Giant sunfish explained

The giant sunfish or bumphead sunfish (Mola alexandrini), (also known as the Ramsay's sunfish, southern sunfish, southern ocean sunfish, short sunfish or bump-head sunfish in various parts of the world),[1] is a fish belonging to the family Molidae. It is closely related to the more widely known Mola mola, and is found in the Southern Hemisphere.[2] With a specimen found dead near the Azores in 2021 weighing in at 2744 kg (6049 lb) it is the largest extant bony fish species in terms of maximum recorded mass by a wide margin. It can be found basking on its side occasionally near the surface, which is thought to be used to re-heat themselves after diving in cold water for prey, recharge their oxygen stores, and attract gulls to free them of parasites.

Taxonomy

In December 2017, it was demonstrated that Mola alexandrini may be a senior synonym of Mola ramsayi (Giglioli 1883) through both historically and newly published morphological data.[3] In July 2020, building upon this scientific learning, the larval forms of these species were discovered for the first time and confirmed with DNA analyses by Australian and New Zealand scientific teams.[4] [5] [6] [7]

The ocean sunfish are in the genus Mola, currently composed of three species: Mola mola, Mola alexandrini, Mola tecta.[8] Also known as the southern ocean sunfish or southern sunfish, Mola alexandrini are commonly found in the epipelagic zone of the ocean, where enough light penetrates for photosynthesis to occur, although recent studies also suggest they may also be more common in deep waters.[9] [10]

Camillo Ranzani named Mola alexandrini in honour of his contemporary Antonio Alessandrini, a teacher of comparative anatomy and veterinary science at the University of Bologna.[11]

Description

Mola alexandrini has a relatively small mouth, and its teeth are fused into a parrot-like beak. It can reach up to 3.3m (10.8feet) in length and 2700kg (6,000lb) in mass, making it the heaviest bony fish.[12] [13] Their bodies are flat and round, with large fins that they swish back and forth to propel themselves with as they swim horizontally. Their skin has rough denticles and a leathery texture, with brown and gray coloring with pale blotches; at death, their scales turn white.[14] The body has a thick white subcutaneous gelatinous layer that is smooth to the touch, with a laterally compressed body covered in small rectangular scales. All mola species have no caudal bones, ribs, or pelvic fins, and have fused vertebrae, leaving only their median fins to propel themselves.[15] Mola alexandrini can be distinguished from Mola mola by its smaller number of ossicles and lack of a vertical band of denticles at its base.[1] In Mola, the lower jaws are intact while the upper jaws are slightly forked.[16] On the head, the lateral lines have small, white, rounded otoconia. On the sides are small gill openings covered by a soft gill membrane and gill rakers, which are covered under a subcutaneous gelatinous layer. All fins are spineless and triangular. Pectoral fins are small and rounded, located midlaterally fitting into shallow grooves on sides of the bod, and dorsal fins are located on both sides of the anal fin.[3]

M. alexandrini can be distinguished by its unique characteristics of head bump, a chin bump, rectangular body scales, and rounded clavus. Although adult sunfish look generally similar, they are distinguishable using seven characteristics: number of clavus fin rays, number of clavus ossicles, shape of clavus margin, presence of head bump, proportion of body length compared to body height,[17] shape of body scales,[18] and the presence of a chin bump.[19]

Alongside these species, there are no external differences between sexes; internally, however, the gonads differ in shape, with females having a single spherical ovary and males having a pair of elongated, rod-like testes.[3]

Overall, the maximum recorded weight of M. alexandrini is 2,744 kg (6049 lb) from a 325-cm-length (10.66 ft) specimen caught off the coast of Faial Island, Azores, Portugal in late 2021.[20] With these records, this specimen is currently regarded as the world's heaviest bony fish specimen. It exceeds by nearly half a ton (444 kg, 979 lb) the largest previously known specimen (2300 kg, 5070 lb), caught off Kamogawa, Japan in 1996.[21]

Distribution

Mola alexandrini has been found all over the globe and is widely distributed throughout the world's oceans, except for the polar regions. These species have been collected from waters off Japan, Taiwan, the Galapagos Islands, New Zealand, Australia, Turkey, Oman, and Spain.[3] It can be found in the southwest Pacific, especially around Australia and New Zealand, and the southeast Pacific around Chile. Its range also extends to the southeast Atlantic near South Africa. During seasonal changes in climate on the Pacific side of Japan, M. alexandrini moves northwards in the summer and southwards in the winter.[22] Seasonal migration is driven by temperature differences and productive frontal areas.[23]

Habitat

Although members of the genus Mola are found in many oceans throughout the world, this species thrives best in the open ocean of tropical and temperate seas, preferring warmer temperatures ranging from 16.8 C to 25.6 C (62.24 F to 78.08 F), averaging 19.9 C (67.82 F) . Many encounters with this species are linked to the influence of ocean currents.[24] Based on their immediate environment, sunfish have different movement patterns. During the nighttime, these species stay in the same areas, but during the daytime, they stay below the thermocline. Vertical movement patterns correlated with thermocline depth, and they differed from December to May.[23]

Development

As M. alexandrini fry age, they undergo a number of physical changes. This includes a head bump forming from above the eyes to the front of the dorsal-fin base, and a chin bump developing from beneath the lower jaw to beneath the pectoral fins. Additionally, developing with age are lateral ridges from above the head and below the eyes to beyond the pectoral fins. Characteristics that distinguish Mola alexandrini from other species in genus Mola are clavus ossicles, a snout ossicle and a chin ossicle that develop further over time.[3] When eggs hatch, larva specimens range between 1.42 and 1.84 mm.[25] At 1.42 mm, they tend to display a globular shape. As they move into the pre-juvenile stage, specimens range between 5 mm to 59 mm. As they continue growing, their bodies take on the proportions of adults, including an elongated body. Once these species reach the juvenile stage, specimens are described to be as big as 305–750 mm in total length. As they mature, specimens reportedly reach 4000 mm with well-defined features, along with pigmentations of gray, olive, or black with a brown cast.[25]

Reproduction

Sunfish spawn in the outer circulation of the temperate Atlantic and Pacific Oceans, as well as in the Mediterranean Sea. The optimal time for sunfish to spawn in the wild is not known, but research has shown that spawning in fall or winter, especially during the month of September, results in bigger fish. Fertilization occurs when sperm and eggs are shed in the water.[26]  Being that sunfish are so large, a single adult female can produce 300 million eggs. Unfertilized eggs were measured at 0.42-0.45 mm in diameter.

Lifespan

Just like many other fish, high mortality rates are common for eggs, larvae, pre-juveniles, and small juveniles due to predators.[27] There have been few reports on predation of Mola species however, predation by fish are from families Scombridae, Carangidae, Coryphaenidae, Xiphiidae, and Alepisauridae. Although there is not much research on the lifespan of ocean sunfish, ocean sunfish reportedly take about 20 years to reach a length of 3 m (9.84 ft).[28]

Behavior

Sunfish swim by moving their dorsal and anal fins back and forth, both fins moving in the same direction at the same time. Adults are reported to travel mainly alone or in pairs, and sometimes in groups. Migrating from one place to another requires high tolerance and it is found that sunfish have high thermal tolerance undergoing quick and large temperature changes diving down the ocean several hundred meters. Sometimes, sunfish come up to the shallow water to recover from hypoxia from feeding below the thermocline. Like many other fish, sunfish adapt in response to the environment. During the day, sunfish tend to dive deeper than they do at night. At night sunfish preferred temperatures between 18–24 C (64–75 F), and moved to different areas during the day; vertical movements were correlated with temperature shifts.  Sunfish may dive deeper into cooler waters to cool the muscles or to repay oxygen debts.

Diet

They mainly consume jellyfish, which are of low nutritional content but abundant, and they will also eat brittle stars, small fish, plankton, algae, salps, and mollusks. Sunfish also feed on ctenophores, hydrozoans, and small crustaceans. Juvenile sunfish feed in coastal areas in the coastal food web while larger sunfish dive deeper. These species are active predators hunting in dynamic frontal systems.

Predation

Predators include tiger sharks and orcas, though attacks are rare. Shark predation on all species of sunfish is sporadic, suggesting that ocean sunfish are of low quality or unpleasant for tiger sharks. With smart tactics, tiger sharks can stalk and ambush their prey and are able to bite through the thick gelatinous dermis.

Ecosystem roles

The importance of ocean sunfish in marine food webs is unknown.[27] However, since ocean sunfish feed on gelatinous prey with a generalist diet, this suggests that these species play an important role in coastal food webs.[29] If sunfish were to be removed as bycatch, it can drive localized trophic cascades with top-down control being reduced.[30]

Economic importance for humans

Sunfish have economic value in tourism industries.[31] These fish make unpredictable appearances, but when they do appear, it is often a moment of excitement for tours and scuba divers. In locations like the Galapagos Islands and the Alboran Coast in the Mediterranean, sunfish are spotted frequently enough to have sunfish tours. Scuba diving tourism in Bali and the Nusa Penida islands has rapidly increased over the last few decades. Only a small number of fisheries target sunfish, including those in Taiwan and Japan. In Indonesia, sunfish are released, eaten by locals, used as bait, or end up at a fish market on rare occasions.[31]

Conservation status

The conservation status of M. alexandrini has not been evaluated, unlike M. mola. Fisheries around the world catch ocean sunfish as bycatch. M. mola was listed by the International Union for the Conservation of Nature (IUCN) as "vulnerable" due to the high level of estimated bycatch in South African longline fishery with an annual estimated 340,000 annual catches. Both M. mola and M. alexandrini were listed as "high risk" bycatch species in the longline fishery off eastern Australia. Threat levels are lower than what is stated on the IUCN listing in Australian, New Zealand, and South African fisheries. Currently, the Indonesian government's Ministry of Marine Affairs and Fisheries has placed sunfish on a plan for protection.[31]

Notes and References

  1. Diane J. Bray, 2011, Short Sunfish, or even. Mola ramsayi, in Fishes of Australia, accessed 02 Feb 2014, http://www.fishesofaustralia.net.au/home/species/784
  2. Web site: Molas - Mola - Overview - Encyclopedia of Life. Encyclopedia of Life.
  3. Sawai . Etsuro . Yamanoue . Yusuke . Nyegaard . Marianne . Sakai . Yoichi . 2017-12-05 . Redescription of the bump-head sunfish Mola alexandrini (Ranzani 1839), senior synonym of Mola ramsayi (Giglioli 1883), with designation of a neotype for Mola mola (Linnaeus 1758) (Tetraodontiformes: Molidae) . Ichthyological Research . 65 . 142–160 . 10.1007/s10228-017-0603-6 . 10364811 . 1341-8998.
  4. http://www.medianet.com.au/releases/189537; https://www.9news.com.au/national/giant-bumphead-sunfish-australian-museum-discovery-mola-larve/a1899741-912e-47bf-b5f8-eebe578e2c20
  5. Web site: Giant Sunfish larva identified for the first time - and it is tiny. 21 July 2020 .
  6. Web site: Scientists crack the enigmatic beginnings of the sunfish. 21 July 2020.
  7. Web site: Sunfish no more a quandary for scientists. 22 July 2020.
  8. Yasemi, M.; Nazari Bejgan, A. R. (2013) The first record of southern ocean sunfish, Mola ramsayi from Northern Oman Sea, Iran. Iranian Journal of Fisheries Sciences, 13, 242–246.
  9. Matsuura, K., 2002. Molidae. Molas (ocean sunfishes, headfishes). In Carpenter, K. E. (ed.)
  10. Phillips, N. D.; Harrod, C.; Gates, A. R.; Thys, T. M.; Houghton, J. D. R. (2015) Seeking the sun in deep, dark places: mesopelagic sightings of ocean sunfishes (Molidae). Journal of Fish Biology, 4, 1118–1126.
  11. Thys, T. M.; Hays, G. C.; Houghton, J. D. R. The Ocean Sunfishes: Evolution, Biology and Conservation. CRC Press, 2020, p. 29.
  12. News: Kuta . Sarah . This 6,000-Pound Sunfish Is the Largest Bony Fish on Record . 20 October 2022 . Smithsonian Magazine . 19 October 2022 . Weighing in at roughly 6,050 pounds—the size of a large SUV—the fish was 882 pounds heavier than the reigning bony fish world record-holder, a 5,070-pound sunfish discovered off the coast of Japan in 1996 ... They are related to ocean sunfish (Mola mola) but can be twice as heavy..
  13. Web site: World's heaviest bony fish identified and correctly named.
  14. Web site: Southern Ocean Sunfish, Mola ramsayi (Giglioli, 1883) - Australian Museum. australianmuseum.net.au. 2010-06-02. 2010-12-27. https://web.archive.org/web/20101227100737/http://australianmuseum.net.au/Southern-Ocean-Sunfish-Mola-ramsayi. dead.
  15. Tierney M. Thys . Jonathan Whitney . Alex Hearn . Kevin C. Weng . Cesar Pen Aherrera . L. Jawad . J. Alfaro-Shigueto . J.C. Mangel . Stephen A. Karl . First record of the southern ocean sunfish, Mola ramsayi, in the Galapagos Marine Reserve . Marine Biodiversity Records . 6 . 1–4 . 10.1017/S1755267213000377 . 2013 .
  16. Book: R. Accademia delle scienze dell'Istituto di Bologna . Novi Commentarii Academiae Scientiarum Instituti Bononiensis . R. Accademia delle scienze dell'Istituto di Bologna . 1839 . 3.
  17. Yoshita, Y.; Yamanoue, Y.; Sagara, K.; Nishibori, M.; Kuniyoshi, H.; Umino, T., Sakai, Y.; Hashimoto, H.; Gushima, K. (2009) "Phylogenetic relationships of two Mola sunfshes (Tetraodontiformes: Molidae) occurring around the coasts of Japan, with notes on their geographical distribution and morphological characteristics". Ichthyology Research, 56, 232–244.
  18. Fraser-Brunner 1951
  19. Sawai, E.; Yamanoue, Y.; Jawad, L.; Al-Mamry, J.; Sakai, Y. (2017) "Molecular and morphological identification of Mola sunfsh specimens (Actinopterygii: Tetraodontiformes: Molidae) from the Indian Ocean". Species Divers, 2, 99–104.
  20. Web site: 'Majestic' 3-ton sunfish sets a new world record for largest bony fish ever discovered . . 14 October 2022 .
  21. Web site: A Giant Sunfish in the Azores Weighed in as the Heaviest Bony Fish on Record . 13 October 2022 .
  22. Sawai . Etsuro . Yamada. Morihiko . 2020 . Bump-head sunfish Mola alexandrini photographed in the north-west Pacific Ocean mesopelagic zone . Journal of Fish Biology . 96 . 1 . 278–280 . 10.1111/jfb.14214 . 31762019 . 208276149 . free .
  23. Chang . Ching-Tsun . Lin. Shian-Jhong . Chiang . Wei-Chuan . Musyl . Michael K. . Lam . Chi-Hin . Hsu . Hung-Hung . Chang . Yung-Chou . Ho . Yuan-Shing . Tseng . Chen-Te . 2020-05-01 . Horizontal and vertical movement patterns of sunfish off eastern Taiwan . Deep Sea Research Part II: Topical Studies in Oceanography . Oceanic biodiversity under climate change: shifts in natural and human systems . 175 . 104683 . 10.1016/j.dsr2.2019.104683 . 210616246 .
  24. Nyegaard. Marianne. Loneragan . Neil . Hall . Steve . Andrew . James . Sawai . Etsuro . Nyegaard . Mette . 2018-07-31 . Giant jelly eaters on the line: Species distribution and bycatch of three dominant sunfishes in the Southwest Pacific . Estuarine, Coastal and Shelf Science . 207 . 1–15 . 10.1016/j.ecss.2018.03.017 . 134826783 .
  25. Faber . Daniel J. . McAllister . Don E. . 1979-06-01 . Development of Fishes of the Mid-Atlantic Bight. An Atlas of egg, larval and juvenile stages . Journal of the Fisheries Research Board of Canada. 36 . 6 . 706–707 . 10.1139/f79-107 .
  26. Web site: Parkinson. Kerryn. 4 July 2021. Ocean Sunfish, Mola Mola (Linnaeus 1758). The Australian Museum.
  27. Nyegaard . Marianne. Andrzejaczek. Samantha. Jenner. Curt S.. Jenner. Micheline-Nicole M.. 2019-12-01. Tiger shark predation on large ocean sunfishes (Family Molidae) – two Australian observations . Environmental Biology of Fishes . 102 . 12 . 1559–1567 . 10.1007/s10641-019-00926-y . 204907626 .
  28. 俊之 . 中坪 . 一美 . 廣瀬 . 2007 . 飼育下におけるマンボウの成長 . 水産増殖 . 55 . 3 . 403–407 . 10.11233/aquaculturesci1953.55.403.
  29. Mangel. Jeffrey C.. Pajuelo. Mariela. Pasara-Polack. Andrea. Vela. German. Segura-Cobeña. Eduardo. Alfaro-Shigueto. Joanna. 2018-12-11. The effect of Peruvian small-scale fisheries on sunfishes (Molidae). Journal of Fish Biology. 94 . 1 . 77–85 . 10.1111/jfb.13862. 30421420 . 53293832 . 0022-1112.
  30. Phillips. Natasha D. . Kubicek. Lukas . Payne. Nicholas L. . Harrod. Chris . Eagling. Lawrence E.. Carson. Carol D. . Cappanera . Valentina . Houghton . Jonathan D. R. . September 2018 . Isometric growth in the world's largest bony fishes (genus Mola)? Morphological insights from fisheries bycatch data. Journal of Morphology . 279 . 9 . 1312–1320 . 10.1002/jmor.20872. 30187934 . 52158926 .
  31. There be giants! The importance of taxonomic clarity of the large ocean sunfishes (genus Mola, Family Molidae) for assessing sunfish vulnerability to anthropogenic pressures.. Murdoch University. 2018. phd. Marianne. Nyegaard.