Orange clownfish
196448
220466978
2008-06-20T00:22:37Z
Esoxid
5979608
Corrected change in number of eggs laid per cycle. 5900-12300 is incorrect.
{{Taxobox
| name = Orange clownfish
| image = Amphiprion percula.JPG
| image_width = 250px
| regnum = [[Animal]]ia
| phylum = [[Chordate|Chordata]]
| classis = [[Actinopterygii]]
| ordo = [[Perciformes]]
| familia = [[Pomacentridae]]
| genus = ''[[Amphiprion]]''
| species = '''''A. percula'''''
| binomial = ''Amphiprion percula''
| binomial_authority = ([[Bernard Germain Étienne de la Ville, Comte de Lacépède|Lacepède]], [[1802]])
}}
The '''orange clownfish''' (''Amphiprion percula''), or true clownfish, is a popular [[aquarium]] fish. Like other [[clownfish]] (also called anemonefish), it often lives in association with [[sea anemone]]s. ''[[Amphiprion percula|A. percula]]'' is associated specifically with ''[[Heteractis magnifica]]'' and ''[[Stichodactyla gigantea]]'', and as larva use chemical cues released from the anemones to identify and locate the appropriate host species to use them for shelter and protection.<ref>Elliot, J.K., Elliot, J.M., Mariscal, R.N. 1995. “Host selection, location, and association behaviors of anemonefishes in field settlement experiments.” Marine Biology. Vol. 122:377-389.</ref> Although popular, maintaining this species in captivity is rather complex. The [[Great Barrier Reef Marine Park Authority]] regulates the number of collection permits that are issued to aquarium fish dealers who seek this, and other tropical fish within the [[Great Barrier Reef Marine Park]].
The [[commensalism]] between anemonefish and anemones depends on the presence of the fish drawing other fish to the anemone, where they are stung by its venomous [[tentacle]]s. The anemone helps the fish by giving it protection from predators, which include [[brittle star]]s, [[wrasse]]s, and other [[damselfish]], and the fish helps the anemone by feeding it, increasing oxygenation, and removing waste material from the host. Various hyptheses exist about the fish's ability to live within the anemone without being harmed. One study carried out at Marineland of the Pacific by Dr. Demorest Davenport and Dr. Kenneth Noris in 1958 revealed that the mucus secreted by the anemone fish prevented the anemone from discharging its lethal stinging [[nematocyst]]s. A second hypothesis is that ''[[Amphiprion percula|A. percula]]'' has acquired immunity towards the sea anemone’s toxins, and it has been shown experimentally to be a combination of the two.<ref>Mebs, D. 1994. “Anemonefish Symbiosis: Vulnerability and Resistance of Fish to the Toxin of the Sea Anemone.” Toxicon. Vol. 32(9):1059-1068.</ref> The fish feeds on [[algae]], [[zooplankton]], [[worm]]s, and small [[crustacean]]s.
==Description==
This anemonefish can be recognized by its bright orange color with three white bands outlined with a thin black border, and black markings on the fins. It grows to be about 8 cm in length. This species can be mistaken for the similar species of clownfishes called the [[Ocellaris clownfish|Ocellaris clownfish]], sometimes referred to as the "false clownfish," or "common clownfish," due to its similar color and pattern. The "easiest" way to distinguish the two species is the fact that ''[[Amphiprion percula|A. percula]]'' has 10 spines in the first [[dorsal fin]] and ''[[Ocellaris clownfish|A. ocellaris]]'' has 11.
==Reproduction==
Since these fish live in a warm water environment they can reproduce all year long. Each group of fish consists of a breeding pair and 0-4 non-breeders. Within each group there is a size-based hierarchy: the female is largest, the breeding male is second largest, and the male non-breeders get progressively smaller as the hierarchy descends. If the female dies, the male changes sex, becomes the breeding female and the largest non-breeder becomes the breeding male. The fish apparently form lifetime pairs, exhibit courting behavior, and depending on the size of the female spawn about 400-1500 eggs per cycle.<ref>Alava, Veronica R., Gomes, Luiz. “Breeding Marine Aquarium Animals: The Anemonefish.” Naga, The ICLARM Quarterly. July 1989: 12-13.</ref> The expected tenure of breeding females is approximately 12 years and is relatively long for a fish of its size, but is characteristic of other reef fish.<ref>Buston, P. 2004. “Does the presence of non-breeders enhance the fitness of breeders? An experimental analysis in the clown anemonefish Amphiprion percula.” Behavioral Ecology and Sociobiology. Vol. 57:23-31.</ref>
It has been unclear why the non-breeders continue to associate with these groups. Unlike non-reproductives in some animal groups, they cannot obtain occasional breeding opportunities, because their [[gonad]]s are non-functional. They cannot be regarded as [[helpers at the nest]], since it has been found their presence does not increase the reproductive success of the breeders. Recent research (Buston, 2004) suggests that they are simply queuing for the [[territory (animal)|territory]] occupied by the breeders, i.e. the anemone; non-breeders living in association with breeders have a better chance of eventually securing a territory than a non-resident.<ref>Buston, P. M. 2004. "Territory Inheritance in clownfish." Proceedings of the Royal Society of London Biological Sciences. Vol. 271:S252-S254.</ref> The probability of a fish ascending in rank in this queue is equal to that of the individual outliving at least one of its dominants because an individual will ascend in rank if any one of its dominants dies, and not simply when its immediate dominant dies.<ref>Buston, P. M. 2004. "Territory Inheritance in clownfish." Proceedings of the Royal Society of London Biological Sciences. Vol. 271:S252-S254.</ref>
The development of the fish from juvenile to adult is dependent on the system of hierarchy, and can be described as density-dependent. There is aggression involved in these small families although usually not between the male and the females. The aggression usually is between the males. The largest male will suppress the development of the next smallest male and the cycle continues until the smallest fish is evicted from the host anemone. Within each anemone, the regulation of the species is controlled by the female, since the amount of space for fish in her anemone is directly proportional to her size (which eventually reaches a maximum), so she ultimately controls the size of the other fish.<ref>Fautin, Daphne G. 1992. “Anemonefish Recruitment: The Roles of Order and Chance” Symbiosis. Vol. 14:143-160.</ref> ''[[Amphiprion percula]]'' are very competitive fish and this causes the smaller fish to have a stunted growth. There is the potential for a fish to ascend in rank by contesting its dominant. That depends on the relative body sizes of the two fish, and is very unlikely to happen since A. Percula maintain well-defined size differences between adjacent individuals in rank.<ref>Buston, P. M. 2004. "Territory Inheritance in clownfish." Proceedings of the Royal Society of London Biological Sciences. Vol. 271:S252-S254.</ref> However in an [[aquarium]], this fish is peaceful, and it can live in an aquarium environment well.
The fish lay their eggs in a safe spot close to the anemone from where they are easily protected, and the parents can retreat to the safety of the anemone if danger threatens. Anemonefish usually lay their nests in the evening after a few days of carefully cleaning and examining the chosen site. Preferred egg sites are flat or slightly curved rocks or some other item the fish have dragged near their nest for the purpose. (In captivity, clay pots and saucers are an attractive choice.) First the female deposits some eggs with her [[ovipositor]] (a whitish tube descending from her belly), making a wiggling pass over the surface, then the male follows behind her fertilizing the eggs. After many passes, the nest is complete and will hatch in 6-8 days shortly after sunset, usually on a very dark night. In the meantime, the male is very protective of the nest and ceaselessly fans the eggs to provide proper oxygen circulation, and checks them for any bad eggs, which he eats before they can rot and damage more eggs. Females may or may not help the male tend the nest. At hatching, the larvae burst free and swim up toward the moonlight and the open ocean to ride the currents and eat plankton for about a week, before the still tiny metamorphosed clowns return to the reef and look for an anemone to settle into. Eventually the cycle repeats.
==References==
<div class="references-small"><references /></div>
[[Category:Pomacentridae]]
[[Category:Aquatic ecology]]
[[hu:Narancs bohóchal]]
[[no:Amphiprion percula]]