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In aquaculture, the deposition of biological manure and residual bait in water can cause water pollution. If the discharged aquaculture tail water is not treated in time, the surrounding water environment will be affected and the quality of aquaculture organisms will be reduced. Controlling inorganic nitrogen by controlling the carbon-nitrogen ratio is a potential aquaculture system control method. This method can effectively reduce the accumulation of inorganic nitrogen in ponds, convert ammonia and nitrite nitrogen in water into proteins for culture organisms, and inhibit the growth of harmful microorganisms. This paper discusses the research development of bio-flocs technolgy at home and abroad, how to treat tail water with maximum efficiency in order to solve the problems of debris and feed retention in aquaculture water and realize the reuse of bait, and purifying water quality.
In aquaculture, the deposition of biological manure and residual bait in water can cause water pollution. If the discharged aquaculture tail water is not treated in time, the surrounding water environment will be affected and the quality of aquaculture organisms will be reduced. Controlling inorganic nitrogen by controlling the carbon-nitrogen ratio is a potential aquaculture system control method. This method can effectively reduce the accumulation of inorganic nitrogen in ponds, convert ammonia and nitrite nitrogen in water into proteins for culture organisms, and inhibit the growth of harmful microorganisms. This paper discusses the research development of bio-flocs technolgy at home and abroad, how to treat tail water with maximum efficiency in order to solve the problems of debris and feed retention in aquaculture water and realize the reuse of bait, and purifying water quality.
Towards the sustainable aquaculture production, more recent technologies have been developed in the past few years. The application of effectives microbes (EM) in controlling water quality, the application of biofloc technology, aquamimicry, Black Soldier fly (BSF) as supplemental protein feed, application of triploidy, polyploidy, vaccines, probiotic and prebiotic, Internet of Things (IoT) in monitoring the water quality in the farm operation, monosex culture and neo-female application also being applied in the aquaculture operation. The developments of these recent technology were towards achieving the sustainable aquaculture production, prevention of the disease outbreak, help in increasing the yield of crops harvested as well as towards the green environmental developments. This review paper emphasized on the most recent technologies developed in aquaculture in the past few years until these days. The developments of the new technology in aquaculture also in order to support the sustainable development goals (SDGs) proposed by the United Nation focused on SDG1 (no poverty) and SDG2 (zero hunger) from the increase of aquaculture production achieved through the recent developed technology. Ultimately, this review paper can generate new knowledge and information to the aquaculturist and aquafarmers on the new technologies and developments in aquaculture which could help benefit in the cultures operation and increase of production in the year future.
In the pursuit of promoting sustainable aquaculture production, numerous cutting-edge technologies have emerged in recent years. The utilization of effective microbes (EM) in managing water quality, the implementation of biofloc technology, aquamimicry, the inclusion of Black Soldier Fly (BSF) as an additional protein source, the use of triploidy and polyploidy, vaccines, probiotics, and prebiotics, the integration of Internet of Things (IoT) for monitoring water quality in the farm operation, the practice of monosex culture, and the application of neo-female techniques are all being employed in aquaculture operations. The advancements in these cutting-edge technologies have been focused on promoting sustainable aquaculture production, mitigating the risk of disease outbreaks, enhancing crop yields, and contributing to eco-friendly environmental initiatives. This review paper highlights the cutting-edge technologies that have emerged in the field of aquaculture in recent years, up until the present time, with a focus on advancements in fish nutrition. The advancements in aquaculture technology have been instrumental in promoting the achievement of sustainable development goals, particularly SDG-1 (no poverty) and SDG-2 (zero hunger). These goals are aimed at reducing poverty and eliminating hunger by utilizing the enhanced aquaculture production facilitated by the latest technological innovations. In the arena of aquaculture, this review paper has the potential to nourish the minds of aquaculturists and aquafarmers with a bountiful feast of knowledge. It unveils the latest technologies and developments in the realm of aquaculture, serving as a nutritious resource that can enhance the operation of cultures and promote a fruitful increase in production in the not-so-distant future.
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