The hieroglyph is now number K1 on Gardiner’s Sign List, a list of common Egyptian hieroglyphs compiled by British Egyptologist Sir Alan Gardiner. When used as a logogram, this hieroglyph represented a Nile tilapia. When used as a determinative (ideogram), it could signify not only Nile tilapia, but flathead mullets as well. Just like the Nile tilapias, flathead mullets were important food fishes in Ancient Egypt.
Tilapia is a large genus in the cichlid family (Cichlidae). It used to be even larger, but quite a few species have now been moved from Tilapia to other genera in the cichlid family, primarily the genera Oreochromis and Sarotherodon. For historical reasons, these moved species are still commonly referred to as tilapia fish in everyday speech. The genus Tilapia, as well as closely related genera like Oreochromis and Sarotherodon, belongs to the tribe Tilapiini in the subfamily Pseudocrenilabrinae.
Tilapia is a popular food fish and many species can easily be cultivated in ponds. It has been an important source of protein Africa and the Levant for thousands of years and the Ancient Egyptians cultivated tilapia in ponds along the Nile. The fish even has its very own hieroglyph.
Today, tilapia is a popular food fish all over the world and it is also kept in aquariums. Two of the most popular species among aquarists are Zebra tilapia / Tiger tilapia (Tilapia buttikoferi) and Spotted Tilapia (Tilapia mariae). When it comes to tilapia farming, species such as Nile tilapia (Oreochromis niloticus) and Mozambique tilapia (Oreochromis mossambicus) are appreciated since they grow fast and refrain from breeding until they are comparatively old.
The Blue tilapia (Oreochromis aureus) is also commonly cultivated by farmers since it is one of the most cold tolerant species of tilapia. Wami tilapia (Oreochromis urolepis hornorum) is a good choice for farmers that wish to utilize brackish environments since it is salt tolerant.
The traditional way of farming tilapia is in ponds where the fish can make use of naturally occurring food. In many parts of the world, farm animals such as chicken and pigs are raised in conjunction with the fish ponds since their manure can be used to make the pond richer in tilapia food. During the 20th century, two new methods for farming tilapia developed: tank farming and cage farming. All three types of farming come with their own pros and cons which you can read more about on this site.
In order to make tilapia fish more suitable for farming and more attractive on the food market, many different hybrids and strains have been developed by tilapia breeders. Today, you can for instance purchase red tilapia fish in the grocery store and farmers can avoid uncontrolled tilapia reproduction in their growing units by purchasing all-male batches of fry. Interestingly enough, hybridization between certain species and certain strains leads to a really skewed sex ratio in tilapia.
Since tilapia is such a popular food fish it has been introduced to many different parts of the world and is now found in the wild on all continents except Antarctica. Sometimes it has been deliberately introduced as food fish to lakes and other bodies of water, sometimes fish have managed to escape from fish farms. Tilapia has also been introduced in order to combat mosquitoes and aquatic weeds. Since many tilapia species are highly adaptable it is easy for them to thrive in their new homes and tilapia have become a problematic invasive species in several countries
Tilapia has been raised as food for human consumption for a long time; tilapia farming is believed to have originated some 2,500 years ago. Tilapias have also been transplanted to many countries outside their native range and are now farmed worldwide. In the United States, commercial culture of tilapia is concentrated in Arizona, California, and Florida. It is not clear, however, what species of tilapia are under cultivation. A collection of hybrid stocks currently constitute the bulk of the commercial production. The hybrids under cultivation are female mouth-brooders and believed to have originated from genetic crosses of predominantly blue tilapia (O. aureus) and ancillary O. niloticus, O. mossambicus, and O. hornorum species. Two popular hybrids are the Florida red, a species cross between O. aureus and O. mossambicus, and the hybrid between the O. aureus and O. niloticus tilapias. The aurea strain is principally used because of its tolerance to cold water temperatures.
Tilapia are known for their ability to sexually mature at a small size, around 8-10 cm (3-4 in.) in body length, and a young age (sometimes when 2-3 months old). Adult fish are known to live six to eight years, but some fish eleven to twelve years of age have been reported. In temperate regions, the spawning season of tilapia usually begins during the spring months when water temperatures rise, and spawning continues throughout the year as long as water temperatures are above 22°C (72°F).
As mentioned above, tilapia have an elaborate breeding behavior and are substrate nest builders. In most cases, males establish and aggressively defend territories. Nests are built in the form of shallow pits in the pond bottom, and are used for courting and spawning. After the female releases her eggs and fertilization takes place, most parent tilapia will pick up the eggs from the nest, incubate, and protect their young in their mouths (mouth brooders). A few species will leave the eggs on the spawning substrate and incubate the embryos by fanning water through them with their fins.
Depending on age, body size, and mode of egg incubation, female tilapia has a large variation in the number of eggs they produced. Blue female tilapia are reported to lay around 9-10 eggs per gram of body weight (around 4,500 eggs/pound). The eggs of hybrid tilapia are yellow-brown in color; egg shaped, and will sink to the bottom when spawned. The eggs vary in size from an average of 2 to 4 mm (0.08-0.16 in.) in diameter, depending on the species and number of spawns.
After fertilization, eggs hatch in 2 to 4 days, depending on water temperature. Newly-hatched embryos absorb their yolks in 3 to 4 days. The free-swimming young are then protected by their parents for several days. In mouth-brooding tilapias, incubation, hatching, and care of the young may last a period of about three weeks. After yolk absorption, young tilapias actively feed on a varied diet, such as plankton and detritus.