The ocean sunfish, Mola mola, or common mola, is the heaviest known bony fish in the world. It has an average adult weight of 1,000 kg (2,200 lb). The species is native to tropical and temperate waters around the globe. It resembles a fish head with a tail, and its main body is flattened laterally. Sunfish can be as tall as they are long when their dorsal and ventral fins are extended.
Sunfish live on a diet that consists mainly of jellyfish, but because this diet is nutritionally poor, they consume large amounts in order to develop and maintain their great bulk. Females of the species can produce more eggs than any other known vertebrate. Sunfish fry resemble miniature pufferfish, with large pectoral fins, a tail fin and body spines uncharacteristic of adult sunfish.
Adult sunfish are vulnerable to few natural predators, but sea lions, orcas and sharks will consume them. Among humans, sunfish are considered a delicacy in some parts of the world, including Japan, the Korean peninsula and Taiwan, but sale of their flesh is banned in the European Union. Sunfish are frequently, though accidentally, caught in gillnets, and are also vulnerable to harm or death from encounters with floating trash, such as plastic bags.
A member of the order Tetraodontiformes, which also includes pufferfish, porcupinefish and filefish, the sunfish shares many traits common to members of this order. It was originally classified as Tetraodon mola under the pufferfish genus, but it has since been given its own genus, Mola, with two species under it. The ocean sunfish, Mola mola, is the type species of the genus.
Naming and Taxonomy
Many of the sunfish's various names allude to its unique flattened shape. Its specific name, mola, is Latin for "millstone", which the fish resembles because of its grey colour, rough texture, and rounded body. Its common English name, sunfish, refers to the animal's habit of sunbathing at the surface of the water. The Dutch-, Portuguese-, French-, Spanish-, Russian- and German-language names, respectively maanvis, peixe lua, poisson lune, pez luna, рыба-луна and Mondfisch, mean "moon fish", in reference to its rounded shape. In German, the fish is also known as Schwimmender Kopf, or "swimming head," In Polish it is named samogłów meaning "head alone" because it has no true tail. The Chinese translation of its academic name is fan-che pufferfish, meaning "toppled car" pufferfish. In 2002, after Taiwan's Hualien County decided to promote the fish officially, a general public vote was held, in which the name "mambo fish" was selected. The ocean sunfish has various superseded binomial synonyms, and was originally classified in the pufferfish genus, as Tetraodon mola. It is now placed in its own genus, Mola, with two species: Mola mola and Mola ramsayi. The ocean sunfish, Mola mola, is the type species of the genus.
The Mola genus belongs to the Molidae family. This family comprise 3 genera: Masturus, Mola and Ranzania. The common name "sunfish" without qualifier is used to describe the Molidae marine family as well as the freshwater sunfishes in the family Centrarchidae which are unrelated to Molidae. On the other hand, the name "ocean sunfish" and "mola" refer only to the family Molidae.
The Molidae family belongs to the order Tetraodontiformes, which includes pufferfish, porcupinefish and filefish. It shares many traits common to members of this order, including the four fused teeth that form the characteristic beak and give the order its name (tetra=four, odous=tooth, and forma=shape). Indeed, sunfish larvae resemble spiky pufferfish more than they resemble adult molas.
The ocean sunfish resembles a fish head with a tail. Its caudal fin is replaced by a rounded clavus, creating the body's distinct shape. The main body is flattened laterally, giving it a long oval shape when seen head-on. The pectoral fins are small and fan-shaped. However, the dorsal fin and the anal fin are lengthened, often making the fish as tall as it is long. Specimens up to 3.2 m (10.5 ft) in height have been recorded.
The ocean sunfish has an average length of 1.8 m (5.9 ft), and an average weight of 1,000 kg (2,200 lb), although individuals up to 3.3 m (10.8 ft) in length 4.2 m (14 ft) across the fins and weighing up to 2,300 kg (5,100 lb) have been observed.
The spinal column of M. mola contains fewer vertebrae and is shorter in relation to the body than that of any other fish. The spinal cord of a specimen measuring 2.1 m (6.9 ft) in length is under 25 mm (1 in) long. Even though sunfish descended from bony ancestors, its skeleton actually contains largely cartilaginous tissues, which are lighter than bone, allowing it to grow to sizes impractical for other bony fishes.  This is also illustrated by the fact that the largest fish in existence today is the whale shark, an entirely boneless fish.
The sunfish lacks a swim bladder. Some sources indicate that the internal organs contain a concentrated neurotoxin, tetrodotoxin, like the organs of other poisonous tetraodontiformes, while others dispute this claim.
In the course of its evolution, the caudal fin (tail) of the sunfish disappeared, to be replaced by a lumpy pseudo-tail, the clavus. This structure is formed by the convergence of the dorsal and anal fins. The smooth-denticled clavus retains twelve fin rays, and terminates in a number of rounded ossicles. Without a true tail to provide thrust for forward motion and equipped with only small pectoral fins, Mola mola relies on its long, thin dorsal and anal fins for propulsion, driving itself forward by moving these fins from side to side.
Ocean sunfish often swim near the surface, and their protruding dorsal fins are sometimes mistaken for those of sharks. However, it is possible to distinguish a shark from a sunfish, by observing the trajectory made by the dorsal fin on the surface, while the fish itself moves underwater and remains unseen. Sharks, like most fish, swim by waving the tail sideways while keeping the dorsal fin moving in a straight line. The sunfish, on the other hand, swings its dorsal fin and anal fin in its characteristic sculling motion. Thus, the sideways movement of the dorsal fin on the surface can be used to identify the sunfish.
Adult sunfish range from brown to silvery-gray or white, with a variety of mottled skin patterns; some of these patterns may be region-specific. Colouration is often darker on the dorsal surface, fading to a lighter shade ventrally as a form of counter-shading camouflage. Mola mola also exhibits the ability to vary skin colouration from light to dark, especially when under attack. The skin, which contains large amounts of reticulated collagen, can be up to 3 in (7.6 cm) thick on the ventral surface, and is covered by denticles and a layer of mucus instead of scales. The skin on the clavus is smoother than that on the body, where it can be as rough as sandpaper.
More than 40 species of parasites may reside on the skin and internally, motivating the fish to seek relief in a number of ways.  In temperate regions, drifting kelp fields harbour cleaner wrasses and other fish which remove parasites from the skin of visiting sunfish. In the tropics, the mola will solicit cleaner help from reef fishes. By basking on its side at the surface, the sunfish also allows seabirds to feed on parasites from their skin. Sunfish have been reported to breach more than ten feet above the surface, possibly as another effort to dislodge parasites on the body.
Range and behaviour
Ocean sunfish are native to the temperate and tropical waters of every ocean in the world. Mola genotypes appear to vary widely between the Atlantic and Pacific, but genetic differences between individuals in the northern and southern hemispheres are minimal.
Sunfish are pelagic and swim at depths of up to 600 m (2,000 ft). Contrary to the general perception that sunfish spend much of their time basking at the surface, research suggests that adult M. mola actually spend a large portion of their lives submerged at depths greater than 200 m (660 ft), occupying both the epipelagic and mesopelagic zones.
They usually stay in water warmer than 10 °C (50 °F). In fact, prolonged periods spent in water at temperatures of 12 °C (54 °F) or lower can lead to disorientation and eventual death. Researchers theorize that the basking behaviour at the surface, in which the sunfish swims on its side presenting its largest profile to the sun, may be a method of "thermally recharging" following dives into deeper, colder water.   Others point to sightings of the fish in colder waters such as those southwest of England outside of its usual habitat as evidence of increasing marine temperatures.
Sunfish are usually found alone, but occasionally in pairs or in large groups while being cleaned. They swim primarily in open waters, but are sometimes seen near kelp beds taking advantage of resident populations of smaller fish which remove ectoparasites from their skin. Because sunfish must consume a large volume of prey, their presence in a given area may be used as an indicator of nutrient-rich waters where endangered species may be found.
The diet of the ocean sunfish consists primarily of various jellyfish (similar to the diet of a leatherback turtle). Additionally, it consumes salps, comb jellies, zooplankton, squid, crustaceans, small fishes, fish larvae, and eel grass. This diet is nutritionally poor, forcing the sunfish to consume large amount of food to maintain its size. The range of food items found inside sunfish indicates that the sunfish feeds at many levels, from the surface to deep water, and occasionally down to the seafloor in some areas.
The sunfish can spit out and pull in water through its small mouth to tear apart soft-bodied prey. Its teeth are fused into a beak-like structure, allowing it to break up harder organisms. In addition, pharyngeal teeth located in the throat grind food into smaller pieces before passing them to the stomach.
Ocean sunfish may live up to ten years in captivity, but their lifespan in a natural habitat has not yet been determined. Their growth rate is also indeterminate. However, it is known that a young specimen at the Monterey Bay Aquarium increased in weight from 26 to 399 kg (57 to 880 lb) and reached a height of nearly 1.8 m (5.9 ft) in fifteen months.
The sheer size and thick skin of an adult of the species deters many smaller predators, but younger individuals are vulnerable to predation by bluefin tuna and mahi mahi. Adults are consumed by sea lions, orcas and sharks. Sea lions appear to hunt sunfish for sport, tearing the fins off, tossing the body around, and then simply abandoning the still-living but helpless fish to die on the seafloor.
The mating practices of the ocean sunfish are poorly understood, but spawning areas have been suggested in the North Atlantic, South Atlantic, North Pacific, South Pacific, and Indian Oceans. Females can produce as many as 300 million eggs at a time, more than any other known vertebrate. Sunfish eggs are released into the water and externally fertilized by sperm.
Newly hatched sunfish larvae are only 2.5 mm (0.098 in) long. They grow to become fry, and those which survive grow many millions of times their original size before reaching adult proportions. Sunfish fry, with large pectoral fins, a tail fin and body spines uncharacteristic of adult sunfish, resemble miniature pufferfish, their close relatives. Young sunfish school for protection, but this behaviour is abandoned as they grow.
Despite their size, ocean sunfish are docile, and pose no threat to human divers. Injuries from sunfish are rare, although there is a slight danger from large sunfish leaping out of the water onto boats; in one instance a boy was knocked off his boat when a sunfish leaped onto it. Areas where they are commonly found are popular destinations for sport dives, and sunfish at some locations have reportedly become familiar with divers. In fact, the fish is more threatening to boaters than swimmers, as its immense size and weight can cause significant damage when struck by watercraft. Collisions with sunfish are very common in some parts of the world and may cause damage to the hull of a boat, and their bodies can become lodged in the propellers of larger ships..
The meat of the ocean sunfish is considered a delicacy in some regions, the largest markets being Taiwan and Japan. All parts of the sunfish are used in cuisine, from the fins to the internal organs. Some parts of the fish are used in some areas of traditional medicine.
Sunfish are accidentally but frequently caught in drift gillnet fisheries, making up nearly 30% of the total catch of the swordfish fishery employing drift gillnet in California. The by-catch rate is even higher for the Mediterranean swordfish industry, with 71% to 90% of the total catch being sunfish.
The fishery by-catch and destruction of ocean sunfish are unregulated worldwide. In some areas, the fish are "finned" by fishermen who regard them as worthless bait thieves. This process, in which the fins are cut off, results in the eventual death of the fish, because it can no longer propel itself without its dorsal and anal fins. The species is also threatened by floating litter such as plastic bags which resemble jellyfish, its main diet. Bags can choke and suffocate an individual or fill its stomach to the extent that it starves.
Many areas of sunfish biology remain poorly understood, and various research efforts are underway, including aerial surveys of mola populations, satellite surveillance using pop-off satellite tags, genetic analysis of tissue samples, and collection of amateur sighting data. Recent studies indicate a decrease in sunfish populations that may be caused by more frequent bycatch and the increasing popularity of sunfish in human diet.
Sunfish in captivity
Sunfish are not widely held in aquarium exhibits, due to the unique and demanding requirements of their care. Some Asian aquariums display them, particularly in Japan. The Kaiyukan Aquarium in Osaka, Japan, is one of few aquariums with mola on display, where it is reportedly as popular an attraction as the larger whale sharks. The Lisbon Oceanarium in Portugal is another aquarium where sunfish are showcased in the main tank, and in Spain, both the Barcelona Aquarium and L'Oceanogràfic in Valencia have excellent specimens.
The first ocean sunfish to be held in an aquarium in the United States arrived at the Monterey Bay Aquarium in August 1986. Because sunfish had not been kept in captivity on a large scale before, the staff at Monterey Bay were forced to innovate and create their own methods for capture, feeding, and parasite control. By 1998, these issues were overcome, and the aquarium was able to hold a specimen for more than a year, later releasing it after its weight increased by more than fourteen times. Mola mola have since become a permanent feature of the Outer Bay exhibit. Monterey Bay Aquarium's largest sunfish specimen was euthanized on February 14, 2008 after an extended period of poor health.
As the ocean sunfish is not highly maneuverable, preventing specimens from injuring themselves by rubbing against the walls of a tank is of major concern to curators. In a smaller tank, hanging a vinyl curtain has been used as a stopgap measure to convert a cuboid tank to a rounded shape and prevent the fish from scraping against the sides. A more effective solution is simply to provide enough room for the sunfish to swim in wide circles. The tank must also be sufficiently deep to accommodate the vertical height of the sunfish, which can be nearly as tall as it is long, and may reach a height of 3.2 m (10 ft).
Feeding captive sunfish in a tank with other faster-moving, more aggressive fish can also present a challenge. Eventually, the fish can be taught to feed from the end of a pole or from human hands.
Notes and references
- ^ a b c d e f g h i Thys, Tierney. "Molidae Descriptions and Life History". OceanSunfish.org. http://www.oceansunfish.org/lifehistory.html. Retrieved 2007-05-08.
- ^ "Council Directive 91/493/EEC of 22 July 1991 laying down the health conditions for the production and the placing on the market of fishery products". Official Journal of the European Union. http://eur-lex.europa.eu/smartapi/cgi/sga_doc?smartapi!celexapi!prod!CELEXnumdoc&lg=EN&numdoc=31991L0493&model=guichett. Retrieved 2007-05-29.
- ^ Species of Mola. FishBase. Ed. Ranier Froese and Daniel Pauly. June 2007 version. N.p.: FishBase, 2007.
- ^ Parenti, Paolo (September 2003). "Family Molidae Bonaparte 1832: molas or ocean sunfishes" (PDF). Annotated Checklist of Fishes (electronic journal) 18. ISSN 1545-150X. http://www.calacademy.org/RESEARCH/ichthyology/annotated/checklists/Molidae.pdf. Retrieved 2007-07-07.
- ^ Bass, L. Anna; Heidi Dewar, Tierney Thys, J. Todd. Streelman and Stephen A. Karl (July 2005). "Evolutionary divergence among lineages of the ocean sunfish family, Molidae (Tetraodontiformes)" (PDF). Marine Biology 148 (2): 405–414. doi:10.1007/s00227-005-0089-z. http://www.oceansunfish.org/MolageneticsMarBio05.pdf. Retrieved 2007-06-26.
- ^ Thys, Tierney. "Molidae information and research (Evolution)". OceanSunfish.org. http://www.oceansunfish.org/evolution.html. Retrieved 2007-06-26.
- ^ a b c Juliet Rowan (November 24 2006). "Tropical sunfish visitor as big as a car". The New Zealand Herald. http://www.nzherald.co.nz/section/story.cfm?c_id=1&objectid=10412167. Retrieved 2007-05-08.
- ^ Wood, The Guinness Book of Animal Facts and Feats. Sterling Pub Co Inc (1983), ISBN 978-0851122359
- ^ a b c d e "Mola mola". FishBase. Ed. Ranier Froese and Daniel Pauly. March 2006 version. N.p.: FishBase, 2006.
- ^ a b c d e f g h i j "Mola mola program - Life History". Large Pelagics Research Lab. http://www.tunalab.unh.edu/molalifehistory.htm. Retrieved 2007-05-11.
- ^ a b c d e f g h i "Online Field Guide - Ocean sunfish". Monterey Bay Aquarium. http://www.montereybayaquarium.com/efc/living_species/default.asp?hOri=0&hab=8&inhab=130. Retrieved 2007-05-11.
- ^ a b c d e Thys, Tierney. "Ongoing Research". OceanSunfish.org. http://oceansunfish.org/research.html. Retrieved 2007-06-11.
- ^ "Strange tail of the sunfish". The Natural History Museum. http://www.nhm.ac.uk/about-us/news/2006/feb/news_7758.html. Retrieved 2007-05-11.
- ^ Johnson, G. David; Ralf Britz (October 2005). "Leis' Conundrum: Homology of the Clavus of th