Effect of water treatment for Epinephelus  of industrial recirculating aquaculture in Guangxi

Previous Articles Next Articles

Effect of water treatment for Epinephelus of industrial recirculating aquaculture in Guangxi

(1 Key laboratory of Marine Biotechnology, Guangxi Institute of Oceanology, Beihai 536000, Guangxi, China;
2 Engineering Research Center, Guangxi Institute of Oceanology, Beihai 536000, Guangxi, China;
3 College of Fisheries, Huazhong Agricultural University, Wuhan, 430070, Hubei, China)

Online:2019-06-05 Published:2019-04-20

广西工厂化循环水养殖石斑鱼水质处理效果

（1广西海洋研究所，广西海洋生物技术重点实验室，广西北海 536000；
2 广西海洋研究所，工程技术中心，广西北海 536000；
3华中农业大学，水产学院，湖北武汉 430070）

作者简介:刘旭佳（1986—），女，副研究员，硕士，研究方向：养殖生态学。E-mail: lxu0312@126.com
基金资助:
广西科技攻关项目（AB16380167、1598006-6-6）；广西自然科学基金（2015GXNSFBA139081）；国家自然科学基金项目（31160532）；广西科学院业务费项目（13YJ22HYS14）

Abstract

Abstract: Through integration of seawater fish farming, biochemical treatment, facilities engineering, environmental engineering, electrical automation, water quality monitoring and other technologies, a set of industrial recirculating aquaculture system for Epinephelus suitable for Guangxi was established. Processing order of the aquaculture system was fish pond, settling pond, protein separator, biological filter, floating system of Sesuvium portulacastrum and ultraviolet sterilization treatment. Biological filter included A, B and C channels, where coral stone was selected as primary and secondary biological filtration in A and B channels and biochemical ball as tertiary filtration. In C channel, coral stone was selected as primary filtration and coconut shell shiver was selected as secondary and tertiary filtration. The results showed that the mass concentration of COD, NH4+-N, NO2--N, NO3--N and PO43- in fish ponds could be significantly reduced by the treatment of settling pond (P < 0.05). The mass concentration of NO3--N in the floating system of Sesuvium portulacastrum was significantly lower than that in the settling pond, protein separator treatment pond, biological filter A and B channels (P < 0.05). In general, the water quality in channel C was slightly lower than channel A and channel B, but the difference was not significant (P > 0.05). The results of this study can provide reliable scientific data and technical support for the development of recirculating aquaculture technology and the transformation of aquaculture mode along the coast of Guangxi.

Key words: Epinephelus, recirculating aquaculture, water treatment, Guangxi

摘要： 通过集成海水养鱼、生化处理、设施工程、环境工程、电器自控和水质监控等技术，建立一套适合广西地区应用的工厂化循环水石斑鱼养殖系统。该养殖系统处理流程为：鱼池→沉淀池→蛋白质分离器→生物滤池→海马齿浮床→紫外杀菌，生物滤池包括A、B、C三个通道，A、B通道均由珊瑚石作为一、二级生物过滤和生化球作为三级过滤，C通道由珊瑚石作为一级过滤和椰子壳碎作为二、三级过滤。结果显示：沉淀池处理可以显著降低鱼池的COD，氨氮、亚硝酸盐氮、硝酸盐氮和磷酸盐的质量浓度（P<0.05）；经海马齿浮床系统处理后，硝酸盐氮质量浓度显著低于沉淀池、蛋白质分离器处理池、生物滤池A、B通道（P<0.05）；整体上，C通道水质指标略低于A、B通道，但差异不明显（P>0.05）。该研究结果可为广西沿海发展循环水养殖技术以及养殖生产方式转变提供可靠的科学数据和技术参考。

关键词: 石斑鱼, 循环水养殖, 水质处理, 广西 ,

LIU Xujia1, 3, WANG Zhicheng2, XIONG Xiangying1, LIANG Zhihui2, WANG Xianfeng1, YAO Kunzhi2. Effect of water treatment for Epinephelus of industrial recirculating aquaculture in Guangxi[J]. .

刘旭佳1,3，王志成2，熊向英1，梁志辉2，王贤丰1，姚坤志2. 广西工厂化循环水养殖石斑鱼水质处理效果[J]. 渔业现代化杂志.

[1]	WANG Fenglin1, GAO Yuntao1, GAO Yunhong1, LI Mingyue1, ZHANG Bingzhi3, GUAN Changtao1,2, JIA Yudong1,2. Preliminary study on land-sea alternate aquaculture of spotted knifejaw Oplegnathus punctatus [J]. , 2022, 49(4): 8-.
[2]	MIN Wenwu1,2，WANG Longyan3，WANG Jinle1，CHEN Feixiong1,2，ZHOU qichun1,2. Phytoplankton community structure characteristics and its influencing factors in container recirculating aquaculture system#br# [J]. , 2022, 49(4): 26-.
[3]	ZHANG Chenglin1,2, ZHANG Yulei1,2, WU Fan1※, WU Kai3, ZHENG Yueping3. Analysis and optimization of fish pond flow field based on CFD simulation and PIV technology [J]. , 2022, 49(2): 25-.
[4]	YANG Rui1.2.3，ZHOU Shengjie1,2.3， YU Gang1,2， MA Zhenhua1,2.3. Study on the daily periodicity movement behavior of juvenile Euthynnus affinis in land-based recirculating aquaculture system#br# [J]. , 2022, 49(1): 24-.
[5]	DU Yishuai1,3, QIU Tianlong1,3, ZHOU Li1,3, XU Jianping1,2, CHEN Fudi1,3, LI Ye1,2, SUN Jianming1,3. Study on the three-phase recirculating aquaculture model of Litopenaeus vannamei [J]. , 2021, 48(3): 51-.
[6]	XIAO Kun1,2, HAO Jingwei1,2，WANG Yi3，QU Baocheng1,2，FU Songzhe1,2，LIU Ying1,2. Effects of microfiltration in recirculating aquaculture system on bacterial community structure in water [J]. , 2021, 48(3): 67-.
[7]	DUAN Shanshan1, YANG Chen2, SONG Xiefa1, HUANG Zhitao1. Distribution of suspended fine particles in recirculating aquaculture system [J]. , 2021, 48(2): 22-.
[8]	XU Yanfei, ZHANG Yulei, GU Chuanchuan, LIU Huang, Ni Qi. Historical process, typical systems and developing trends of aquaponics [J]. , 2020, 47(5): 1-.
[9]	LIU Wenchang1,2, TAN Hongxin1,2,3, LUO Guozhi1,2,3, DU Xinze1. Progress of research on application of microorganism suspended growth water-treatment system in industrial aquaculture#br# [J]. , 2019, 46(6): 1-.
[10]	GUAN Chongwu1, SONG Hongqiao1, YANG Jing1, SHAN Jianjun1, LIU Jian2. Effects of water color and transparency on growth and physiological indexes of Litopenaeus vannamei in recirculating aquaculture#br# [J]. , 2019, 46(5): 35-.
[11]	ZHANG Long1,2, QU Keming1, ZHANG Peng1,2, Wang Lu1, Li Weidong3, . Effects of the stocking density on stress response and antioxidant status of Takifugu rubripes in recirculating aquaculture systems#br# [J]. , 2019, 46(4): 14-.
[12]	XIAO Hongjun, LIU Kai, LI Lili, FENG Yan’er. Design of intelligent feeding car for multi-layer sink-type industrialized recirculating aquaculture system#br# [J]. , 2019, 46(1): 21-.
[13]	LE Pumin, JIANG Xinglong. Comparison of effects of semi-enclosed and enclosed recirculating aquaculture of Anguilla rostrata#br# [J]. , 2018, 45(6): 7-.
[14]	GUAN Chongwu, ZHANG Yulei, SONG Hongqiao, ZHANG Haigeng, WANG Jian. Study on the effect and mechanism of ozone on purification of recirculating aquaculture water [J]. , 2018, 45(6): 14-.
[15]	BAO Ying1, SUN Xiwu2, JI Aibing3. Research on application of bio-floc in industrial recirculating aquaculture of shrimp [J]. , 2018, 45(6): 19-.