Tilapia: Difference between revisions

This article is about the fish that fall under the term tilapia in common usage. For species belonging to the genus Tilapia, see Tilapia (genus).

Tilapias
Nile tilapia (Oreochromis niloticus niloticus)
Scientific classification
Kingdom:	Animalia
Phylum:	Chordata
Class:	Actinopterygii
Order:	Perciformes
Family:	Cichlidae
Subfamily:	Pseudocrenilabrinae
Tribe:	Tilapiini
Genera
Oreochromis (about 30 species) Sarotherodon (over 10 species) Tilapia (about 40 species) and see text

Tilapia (Template:Pron-en) is the common name for nearly a hundred species of cichlid fish from the tilapiine cichlid tribe. Tilapia inhabit a variety of fresh water habitats including shallow streams, ponds, rivers, lakes and estuaries. Most tilapia are omnivorous with a preference for aquatic vegetation and detritus. Historically they have been of major importance in artisanal fishing in Africa and the Levant and are of increasing importance in aquaculture (see tilapia in aquaculture). Tilapia can become problematic invasive species in new warm-water habitats, whether deliberately or accidentally introduced but generally not in temperate climates due to their inability to survive in cool waters, (generally below 60 °F (16 °C). (See tilapia as exotic species).

Etymology

The common name tilapia is based on the name of the cichlid genus Tilapia, which is itself a latinization of thiape, the Tswana word for "fish."^[1] Scottish zoologist Andrew Smith named the genus in 1840.^[2]

Tilapia go by many names. The moniker "St. Peter's fish" comes from the account in the Christian Bible about the apostle Peter catching a fish that carried a shekel coin in its mouth, though the passage does not name the fish.^[3] While the name also applies to Zeus faber, a marine fish not found in the area, one tilapia species (Sarotherodon galilaeus galilaeus) is found in the Sea of Galilee where the account took place. This species has been the target of small-scale artisanal fisheries in the area for thousands of years.^[4][5] In some Asian countries including the Philippines, large tilapia go by pla-pla while their smaller brethren are just tilapia. Despite being the largest species of tilapia, "pla-pla" are known as the worlds smallest fish sticks. In call center world the meaning of tilapia is meeting time and time to echoss. ^[6] The Hebrew name is amnoon (אמנון). The Arabic name is mushṭ (مشط) (comb) because of its comb-like tail. Tamil speakers use jilaebi .

Aquaculture

Main article: Tilapia in aquaculture

Tilapia is the third most important fish in aquaculture after carps and salmonids, with production reaching 1,505,804 metric tons in 2002^[7]. Because of their large size, rapid growth and palatability, tilapiine cichlids are the focus of major aquaculture efforts, specifically various species of Oreochromis, Sarotherodon and Tilapia, collectively known colloquially as tilapias. Like other large fish, they are a good source of protein and a popular target for artisanal and commercial fisheries. Originally, the majority of such fisheries were in Africa, but outdoor aquaculture projects in tropical countries such as Papua New Guinea, the Philippines and Indonesia are underway in freshwater lakes.[5] In temperate zone localities, tilapiine farming operations require energy to warm the water to tropical temperatures. One method uses waste heat from factories and power stations.^[8]

Commercially grown tilapia are almost exclusively male. Cultivators use large doses of hormones such as testosterone to reverse the sex of newly spawned females. Because tilapia are prolific breeders, the presence of female tilapia results in rapidly increasing populations of small fish, rather than a stable population of harvest-size animals. Cultivators also use growth hormones to accelerate growth.

Whole Tilapia fish can be processed into skinless, boneless (PBO) fillets: the yield is from 30 percent to 37 percent, depending on fillet size and final trim.^[9] The use of tilapia in the commercial food industry has led to the virtual extinction of genetically pure bloodlines. Most wild tilapia today are hybids of several species.

Nutrition

Tilapia have very low levels of mercury^[10] because tilapia is a fast-growing and short-lived fish that mostly eats a vegetarian diet and therefore does not concentrate mercury found in prey.

Exotic species

Main article: Tilapia as exotic species

One exotic specie of tilapia is called Bryanesis Peraltasis. It is found in PeopleSupport center, and is also seen in the streets of Makati. Tilapia are unable to survive in temperate climates because they require warm water. The pure strain of the Blue Tilapia, Oreochromis Aurea, has the greatest cold tolerance and dies at 45 °F (7 °C) while all other species of tilapia will die at a range of 52°-62° F. As a result, they cannot invade temperate habitats and disrupt native ecologies in temperate zones; however, they have spread widely beyond their points of introduction in many fresh and brackish tropical and subtropical habitats, often disrupting native species significantly.^[11] Because of this, tilapia are on the IUCN's 100 of the World's Worst Alien Invasive Species list.^[12] In the United States, tilapia can live only in extreme southern Florida and a few other isolated areas such as power plant discharge zones. Many state fish and wildlife agencies in the United States, Australia, South Africa and elsewhere consider them an invasive species.^[13]

Uses other than supplying food

Tilapia serve as a natural, biological control for most aquatic plant problems. Tilapia consume floating aquatic plants, such as duckweed watermeal (Lemna sp.), most "undesirable" submerged plants and most forms of algae.^[14] In the United States and countries such as Thailand, Tilapia are becoming the plant control method of choice, reducing/eliminating the use of toxic chemicals and heavy metal-based algaecides.

Tilapia rarely compete with other "pond" fish for food. Instead, because tilapia consume plants and nutrients unused by other fish species and substantially reduce oxygen depleting detritus, adding tilapia often increases the population, size and health of other fish.

Arizona stocks tilapia in the canals that serve as the drinking water sources for the cities of Phoenix, Mesa and others. The fish help purify the water by consuming vegetation and detritus, greatly reducing purification costs.

Arkansas stocks many public ponds and lakes to help with vegetation control, as a robust forage species and for anglers.

In Kenya tilapia help control mosquitoes which cause malaria. They consume mosquito larvae, which reduces the numbers of adult females, the disease’s vector^[15]

Tilapia also provide an abundant food source for aquatic predators.

In aquaria

Larger tilapia species are generally viewed as poor community aquarium fish because they eat plants, dig up the bottom and fight with other fish. However, tilapia are often raised in aquariums as a food source due to their rapid growth and tolerance for high stocking densities and poor water quality. The smaller West African species, such as Tilapia joka and those species from the crater lakes of Cameroon are more popular. In specialized cichlid aquaria tilapias can be mixed successfully with non-territorial cichlids, armoured catfish, tinfoil barbs, garpike and other robust but peaceful fish. Some species, including Tilapia buttikoferi, Tilapia rendalli,Tilapia mariae ,Tilapia joka and the brackish-water Sarotherodon melanotheron melanotheron, which have attractive patterns and are quite decorative.^[16]

See also

• Tilapia in aquaculture

Footnotes

1. Chapman, Frank A. (1992). "Culture of Hybrid Tilapia: A Reference Profile". Circular 1051. University of Florida, Institute of Food and Agricultural Sciences. Retrieved 2007-08-17. {{cite web}}: Unknown parameter |month= ignored (help)
2. "Genera Summary: Tilapia". Catalog of Fish - W.N. Eschmeyer; California Academy of Sciences. FishBase. 2007. Retrieved 2007-08-17. {{cite web}}: Unknown parameter |month= ignored (help)
3. Matthew 17:24−27
4. Baker, Jenny (1988). Simply Fish. London: Faber & Faber. p. 197.
5. Rosencrans, Joyce (2003-07-16). "Tilapia is a farmed fish of biblical fame". The Cincinnati Post. E. W. Scripps Company. Archived from the original on 2006-02-18. Retrieved 2007-08-25. {{cite news}}: More than one of |author= and |last= specified (help)
6. FAO Fishery Information, Data and Statistics Service (1993). "Aquaculture production (1985-1991)". FAO Fisheries Circular. 815. FAO: 20–21.
7. Fessehaye, Yonas (2006). Natural mating in Nile tilapia (Oreochromis niloticus L.) Implications for reproductive success, inbreeding and cannibalism (PDF). Wageningen: Wageningen UR. pp. 150 pp. ISBN 90-8504-540-1.
8. GO FISH, Egyptian Style - Ag Innovation News
9. Commercial rasied and processed Tilapia
10. Mercury Levels in Commercial Fish and Shellfish, USFDA, May 2001; Updated February 2006
11. [1], Global Invasive Species Programme, Invasive Species Information, Tilapia
12. [2], IUCN/Species Survival Commmision, Invasive Species Specialist Group, 100 of the World's Worst Alien Invasive Species
13. [3], Global Invasive Species Database, Tilapia
14. [4]
15. Petr, T (2000). "Interactions between fish and aquatic macrophytes in inland waters. A review". FAO Fisheries Technical Papers 396. {{cite journal}}: Italic or bold markup not allowed in: |journal= (help)
16. "Keeping Tilapia in Aquariums". Tilapia. AC Tropical Fish. 2008. Retrieved 2009-01-19.

References

• FAO Fishery Information, Data and Statistics Service (1993). "Aquaculture production (1985-1991)". FAO Fisheries Circular. 815. FAO: 20–21.
• Trewavas, Ethelwynn (1983): Tilapiine fish of the genera Sarotherodon, Oreochromis and Danakilia. Published by the British Museum (Natural History), London. 583 pages. ISBN 0-565-00878-1

External links

• Tilapia en Hidalgo