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FAO study [9] SOFIA 2002 [8] IFPRI study [10] SOFIA 2002 [8] Marine capture 86.8 85.8 86 86 87 Inland capture 8.8 9.2 6 6 6 Total capture 95.6 95.0 93 105 93 116 93 Aquaculture 35.5 45.5 53 74 70 54 83 Total production 131.1 140.5 146 179 163 170 176 Food fish production 96.9 105.6 120 138 130 150 Percentage used for food fish 74% 75% 82% 85% ...
Since 2000, aquaculture has been the fastest growing food production sector, growing 5.8% per year, [6] supplying over 100 metric tonnes of fish, shellfish and seaweeds from 425 species in 2017. [3] [4] Global aquaculture production by country in million tonnes, 1950–2010, as reported by the FAO. Based on data sourced from the FishStat database.
Global capture fisheries and aquaculture production reported by FAO, 1990–2030 World aquaculture production of food fish and aquatic plants, 1990–2016 Harvest stagnation in wild fisheries and overexploitation of popular marine species, combined with a growing demand for high-quality protein, encouraged aquaculturists to domesticate other ...
Following is a sortable table of the world fisheries' harvest in 2022. The tonnage from capture and aquaculture is listed by country. Capture includes fish , crustaceans , molluscs , etc. [ 1 ] [ 2 ] [ 3 ]
According to the FAO, "...a fishery is an activity leading to harvesting of fish.It may involve capture of wild fish or raising of fish through aquaculture." It is typically defined in terms of the "people involved, species or type of fish, area of water or seabed, method of fishing, class of boats, purpose of the activities or a combination of the foregoing features".
Fish farming or pisciculture involves commercial breeding of fish, most often for food, in fish tanks or artificial enclosures such as fish ponds. It is a particular type of aquaculture , which is the controlled cultivation and harvesting of aquatic animals such as fish, crustaceans , molluscs and so on, in natural or pseudo-natural environments.
Three ways of defining a sustainable fishery exist: Long term constant yield is the idea that undisturbed nature establishes a steady state that changes little over time. . Properly done, fishing at up to maximum sustainable yield allows nature to adjust to a new steady state, without compromising future harves
The first principle focuses on the finite nature of fish stocks and how potential yields must be estimated based on the biological constraints of the population. In a paper published in 2007, Shertzer and Prager suggested that there can be significant benefits to stock biomass and fishery yield if management is stricter and more prompt. [ 19 ]