furthermore, the group SSb demonstrated enhanced gut microbiota diversity, characterized by a higher abundance of beneficial Bacillus and lower levels of harmful Vibrio and Pseudomonas. The addition of SSb significantly improved water quality by maintaining optimal pH and reducing harmful nitrogen compounds, which in turn supported enhanced physiological growth and increased gut microbiota diversity, indicating its potential as a superior carbon source in biofloc systems.

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不同碳源对生物絮团养殖刺参水质、生理、生长和肠道菌群的影响

海参养殖中的生物絮团技术（biofloc technology， BFT）利用异养微生物驱动的养分循环来改善水质，促进可持续养殖。本研究探讨了碳酸氢钠和醋酸钠作为新型碳源的潜力，与传统碳源相比，它们可能在维持水稳定性和增强微生物多样性方面具有优势。将海参幼参培养64 d，分为S（蔗糖）、SSa （S +乙酸钠）、SSb （S +碳酸氢钠）、Nc（无碳源）和Cg（对照组）5个处理组，每个处理组重复3次（n = 3）。碳酸氢钠和乙酸钠的加入显著改善了水质参数。与其他组相比，SSb组的pH值（8.28）较高，氨氮（0.501 mg L−1）和亚硝酸盐水平（0.031 mg L−1）显著降低。此外，生物絮团体积(BFV；17 mL L−1)，总悬浮固体(tss；SSb组的蛋白质含量（13.9%）均在海参耐受范围内。SSb组的增重率显著高于对照组；78.5%)和特定生长率(SGR；0.91%)，同时酶活性增加，包括超氧化物歧化酶(SOD；179 U mL−1)和过氧化物酶(POD；1.59 U mL−1)，显著高于其他各组。此外，SSb组肠道微生物群多样性增强，其特点是有益芽孢杆菌丰度较高，有害弧菌和假单胞菌含量较低。添加SSb通过维持最佳pH值和减少有害氮化合物显著改善水质，从而促进生理生长和增加肠道微生物群多样性，表明其作为生物絮团系统中优越的碳源的潜力。

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来源期刊

Aquaculture Research 农林科学-渔业

CiteScore

4.60

自引率

5.00%

发文量

464

审稿时长

5.3 months

期刊介绍： International in perspective, Aquaculture Research is published 12 times a year and specifically addresses research and reference needs of all working and studying within the many varied areas of aquaculture. The Journal regularly publishes papers on applied or scientific research relevant to freshwater, brackish, and marine aquaculture. It covers all aquatic organisms, floristic and faunistic, related directly or indirectly to human consumption. The journal also includes review articles, short communications and technical papers. Young scientists are particularly encouraged to submit short communications based on their own research.