水产养殖中的生物絮团技术:从社会和适用性角度的利弊

IF 1.8 4区 农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE
M. Minaz, İrfan Selçuk Yazici, H. Sevgili, I. Aydin
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引用次数: 1

摘要

世界水产养殖业寻求可持续的生产战略,以满足不断增长的世界人口对有价值食物的需求。生物絮团技术(BFT)被认为是一种新型的可持续方法,它以零水排放的方式减少了接收水资源的污染负荷,通过其生物循环消除了额外的水处理成本,并支持饲养动物的生长性能,从而降低了饲料成本。然而,每个BFT系统都有自己的一套困难和障碍。本文从经济性、社会性和适用性三个方面综述了BFT系统的优缺点。与基于硝化过程的技术相比,BFT在将有毒氮化合物转化为无毒化合物方面表现出更有效的效果。此外,BFT系统养殖动物的生长性能和健康状况普遍优于常规饲养系统(连续水流)。与传统水产养殖相比,BFT系统中由病原微生物引起的常见疾病发生的风险似乎较低。值得注意的是,BFT系统中生物的免疫系统、生化应激指标和抗氧化活性均受到积极影响。在基于微生物活性的BFT系统中,细菌所需的高水温是系统的限制因素。此外,为了满足鱼、虾、异养细菌、线虫、轮虫等所有生物对氧气的需求,BFT中有较高的通气量/能量需求。还有另一个问题是关于在BFT系统中培养的生物的消费可接受性潜力。最后,由于系统的高温需求将产生高能源成本,因此应将其视为强制应用的另一个限制。考虑到BFT系统作为可持续水产养殖的优缺点,本文综述为未来的研究和全面实施提供了指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biofloc technology in aquaculture: Advantages and disadvantages from social and applicability perspectives
Abstract The world aquaculture industry seeks sustainable production strategies to respond to the needs of the growing world population for valuable food. Biofloc technology (BFT) is accepted as a novel sustainable method that reduces the pollution load on receiving water resources with its zero-water-discharge approach, eliminates extra water treatment costs with its biological cycles, and supports the growth performance of reared animals and thereby reduces feed costs. However, each BFT system has its own set of difficulties and obstacles. This review focuses on the advantages and disadvantages of BFT systems in terms of economy, sociability and applicability. The BFT shows more effective results in the conversion of toxic nitrogenous compounds to nontoxic compounds compared with the technologies based on nitrification processes. In addition, the growth performance and health of the cultured animals are generally better in BFT systems than those in conventional rearing systems (continuous water flow). The risk of common diseases occurrence due to pathogenic microorganisms appears to be lower in BFT systems compared to conventional aquaculture. It is also noteworthy that the immune system, biochemical stress indicators and antioxidant activities of organisms held in BFT systems are positively affected. In BFT systems based on microbial activity, the high water temperature demanded by bacteria is a limiter for the system. Moreover, a higher aeration/energy requirement is the case in BFT to meet the oxygen demand of all organisms including fish, shrimp, heterotrophic bacteria, nematodes, rotifers and others inside. There is also another concern about the acceptability potential of the cultured organism in BFT systems for consumption. Finally, since the high temperature demand of the system will create high energy costs, it should be considered as another restriction that forces the application. Considering the advantages and disadvantages of BFT systems as sustainable aquaculture, this review provides a guide for future studies and full-scale implementations.
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来源期刊
Annals of Animal Science
Annals of Animal Science 农林科学-奶制品与动物科学
CiteScore
4.00
自引率
5.30%
发文量
138
审稿时长
6-12 weeks
期刊介绍: Annals of Animal Science accepts original papers and reviews from the different topics of animal science: genetic and farm animal breeding, the biology, physiology and reproduction of animals, animal nutrition and feedstuffs, environment, hygiene and animal production technology, quality of animal origin products, economics and the organization of animal production.
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