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Coelacanth

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Coelacanth
Temporal range: Early DevonianRecent,[1] 409–0 Ma
Live coelacanth seen off Pumula on the KwaZulu-Natal South Coast, South Africa, 2019
Specimen of Axelrodichthys araripensis from the Early Cretaceous of Brazil (Mawsoniidae)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Sarcopterygii
Class: Actinistia
Cope, 1871
Order: Coelacanthiformes
Huxley, 1861
Type species
Coelacanthus granulatus
Agassiz, 1839
Families and genera

Others, see text

Coelacanths (/ˈsləkænθ/ SEE-lə-kanth) (order Coelacanthiformes) are an ancient group of lobe-finned fish (Sarcopterygii) in the class Actinistia.[2][3] As sarcopterygians, they are more closely related to lungfish and tetrapods (which includes amphibians, reptiles, birds and mammals) than to ray-finned fish.

Well-represented in both freshwater and marine fossils since the Devonian, they are now represented by only two extant marine species in the genus Latimeria: the West Indian Ocean coelacanth (Latimeria chalumnae), primarily found near the Comoro Islands off the east coast of Africa, and the Indonesian coelacanth (Latimeria menadoensis).[4] The name coelacanth originates from the Permian genus Coelacanthus, which was the first scientifically named coelacanth.[5]

The oldest known coelacanth fossils date back more than 410 million years. Coelacanths were thought to have become extinct in the Late Cretaceous, around 66 million years ago, but were discovered living off the coast of South Africa in 1938.[6][7]

The coelacanth was long considered a "living fossil" because scientists thought it was the sole remaining member of a taxon otherwise known only from fossils, with no close relations alive,[8] and that it evolved into roughly its current form approximately 400 million years ago.[1] However, several more recent studies have shown that coelacanth body shapes are much more diverse than previously thought.[9][10][11]

Etymology

[edit]

The word Coelacanth is an adaptation of the Modern Latin Cœlacanthus ('hollow spine'), from the Greek κοῖλ-ος (koilos, 'hollow') and ἄκανθ-α (akantha, 'spine'),[12] referring to the hollow caudal fin rays of the first fossil specimen described and named by Louis Agassiz in 1839, belonging to the genus Coelacanthus.[8] The genus name Latimeria commemorates Marjorie Courtenay-Latimer, who discovered the first specimen.[13]

Discovery

[edit]
Fossil of Coelacanthus granulatus, the first described coelacanth, named by Louis Agassiz in 1839

The earliest fossils of coelacanths were discovered in the 19th century. Coelacanths, which are related to lungfishes and tetrapods, were believed to have become extinct at the end of the Cretaceous period.[14] More closely related to tetrapods than to the ray-finned fish, coelacanths were considered transitional species between fish and tetrapods.[15] On 23 December 1938, the first Latimeria specimen was found off the east coast of South Africa, off the Chalumna River (now Tyolomnqa).[6] Museum curator Marjorie Courtenay-Latimer discovered the fish among the catch of a local fisherman.[6] Courtenay-Latimer contacted a Rhodes University ichthyologist, J. L. B. Smith, sending him drawings of the fish, and he confirmed the fish's importance with a famous cable: "Most Important Preserve Skeleton and Gills = Fish Described."[6]

Its discovery 66 million years after its supposed extinction makes the coelacanth the best-known example of a Lazarus taxon, an evolutionary line that seems to have disappeared from the fossil record only to reappear much later. Since 1938, West Indian Ocean coelacanth have been found in the Comoros, Kenya, Tanzania, Mozambique, Madagascar, in iSimangaliso Wetland Park, and off the South Coast of Kwazulu-Natal in South Africa.[16][17]

The Comoro Islands specimen was discovered in December 1952.[18] Between 1938 and 1975, 84 specimens were caught and recorded.[19]

The second extant species, the Indonesian coelacanth, was described from Manado, North Sulawesi, Indonesia, in 1999 by Pouyaud et al.[20] based on a specimen discovered by Mark V. Erdmann in 1998[21] and deposited at the Indonesian Institute of Sciences (LIPI).[22] Erdmann and his wife Arnaz Mehta first encountered a specimen at a local market in September 1997, but took only a few photographs of the first specimen of this species before it was sold. After confirming that it was a unique discovery, Erdmann returned to Sulawesi in November 1997 to interview fishermen and look for further examples. A second specimen was caught by a fisherman in July 1998 and was then handed to Erdmann.[23][24]

Description

[edit]
Reconstruction of West Indian Ocean coelacanth
Preserved Latimeria menadoensis, Tokyo Sea Life Park, Japan

Latimeria chalumnae and L. menadoensis are the only two known living coelacanth species.[8][25] Coelacanths are large, plump, lobe-finned fish that can grow to more than 2 m (6.6 ft) and weigh around 90 kg (200 lb).[26] They are estimated to live up to 100 years, based on analysis of annual growth marks on scales, and reach maturity around the age of 55;[27] the oldest known specimen was 84 years old at the time of its capture in 1960.[28] Even though their estimated lifetime is similar to humans, gestation can last 5 years, which is 1.5 years more than the deep-sea frilled shark, the previous record holder.[29]

They are nocturnal piscivorous drift-hunters.[30]

The body is covered in ctenoid elasmoid scales that act as armor.[31] Coelacanths have eight fins – two dorsal fins, two pectoral fins, two pelvic fins, one anal fin and one caudal fin. The tail is very nearly equally proportioned and is split by a terminal tuft of fin rays that make up its caudal lobe. The eyes of the coelacanth are very large, while the mouth is very small.[citation needed] The eye is acclimatized to seeing in poor light by rods that absorb mostly short wavelengths. Coelacanth vision has evolved to a mainly blue-shifted color capacity.[32] Pseudomaxillary folds surround the mouth and replace the maxilla, a structure absent in coelacanths. Two nostrils, along with four other external openings, appear between the premaxilla and lateral rostral bones. The nasal sacs resemble those of many other fish and do not contain an internal nostril. The coelacanth's rostral organ, contained within the ethmoid region of the braincase, has three unguarded openings into the environment and is used as a part of the coelacanth's laterosensory system.[8] The coelacanth's auditory reception is mediated by its inner ear, which is very similar to that of tetrapods and is classified as being a basilar papilla.[33]

Coelacanths are a part of the clade Sarcopterygii, or the lobe-finned fishes. They share membership in this clade with lungfish and tetrapods. Externally, several characteristics distinguish coelacanths from other lobe-finned fish. They possess a three-lobed caudal fin, also called a trilobate fin or a diphycercal tail. A secondary tail extending past the primary tail separates the upper and lower halves of the coelacanth. Ctenoid elasmoid scales act as thick armor to protect the coelacanth's exterior. Several internal traits also aid in differentiating coelacanths from other lobe-finned fish. At the back of the skull, the coelacanth possesses a hinge, the intracranial joint, which allows it to open its mouth extremely wide. Coelacanths also retain an oil-filled notochord, a hollow, pressurized tube which is replaced by a vertebral column early in embryonic development in most other vertebrates.[34] The coelacanth's heart is shaped differently from that of most modern fish, with its chambers arranged in a straight tube. The coelacanth's braincase is 98.5% filled with fat; only 1.5% of the braincase contains brain tissue. The cheeks of the coelacanth are unique because the opercular bone is very small and holds a large soft-tissue opercular flap. A spiracular chamber is present, but the spiracle is closed and never opens during development.[35] [8][36] Also unique to extant coelacanths is the presence of a "fatty lung" or a fat-filled single-lobed vestigial lung, homologous to other fishes' swim bladders. The parallel development of a fatty organ for buoyancy control suggests a unique specialization for deep-water habitats. There are small and hard but flexible plates around the vestigial lung in adult specimens, though not around the fatty organ. The plates most likely had a regulation function for the volume of the lung.[37] Due to the size of the fatty organ, researchers assume that it is responsible for the kidney's unusual relocation. The two kidneys, which are fused into one,[38] are located ventrally within the abdominal cavity, posterior to the cloaca.[39]

West Indian Ocean coelacanth caught on 21 January 1965, near Mutsamudu (Anjouan, Comoro Islands)
Pectoral fin of a West Indian Ocean coelacanth

DNA

[edit]

In 2013, a research group published the genome sequence of the coelacanth in the scientific journal Nature.[40]

Due to their lobed fins and other features, it was once hypothesized that the coelacanth might be the youngest diverging non-tetrapod sarcopterygian.[33][41] But after sequencing the full genome of the coelacanth, it was discovered that the lungfish instead is more closely related to tetrapods. Coelacanths and rhipidistians (the concestor of lungfish and tetrapods) had already diverged from each other before the lungfish made the transition to land.[42]

Another important discovery made from the genome sequencing is that the coelacanths are still evolving today. While phenotypic similarity between extant and extinct coelacanths suggests there is limited evolutionary pressure on these organisms to undergo morphological divergence, they are undergoing measurable genetic divergence. Despite prior studies showing that protein coding regions are undergoing evolution at a substitution rate much lower than other sarcopterygians (consistent with phenotypic stasis observed between extant and fossil members of the taxa), the non-coding regions subject to higher transposable element activity show marked divergence even between the two extant coelacanth species.[40] This has been facilitated in part by a coelacanth-specific endogenous retrovirus of the Epsilon retrovirus family.[43]

Taxonomy

[edit]
In the Late Devonian vertebrate speciation, descendants of pelagic lobe-finned fish—like Eusthenopteron—exhibited a sequence of adaptations: Panderichthys, suited to muddy shallows; Tiktaalik with limb-like fins that could take it up onto land; and Early tetrapods in weed-filled swamps, such as Acanthostega which had feet with eight digits and Ichthyostega with limbs. Descendants also included pelagic lobe-finned fish such as the coelacanth species.

Cladogram showing the relationships of coelacanth genera after Torino, Soto and Perea, 2021.[44]

Mimipiscis (Actinopterygii)

Porolepis (Porolepiformes)

Actinistia

Fossil record

[edit]
Specimen of Libys (Latimeriidae) from the Upper Jurassic of Germany
Estimated size of the largest known individual of the Jurassic-Cretaceous freshwater coelacanth Mawsonia compared to a human
Life restoration of the basal coelacanth Allenypterus from the Carboniferous of North America

According to the fossil record, the divergence of coelacanths, lungfish, and tetrapods is thought to have occurred during the Silurian.[45] Over 100 fossil species of coelacanth have been described.[44] The oldest identified coelacanth fossils are around 420–410 million years old, dating to the early Devonian.[1][46] Coelacanths were never a diverse group in comparison to other groups of fish, and reached a peak diversity during the Early Triassic (252–247 million years ago),[47] coinciding with a burst of diversification between the Late Permian and Middle Triassic.[44] Most Mesozoic coelacanths belong to the order Latimerioidei, which contains two major subdivisions, the marine Latimeriidae, which contains modern coelacanths, as well as the extinct Mawsoniidae, which were native to brackish, freshwater as well as marine environments.[48]

Paleozoic coelacanths are generally small (~30–40 cm or 12–16 in in length), while Mesozoic forms were larger.[44] Several specimens belonging to the Jurassic and Cretaceous mawsoniid coelacanth genera Trachymetopon and Mawsonia likely reached or exceeded 5 metres (16 feet) in length, making them amongst the largest known fishes of the Mesozoic, and amongst the largest bony fishes of all time.[49]

The most recent fossil latimeriid is Megalocoelacanthus dobiei, whose disarticulated remains are found in late Santonian to middle Campanian, and possibly earliest Maastrichtian-aged marine strata of the Eastern and Central United States,[50][51][52] the most recent mawsoniids are Axelrodichthys megadromos from early Campanian to early Maastrichtian freshwater continental deposits of France,[53][54][47] as well as an indeterminate marine mawsoniid from Morocco, dating to the late Maastrichtian[55] A small bone fragment from the European Paleocene has been considered the only plausible post-Cretaceous record, but this identification is based on comparative bone histology methods of doubtful reliability.[50][56]

Living coelacanths have been considered "living fossils" based on their supposedly conservative morphology relative to fossil species;[57][8] however, recent studies have expressed the view that coelacanth morphologic conservatism is a belief not based on data.[9][10][11][58] Fossils suggest that coelacanths were most morphologically diverse during the Devonian and Carboniferous, while Mesozoic species are generally morphologically similar to each other.[44]

Timeline of genera

[edit]
CenozoicMesozoic EraPaleozoic EraQuaternaryNeogenePaleogeneCretaceousJurassicTriassicPermianCarboniferousDevonianSilurianOrdovicianCambrianLatimeriaPost Cretaceous Coelacanth fossilsCoelacanthMegalocoelacanthusMacropomoidesMacropomaAxelrodichthysMawsoniaLibysCoccodermaUndinaLualabaeaSwenziaTrachymetoponHolophagusGraphiuricthysHainbergiaTicinepomisAlcoveriaHeptanemaGarnbergiaWimaniaScleracanthusMylacanthusAxeliaWhiteiaPiveteauiaSinocoelacanthusSasseniaLaugiaYonngichthysCoelacanthusChangxingiaEctosteorhachisSynaptotylusPolyosteorhynchusLochmocereusHadronectorCaridosuctorAllenypterusCoelacanthopsisRhabdodermaChagriniaDiplocercidesNesidesMiguashaiaEuporosteusStruniusOnychodusYoungolepisPowichthysCenozoicMesozoic EraPaleozoic EraQuaternaryNeogenePaleogeneCretaceousJurassicTriassicPermianCarboniferousDevonianSilurianOrdovicianCambrian

Distribution and habitat

[edit]
Geographical distribution of coelacanth

The current coelacanth range is primarily along the eastern African coast, although Latimeria menadoensis was discovered off Indonesia. Coelacanths have been found in the waters of Kenya, Tanzania, Mozambique, South Africa, Madagascar, Comoros and Indonesia.[57] Most Latimeria chalumnae specimens that have been caught have been captured around the islands of Grande Comore and Anjouan in the Comoros Archipelago (Indian Ocean). Though there are cases of L. chalumnae caught elsewhere, amino acid sequencing has shown no big difference between these exceptions and those found around Comore and Anjouan. Even though these few may be considered strays, there are several reports of coelacanths being caught off the coast of Madagascar. This leads scientists to believe that the endemic range of Latimeria chalumnae coelacanths stretches along the eastern coast of Africa from the Comoros Islands, past the western coast of Madagascar to the South African coastline.[8] Mitochondrial DNA sequencing of coelacanths caught off the coast of southern Tanzania suggests a divergence of the two populations some 200,000 years ago. This could refute the theory that the Comoros population is the main population while others represent recent offshoots.[59] A live specimen was seen and recorded on video in November 2019 at 69 m (226 ft) off the village of Umzumbe on the South Coast of KwaZulu-Natal, 325 km (202 mi) south of the iSimangaliso Wetland Park. This is the farthest south since the original discovery, and the second shallowest record after 54 m (177 ft) in the Diepgat Canyon. These sightings suggest that they may live shallower than previously thought, at least at the southern end of their range, where colder, better-oxygenated water is available at shallower depths.[17]

The geographical range of the Indonesia coelacanth, Latimeria menadoensis, is believed to be off the coast of Manado Tua Island, Sulawesi, Indonesia, in the Celebes Sea.[60] Key components confining coelacanths to these areas are food and temperature restrictions, as well as ecological requirements such as caves and crevices that are well-suited for drift feeding.[61] Teams of researchers using submersibles have recorded live sightings of the fish in the Sulawesi Sea as well as in the waters of Biak in Papua.[62][63]

Anjouan Island and the Grande Comore provide ideal underwater cave habitats for coelacanths. The islands' underwater volcanic slopes, steeply eroded and covered in sand, house a system of caves and crevices which allow coelacanths resting places during the daylight hours. These islands support a large benthic fish population that helps to sustain coelacanth populations.[61][64]

During the daytime, coelacanths rest in caves anywhere from 100 to 500 meters (330 to 1,640 ft) deep. Others migrate to deeper waters.[57][8] The cooler waters (below 120 meters or 390 feet) reduce the coelacanths' metabolic costs. Drifting toward reefs and night feeding saves vital energy.[61] Resting in caves during the day also saves energy that otherwise would be expended to fight currents.[64]

Latimeria chalumnae model in the Oxford University Museum of Natural History, showing the coloration in life

Behavior

[edit]

Coelacanth locomotion is unique. To move around they most commonly take advantage of up- or down-wellings of current and drift. Their paired fins stabilize movement through the water. While on the ocean floor, they do not use the paired fins for any kind of movement. Coelacanths generate thrust with their caudal fins for quick starts. Due to the abundance of its fins, the coelacanth has high maneuverability and can orient its body in almost any direction in the water. They have been seen doing headstands as well as swimming belly up. It is thought that the rostral organ helps give the coelacanth electroreception, which aids in movement around obstacles.[30]

Coelacanths are fairly peaceful when encountering others of their kind. They do avoid body contact, however, withdrawing immediately if contact occurs. When approached by foreign potential predators (e.g. a submersible), they show panic flight reactions, suggesting that coelacanths are most likely prey to large deepwater predators. Shark bite marks have been seen on coelacanths; sharks are common in areas inhabited by coelacanths.[64] Electrophoresis testing of 14 coelacanth enzymes shows little genetic diversity between coelacanth populations. Among the fish that have been caught were about equal numbers of males and females.[8] Population estimates range from 210 individuals per population to 500 per population.[8][65] Because coelacanths have individual color markings, scientists think that they recognize other coelacanths via electric communication.[64]

Feeding

[edit]

Coelacanths are nocturnal piscivores that feed mainly on benthic smaller fish and various cephalopods. They are "passive drift feeders", slowly drifting along currents with only minimal self-propulsion, eating whatever prey they encounter.[61][64] Coelacanths also use their rostral organ for its electroreception to be able to detect nearby prey in low light settings. [66]

Life history

[edit]
Latimeria chalumnae embryo with its yolk sac from the Muséum national d'histoire naturelle
Latimeria chalumnae egg

Coelacanths are ovoviviparous, meaning that the female retains the fertilized eggs within her body while the embryos develop during a gestation period of five years. Typically, females are larger than the males; their scales and the skin folds around the cloaca differ. The male coelacanth has no distinct copulatory organs, just a cloaca, which has a urogenital papilla surrounded by erectile caruncles. It is hypothesized that the cloaca everts to serve as a copulatory organ.[8][7]

Coelacanth eggs are large, with only a thin layer of membrane to protect them. Embryos hatch within the female and eventually are born alive, which is a rarity in fish. This was only discovered when the American Museum of Natural History dissected its first coelacanth specimen in 1975 and found it pregnant with five embryos.[67] Young coelacanths resemble the adult, the main differences being an external yolk sac, larger eyes relative to body size and a more pronounced downward slope of the body. The juvenile coelacanth's broad yolk sac hangs below the pelvic fins. The scales and fins of the juvenile are completely matured; however, it does lack odontodes, which it gains during maturation.[7]

A study that assessed the paternity of the embryos inside two coelacanth females indicated that each clutch was sired by a single male.[68] This could mean that females mate monandrously, i.e. with one male only. Polyandry, female mating with multiple males, is common in both plants and animals and can be advantageous (e.g. insurance against mating with an infertile or incompatible mate), but also confers costs (increased risk of infection, danger of falling prey to predators, increased energy input when searching for new males).[citation needed]

Conservation

[edit]

Because little is known about the coelacanth, the conservation status is difficult to characterize. According to Fricke et al. (1995), it is important to conserve the species. From 1988 to 1994, Fricke counted some 60 individuals of L. chalumnae on each dive. In 1995 that number dropped to 40. Even though this could be a result of natural population fluctuation, it also could be a result of overfishing. The IUCN currently classifies L. chalumnae as "critically endangered",[69] with a total population size of 500 or fewer individuals.[8] L. menadoensis is considered Vulnerable, with a significantly larger population size (fewer than 10,000 individuals).[70]

The major threat towards the coelacanth is the accidental capture by fishing operations, especially commercial deep-sea trawling.[71][72] Coelacanths usually are caught when local fishermen are fishing for oilfish. Fishermen sometimes snag a coelacanth instead of an oilfish because they traditionally fish at night, when oilfish (and coelacanths) feed. Before scientists became interested in coelacanths, they were thrown back into the water if caught. Now that they are recognized as important, fishermen trade them to scientists or other officials. Before the 1980s, this was a problem for coelacanth populations. In the 1980s, international aid gave fiberglass boats to the local fishermen, which moved fishing beyond the coelacanth territories into more productive waters. Since then, most of the motors on the boats failed, forcing the fishermen back into coelacanth territory and putting the species at risk again.[8][73]

Methods to minimize the number of coelacanths caught include moving fishers away from the shore, using different laxatives and malarial salves to reduce the demand for oilfish, using coelacanth models to simulate live specimens, and increasing awareness of the need for conservation. In 1987 the Coelacanth Conservation Council advocated the conservation of coelacanths. The CCC has branches located in Comoros, South Africa, Canada, the United Kingdom, the U.S., Japan, and Germany. The agencies were established to help protect and encourage population growth of coelacanths.[8][74]

A "deep release kit" was developed in 2014 and distributed by private initiative, consisting of a weighted hook assembly that allows a fisherman to return an accidentally caught coelacanth to deep waters where the hook can be detached once it hits the seafloor. Conclusive reports about the effectiveness of this method are still pending.[75]

In 2002, the South African Coelacanth Conservation and Genome Resource Programme was launched to help further the studies and conservation of the coelacanth. This program focuses on biodiversity conservation, evolutionary biology, capacity building, and public understanding. The South African government committed to spending R10 million on the program.[76][77] In 2011, a plan was made for a Tanga Coelacanth Marine Park to conserve biodiversity for marine animals including the coelacanth. The park was designed to reduce habitat destruction and improve prey availability for endangered species.[74]

Human consumption

[edit]

Coelacanths are considered a poor source of food for humans and likely most other fish-eating animals. Coelacanth flesh has large amounts of oil, urea, wax esters, and other compounds that give the flesh a distinctly unpleasant flavor, make it difficult to digest, and can cause diarrhea. Their scales themselves secrete mucus, which combined with the excessive oil their bodies produce, make coelacanths a slimy food.[78] Where the coelacanth is more common, local fishermen avoid it because of its potential to sicken consumers.[79] As a result, the coelacanth has no real commercial value apart from being coveted by museums and private collectors.[80]

Cultural significance

[edit]

Because of the surprising nature of the coelacanth's discovery, they have been a frequent source of inspiration in modern artwork, craftsmanship, and literature. At least 22 countries have depicted them on their postage stamps, particularly the Comoros, which has issued 12 different sets of coelacanth stamps. The coelacanth is also depicted on the 1000 Comorian franc banknote, as well as the 5 CF coin.[81]

In the Pokémon media franchise, the Pokémon known as Relicanth is based on the coelacanth.[82][83]

In the video game series Animal Crossing, the coelacanth is a rare fish that can be caught by the player by fishing in the ocean.[84][85]

References

[edit]
  1. ^ a b c Johanson, Z.; Long, J. A; Talent, J. A; Janvier, P.; Warren, J. W (2006). "Oldest coelacanth, from the Early Devonian of Australia". Biology Letters. 2 (3): 443–6. doi:10.1098/rsbl.2006.0470. PMC 1686207. PMID 17148426.
  2. ^ Nelson, Joseph S. (16 March 2016). Fishes of the World. John Wiley & Sons. ISBN 978-1-119-22081-7. OCLC 951128215.
  3. ^ "Order Summary for Coelacanthiformes". www.fishbase.se. Retrieved 13 March 2023.
  4. ^ Yokoyama, Shozo; Zhang, Huan; Radlwimmer, F. Bernhard; Blow, Nathan S. (1999). "Coelacanths, Coelacanth Pictures, Coelacanth Facts – National Geographic". Proceedings of the National Academy of Sciences. 96 (11): 6279–84. Bibcode:1999PNAS...96.6279Y. doi:10.1073/pnas.96.11.6279. PMC 26872. PMID 10339578.
  5. ^ Agassiz, L. 1839. Recherches sur les poissons fossiles II. Petitpierre, Neuchâtel.
  6. ^ a b c d Smith, J. L. B. (1956). Old Fourlegs: the Story of the Coelacanth. Longmans Green. p. 24.
  7. ^ a b c Lavett Smith, C.; Rand, Charles S.; Schaeffer, Bobb; Atz, James W. (1975). "Latimeria, the Living Coelacanth, is Ovoviviparous". Science. 190 (4219): 1105–6. Bibcode:1975Sci...190.1105L. doi:10.1126/science.190.4219.1105. S2CID 83943031.
  8. ^ a b c d e f g h i j k l m n Forey, Peter L (1998). History of the Coelacanth Fishes. London: Chapman & Hall. ISBN 978-0-412-78480-4.[page needed]
  9. ^ a b Friedman, Matt; Coates, Michael I.; Anderson, Philip (2007). "First discovery of a primitive coelacanth fin fills a major gap in the evolution of lobed fins and limbs". Evolution & Development. 9 (4): 329–37. doi:10.1111/j.1525-142X.2007.00169.x. PMID 17651357. S2CID 23069133.
  10. ^ a b Friedman, Matt; Coates, Michael I. (2006). "A newly recognized fossil coelacanth highlights the early morphological diversification of the clade". Proceedings of the Royal Society B: Biological Sciences. 273 (1583): 245–50. doi:10.1098/rspb.2005.3316. JSTOR 25223279. PMC 1560029. PMID 16555794.
  11. ^ a b Wendruff, Andrew J.; Wilson, Mark V. H. (2012). "A fork-tailed coelacanth, Rebellatrix divaricerca, gen. Et sp. Nov. (Actinistia, Rebellatricidae, fam. Nov.), from the Lower Triassic of Western Canada". Journal of Vertebrate Paleontology. 32 (3): 499–511. Bibcode:2012JVPal..32..499W. doi:10.1080/02724634.2012.657317. S2CID 85826893.
  12. ^ "The Coelancanth | Actforlibraries.org". actforlibraries.org. Retrieved 30 October 2015.
  13. ^ "Smithsonian Institution – The Coelacanth: More Living than Fossil". vertebrates.si.edu. Retrieved 30 October 2015.
  14. ^ "Coelacanth – Deep Sea Creatures on Sea and Sky". seasky.org. Retrieved 27 October 2015.
  15. ^ Meyer, Axel (1995). "Molecular evidence on the origin of tetrapods and the relationships of the coelacanth". Trends in Ecology & Evolution (Submitted manuscript). 10 (3): 111–116. Bibcode:1995TEcoE..10..111M. doi:10.1016/s0169-5347(00)89004-7. PMID 21236972.
  16. ^ Venter, P.; Timm, P.; Gunn, G.; le Roux, E.; Serfontein, C. (2000). "Discovery of a viable population of coelacanths (Latimeria chalumnae Smith, 1939) at Sodwana Bay, South Africa". South African Journal of Science. 96 (11/12): 567–568.
  17. ^ a b Fraser, Michael D.; Henderson, Bruce A.S.; Carstens, Pieter B.; Fraser, Alan D.; Henderson, Benjamin S.; Dukes, Marc D.; Bruton, Michael N. (26 March 2020). "Live coelacanth discovered off the KwaZulu-Natal South Coast, South Africa". South African Journal of Science. 116 (3/4 March/April 2020). doi:10.17159/sajs.2020/7806.
  18. ^ "Prehistoric fish offers rare glimpse of hidden sea life – Coelacanth (1953)". Abilene Reporter-News. 23 February 1953. p. 25. Retrieved 18 June 2017.
  19. ^ "70-million-year-old fish dissected – Coaelacanth (1975)". Redlands Daily Facts. 28 May 1975. p. 6. Retrieved 18 June 2017.
  20. ^ Pouyaud, Laurent; Wirjoatmodjo, Soetikno; Rachmatika, Ike; Tjakrawidjaja, Agus; Hadiaty, Renny; Hadie, Wartono (1999). "Une nouvelle espèce de cœlacanthe. Preuves génétiques et morphologiques" [A new species of coelacanth. Genetic and morphologic proof]. Comptes Rendus de l'Académie des Sciences (in French). 322 (4): 261–7. Bibcode:1999CRASG.322..261P. doi:10.1016/S0764-4469(99)80061-4. PMID 10216801.
  21. ^ Erdmann, Mark V.; Caldwell, Roy L.; Moosa, M. Kasim (1998). "Indonesian 'king of the sea' discovered". Nature. 395 (6700): 335. Bibcode:1998Natur.395..335E. doi:10.1038/26376. S2CID 204997216.
  22. ^ Holden, Constance (30 March 1999). "Dispute Over a Legendary Fish". Science. 284 (5411): 22–3. doi:10.1126/science.284.5411.22b. PMID 10215525. S2CID 5441807.
  23. ^ Gee, Henry (1 October 1998). "Coelacanth discovery in Indonesia". Nature. doi:10.1038/news981001-1.
  24. ^ "The Discovery". University of California Museum of Paleontology.
  25. ^ Nelson, Joseph S. (2006). Fishes of the World. Hoboken, New Jersey: John Wiley. p. 461. ISBN 978-0-471-75644-6.
  26. ^ "Coelacanths, Coelacanth Pictures, Coelacanth Facts – National Geographic". National Geographic. 10 May 2011. Archived from the original on 14 January 2010. Retrieved 28 October 2015.
  27. ^ "Coelacanths may live nearly a century, five times longer than researchers expected". Eurekalert. 17 June 2021. Retrieved 17 June 2021.
  28. ^ Mahé, Kélig; Ernande, Bruno; Herbin, Marc (17 June 2021). "New scale analyses reveal centenarian African coelacanths". Current Biology. 31 (16). Cell Press: 3621–3628.e4. Bibcode:2021CBio...31E3621M. doi:10.1016/j.cub.2021.05.054. ISSN 0960-9822. PMID 34143958.
  29. ^ "Coelacanths live for as long as people". The Economist. 19 June 2021. Retrieved 19 August 2021.
  30. ^ a b Fricke, Hans; Reinicke, Olaf; Hofer, Heribert; Nachtigall, Werner (1987). "Locomotion of the coelacanth Latimeria chalumnae in its natural environment". Nature. 329 (6137): 331–3. Bibcode:1987Natur.329..331F. doi:10.1038/329331a0. S2CID 4353395.
  31. ^ Sherman, Vincent R. (2016). "A comparative study of piscine defense: The scales of Arapaima gigas, Latimeria chalumnae and Atractosteus spatula". Journal of the Mechanical Behavior of Biomedical Materials. 73: 1–16. doi:10.1016/j.jmbbm.2016.10.001. PMID 27816416.
  32. ^ Yokoyama, Shozo; Zhang, Huan; Radlwimmer, F. Bernhard; Blow, Nathan S. (1999). "Adaptive Evolution of Color Vision of the Comoran Coelacanth (Latimeria chalumnae)". Proceedings of the National Academy of Sciences of the United States of America. 96 (11): 6279–84. Bibcode:1999PNAS...96.6279Y. doi:10.1073/pnas.96.11.6279. JSTOR 47861. PMC 26872. PMID 10339578.
  33. ^ a b Fritzsch, B. (1987). "Inner ear of the coelacanth fish Latimeria has tetrapod affinities". Nature. 327 (6118): 153–4. Bibcode:1987Natur.327..153F. doi:10.1038/327153a0. PMID 22567677. S2CID 4307982.
  34. ^ "What do we know about the coelacanths – Science in Africa". Archived from the original on 21 September 2013.
  35. ^ Clack, Jennifer A. (27 June 2012). Gaining Ground, Second Edition: The Origin and Evolution of Tetrapods. Indiana University Press. ISBN 978-0-253-00537-3 – via Google Books.
  36. ^ "The Coelacanth – a Morphological Mixed Bag". ReefQuest Centre for Shark Research.
  37. ^ Brito, Paulo M.; Meunier, François J.; Clément, Gael; Geffard-Kuriyama links, Didier (2010). "The histological structure of the calcified lung of the fossil coelacanth Axelrodichthys araripensis (Actinistia: Mawsoniidae)". Palaeontology. 53 (6): 1281–90. Bibcode:2010Palgy..53.1281B. doi:10.1111/j.1475-4983.2010.01015.x.
  38. ^ Smith, H. W. (24 October 2018). From fish to philosopher. Рипол Классик. ISBN 9785873926930 – via Google Books.
  39. ^ Forey, Peter (30 November 1997). History of the Coelacanth Fishes. Springer Science & Business Media. ISBN 978-0-412-78480-4 – via Google Books.
  40. ^ a b Amemiya, Chris T.; Alföldi, Jessica; Lee, Alison P.; Fan, Shaohua; Philippe, Hervé; MacCallum, Iain; Braasch, Ingo; Manousaki, Tereza; Schneider, Igor; et al. (18 April 2013). "The African coelacanth genome provides insights into tetrapod evolution". Nature. 496 (7445): 311–6. Bibcode:2013Natur.496..311A. doi:10.1038/nature12027. PMC 3633110. PMID 23598338.
  41. ^ Northcutt, R. Glenn (1986). "Lungfish neural characters and their bearing on sarcopterygian phylogeny" (PDF). Journal of Morphology. 190: 277–297. doi:10.1002/jmor.1051900418. hdl:2027.42/50281. S2CID 35473487.
  42. ^ Stromberg, Joseph. "DNA Sequencing Reveals that Coelacanths Weren't the Missing Link Between Sea and Land".
  43. ^ Naville, Magali; Chalopin, Domitille; Volff, Jean-Nicolas (2014). "Interspecies Insertion Polymorphism Analysis Reveals Recent Activity of Transposable Elements in Extant Coelacanths". PLOS ONE. 9 (12): e114382. Bibcode:2014PLoSO...9k4382N. doi:10.1371/journal.pone.0114382. PMC 4255032. PMID 25470617.
  44. ^ a b c d e Toriño, Pablo; Soto, Matías; Perea, Daniel (25 February 2021). "A comprehensive phylogenetic analysis of coelacanth fishes (Sarcopterygii, Actinistia) with comments on the composition of the Mawsoniidae and Latimeriidae: evaluating old and new methodological challenges and constraints". Historical Biology. 33 (12): 3423–3443. Bibcode:2021HBio...33.3423T. doi:10.1080/08912963.2020.1867982. ISSN 0891-2963. S2CID 233942585.
  45. ^ Lu, Jing; Giles, Sam; Friedman, Matt; Zhu, Min (5 December 2017). "A new stem sarcopterygian illuminates patterns of character evolution in early bony fishes". Nature Communications. 8 (1): 1932. Bibcode:2017NatCo...8.1932L. doi:10.1038/s41467-017-01801-z. ISSN 2041-1723. PMC 5715141. PMID 29203766.
  46. ^ Friedman, Matt (10 August 2007). "Styloichthys as the oldest coelacanth: implications for early osteichthyan interrelationships". Journal of Systematic Palaeontology. 5 (3): 289–343. Bibcode:2007JSPal...5..289F. doi:10.1017/S1477201907002052. S2CID 83712134. Retrieved 28 December 2007.
  47. ^ a b Cavin, L.; Buffetaut, E.; Dutour, Y.; Garcia, G.; Le Loeuff, J.; Méchin, A.; Méchin, P.; Tong, H.; Tortosa, T.; Turini, E.; Valentin, X. (2020). "The last known freshwater coelacanths: New Late Cretaceous mawsoniids remains (Osteichthyes: Actinistia) from Southern France". PLOS ONE. 15 (6): e0234183. Bibcode:2020PLoSO..1534183C. doi:10.1371/journal.pone.0234183. PMC 7274394. PMID 32502171.
  48. ^ Cavin, Lionel; Cupello, Camila; Yabumoto, Yoshitaka; Léo, Fragoso; Deersi, Uthumporn; Brito, Paul M. (2019). "Phylogeny and evolutionary history of mawsoniid coelacanths" (PDF). Bulletin of the Kitakyushu Museum of Natural History and Human History, Series A. 17: 3–13.
  49. ^ Cavin, Lionel; Piuz, André; Ferrante, Christophe; Guinot, Guillaume (3 June 2021). "Giant Mesozoic coelacanths (Osteichthyes, Actinistia) reveal high body size disparity decoupled from taxic diversity". Scientific Reports. 11 (1): 11812. Bibcode:2021NatSR..1111812C. doi:10.1038/s41598-021-90962-5. ISSN 2045-2322. PMC 8175595. PMID 34083600.
  50. ^ a b Schwimmer, D.R.; Stewart, J.D.; Williams, G.D. (1994). "Giant fossil coelacanths of the Late Cretaceous in the eastern United States". Geology. 2 (6): 503–506. Bibcode:1994Geo....22..503S. doi:10.1130/0091-7613(1994)022<0503:GFCOTL>2.3.CO;2.
  51. ^ Gottfried, Michael D.; Rogers, Raymond R.; Rogers, K. Curry (2004). "First record of Late Cretaceous coelacanths from Madagascar". Recent Advances in the Origin and Early Radiation of Vertebrates: 687–691.
  52. ^ Dutel, H.; Maisey, J.P.; Schwimmer, D.R.; Janvier, P.; Herbin, M.; Clément, G. (2012). "The Giant Cretaceous Coelacanth (Actinistia, Sarcopterygii) Megalocoelacanthus dobiei Schwimmer, Stewart & Williams, 1994, and Its Bearing on Latimerioidei Interrelationships". PLOS ONE. 7 (11): e49911. Bibcode:2012PLoSO...749911D. doi:10.1371/journal.pone.0049911. PMC 3507921. PMID 23209614.
  53. ^ Cavin, L.; Forey, P.L.; Tong, H.; Buffetaut, E. (2005). "Latest European coelacanth shows Gondwanan affinities". Biology Letters. 1 (2): 176–177. doi:10.1098/rsbl.2004.0287. PMC 1626220. PMID 17148159.
  54. ^ Cavin, L.; Valentin, X.; Garcia, G. (2016). "A new mawsoniid coelacanth (Actinistia) from the Upper Cretaceous of Southern France". Cretaceous Research. 62: 65–73. Bibcode:2016CrRes..62...65C. doi:10.1016/j.cretres.2016.02.002.
  55. ^ Brito, P.M.; Martill, D.M.; Eaves, I.; Smith, R.E.; Cooper, S.L.A. (2021). "A marine Late Cretaceous (Maastrichtian) coelacanth from North Africa". Cretaceous Research. 122: 104768. Bibcode:2021CrRes.12204768B. doi:10.1016/j.cretres.2021.104768. S2CID 233551515.
  56. ^ Ørvig, Tor (1 June 1986). "A vertebrate bone from the Swedish Paleocene". Geologiska Föreningen i Stockholm Förhandlingar. 108 (2): 139–141. doi:10.1080/11035898609452636. ISSN 0016-786X.
  57. ^ a b c Butler, Carolyn (March 2011). "Living Fossil Fish". National Geographic: 86–93.
  58. ^ Casane, Didier; Laurenti, Patrick (2013). "Why coelacanths are not 'living fossils'". BioEssays. 35 (4): 332–8. doi:10.1002/bies.201200145. PMID 23382020. S2CID 2751255.
  59. ^ Nikaido, Masato; Sasaki, Takeshi; Emerson, J. J.; Aibara, Mitsuto; Mzighani, Semvua I.; Budeba, Yohana L.; Ngatunga, Benjamin P.; Iwata, Masamitsu; Abe, Yoshitaka (1 November 2011). "Genetically distinct coelacanth population off the northern Tanzanian coast". Proceedings of the National Academy of Sciences. 108 (44): 18009–18013. Bibcode:2011PNAS..10818009N. doi:10.1073/pnas.1115675108. PMC 3207662. PMID 22025696.
  60. ^ Holder, Mark T.; Erdmann, Mark V.; Wilcox, Thomas P.; Caldwell, Roy L.; Hillis, David M. (1999). "Two Living Species of Coelacanths?". Proceedings of the National Academy of Sciences of the United States of America. 96 (22): 12616–20. Bibcode:1999PNAS...9612616H. doi:10.1073/pnas.96.22.12616. JSTOR 49396. PMC 23015. PMID 10535971.
  61. ^ a b c d Fricke, H.; Plante, R. (1988). "Habitat requirements of the living coelacanth Latimeria chalumnae at grande comore, Indian Ocean". Naturwissenschaften. 75 (3): 149–51. Bibcode:1988NW.....75..149F. doi:10.1007/BF00405310. S2CID 39620387.
  62. ^ Augy Syaihailatua (30 March 2015). "Hunting for living fossils in Indonesian waters". The Conversation.
  63. ^ Rik Nulens; Lucy Scott; Marc Herbin (22 September 2011). "An updated inventory of all known specimens of the coelacanth, Latimeria spp" (PDF). Smithiana. Archived from the original (PDF) on 18 August 2018.
  64. ^ a b c d e Fricke, Hans; Schauer, Jürgen; Hissmann, Karen; Kasang, Lutz; Plante, Raphael (1991). "Coelacanth Latimeria chalumnae aggregates in caves: First observations on their resting habitat and social behavior". Environmental Biology of Fishes. 30 (3): 281–6. Bibcode:1991EnvBF..30..281F. doi:10.1007/BF02028843. S2CID 35672220.
  65. ^ Hissmann, Karen; Fricke, Hans; Schauer, Jürgen (2008). "Population Monitoring of the Coelacanth (Latimeria chalumnae)". Conservation Biology. 12 (4): 759–65. doi:10.1111/j.1523-1739.1998.97060.x. JSTOR 2387536. S2CID 83504862.
  66. ^ Bruton, Michael (1991). The ecology and conservation of the coelacanth Latimeria chalumnae. Netherlands: Kluwer Academic Publishers. pp. 313–339.
  67. ^ "The Coelacanth: Five Fast Facts". AMNH. Retrieved 28 October 2015.
  68. ^ Lampert, Kathrin P.; Blassmann, Katrin; Hissmann, Karen; Schauer, Jürgen; Shunula, Peter; Kharousy, Zahor el; Ngatunga, Benjamin P.; Fricke, Hans; Schartl, Manfred (2013). "Single-male paternity in coelacanths" (PDF). Nature Communications. 4: 2488. Bibcode:2013NatCo...4.2488L. doi:10.1038/ncomms3488. PMID 24048316.
  69. ^ Musick, J.A. (2000). "Latimeria chalumnae". IUCN Red List of Threatened Species. 2000: e.T11375A3274618. doi:10.2305/IUCN.UK.2000.RLTS.T11375A3274618.en. Retrieved 13 November 2021.
  70. ^ Erdmann, M. (2008). "Latimeria menadoensis". IUCN Red List of Threatened Species. 2008: e.T135484A4129545. doi:10.2305/IUCN.UK.2008.RLTS.T135484A4129545.en. Retrieved 13 November 2021.
  71. ^ Gilmore, Inigo (7 January 2006). "Dinosaur fish pushed to the brink by deep-sea trawlers". The Observer.
  72. ^ "Coelacanth". Animal Planet. 27 August 2012. Retrieved 29 October 2015.
  73. ^ Fricke, Hans; Hissmann, Karen; Schauer, Jürgen; Plante, Raphael (1995). "Yet more danger for coelacanths". Nature. 374 (6520): 314–5. Bibcode:1995Natur.374..314F. doi:10.1038/374314a0. S2CID 4282105.
  74. ^ a b Commerce, Protected Resources Webmaster, Office of Protected Resources, NOAA Fisheries, U.S. Department of. "Endangered Species Act Status Review Report for the Coelacanth (Latimeria chalumnae)" (PDF). nmfs.noaa.gov. Archived from the original (PDF) on 7 September 2015. Retrieved 30 October 2015.{{cite web}}: CS1 maint: multiple names: authors list (link)
  75. ^ "Proposed Rule To List the Tanzanian DPS of African Coelacanth as Threatened Under the Endangered Species Act". NOOA (US). Retrieved 30 October 2015.
  76. ^ "South Africa announces plans for Coelacanth Programme" (Press release). Science in Africa. February 2002. Archived from the original on 2 April 2015. Retrieved 19 April 2013.
  77. ^ "South African Coelacanth Conservation and Genome Resource Programme". African Conservation Foundation. Archived from the original on 2 April 2015. Retrieved 19 April 2013.
  78. ^ "The Creature Feature: 10 Fun Facts About the Coelacanth". Wired. 2 March 2015. Retrieved 30 October 2015.
  79. ^ Adams, Cecil (30 December 2011). "Know any good recipes for endangered prehistoric fish? Plus: Do caribou like the Alaska oil pipeline?". The Straight Dope.
  80. ^ Piper, Ross (2007). Extraordinary Animals: An Encyclopedia of Curious and Unusual Animals. Greenwood Press. ISBN 978-0-313-33922-6.[page needed]
  81. ^ Smith, J. L. B. (2017). The Annotated Old Four legs. Cape Town: Struik Travel & Heritage. pp. 322–327. ISBN 978-1-77584-501-0. OCLC 1100871937.
  82. ^ Mendes, Augusto B.; Guimarães, Felipe V.; Eirado-Silva, Clara B. P.; Silva, Edson P. (2017). "The ichthyological diversity of Pokémon" (PDF). Journal of Geek Studies. 4 (1): 39–67. ISSN 2359-3024. Retrieved 12 July 2019.
  83. ^ Williams, Leoma (24 May 2023). "20 Pokémon characters inspired by real wild animals". BBC Wildlife. Retrieved 10 December 2023.
  84. ^ "Animal Crossing's most elusive fish has a bizarre real-life backstory". Popular Science. 8 April 2020. Retrieved 10 December 2023.
  85. ^ Nairn, Lacie (1 April 2020). "Animal Crossing: How to Catch the Game's Rarest Fish". Comic Book Resources. Retrieved 10 December 2023.

Further reading

[edit]
  • Smith, J. L. B. (1956). Old Fourlegs: the Story of the Coelacanth. Longmans Green.
  • Fricke, Hans (June 1988). "Coelacanths – The Fish That Time Forgot". National Geographic. Vol. 173, no. 6. pp. 824–838. ISSN 0027-9358. OCLC 643483454.
  • Wade, Nicholas (18 April 2013). "Fish's DNA May Explain How Fins Turned to Feet". The New York Times. pp. A3.
  • Thomson, Keith S. (1991). Living Fossil: the Story of the Coelacanth. W. W. Norton.
  • Sepkoski, Jack (2002). "A compendium of fossil marine animal genera". Bulletins of American Paleontology. 364: 560. Archived from the original on 20 February 2009. Retrieved 17 May 2011.
  • Weinberg, Samantha (1999). A Fish Caught in Time: The Search for the Coelacanth. Fourth Estate.
  • Bruton, Mike (2015). When I Was a Fish: Tales of an Ichthyologist. Jacana Media(Pty)Ltd.
[edit]