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Common aquaculture systems requiring optimization and engineering include sea cages, ponds, and recirculating systems. [2] The design and management of these systems is based on their production goals and the economics of the farming operation. [3] Aquaculture technology is varied with design and development requiring knowledge of mechanical ...
Raceway systems are among the earliest methods used for inland aquaculture. A raceway usually consists of rectangular basins or canals constructed of concrete and equipped with an inlet and outlet. A continuous water flow-through is maintained to provide the required level of water quality, which allows animals to be cultured at higher ...
Aquaponics is a food production system that couples aquaculture (raising aquatic animals such as fish, crayfish, snails or prawns in tanks) with hydroponics (cultivating plants in water) whereby the nutrient-rich aquaculture water is fed to hydroponically grown plants.
Recirculating aquaculture systems (RAS) are used in home aquaria and for fish production where water exchange is limited and the use of biofiltration is required to reduce ammonia toxicity. [1] Other types of filtration and environmental control are often also necessary to maintain clean water and provide a suitable habitat for fish. [ 2 ]
Intensive aquaculture requires tight monitoring and a high level of expertise of the fish farmer. Controlling roes manually. Very-high-intensity recycle aquaculture systems (RAS, also Recirculating Aquaculture Systems), where all the production parameters are controlled, are being used for high-value species.
Kapetsky JD and Aguilar-Manjarrez J (2007) Estimating open ocean aquaculture potential in EEZ with remote sensing and GIS: a reconnaissance [permanent dead link ] In: Geographic information systems, remote sensing and mapping for the development and management of marine aquaculture, FAO fisheries technical paper 458. ISBN 978-92-5-105646-2.
Fed aquaculture (for example, fish, shrimp) is combined with inorganic extractive and organic extractive (for example, shellfish) aquaculture to create balanced systems for environmental sustainability (biomitigation), economic stability (product diversification and risk reduction) and social acceptability (better management practices).
The proportion of Asian aquaculture production that occurs in IMTA systems is unknown. After the 2004 tsunami, many of the shrimp farmers in Aceh Province of Indonesia and Ranong Province of Thailand were trained in IMTA. This has been especially important as the mono-culture of marine shrimp was widely recognized as unsustainable.