West Indian Ocean coelacanth

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West Indian Ocean coelacanth
Temporal range: Ionian-Holocene, [1] 0.02–0  Ma
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Latimeria chalumnae.jpg
Latimeria chalumnae replica.jpg
CITES Appendix I (CITES) [3]
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Sarcopterygii
Class: Actinistia
Order: Coelacanthiformes
Family: Latimeriidae
Genus: Latimeria
Species:
L. chalumnae
Binomial name
Latimeria chalumnae
Latimeria distribution RUS.png
L. chalumnae range in red
Synonyms [4] [5]
  • Malania anjouanaeSmith, 1953
  • Latimeria anjouanae(Smith, 1953)

The West Indian Ocean coelacanth [6] (Latimeria chalumnae) (sometimes known as gombessa, [2] [7] African coelacanth, [8] or simply coelacanth [9] ) is a crossopterygian, [10] one of two extant species of coelacanth, a rare order of vertebrates more closely related to lungfish and tetrapods than to the common ray-finned fishes. The other extant species is the Indonesian coelacanth (L. menadoensis).

Contents

The West Indian Ocean coelacanth was historically known by fishermen around the Comoro Islands (where it is known as gombessa), Madagascar, and Mozambique in the western Indian Ocean, [11] but first scientifically recognised from a specimen collected in South Africa in 1938.

This coelacanth was once thought to be evolutionarily conservative, but discoveries have shown initial morphological diversity. [12] It has a vivid blue pigment, and is the better known of the two extant species. The species has been assessed as critically endangered on the IUCN Red List. [2]

Anatomy and physiology

Latimeria chalumnae model in the Oxford University Museum of Natural History Coelacanth1.JPG
Latimeria chalumnae model in the Oxford University Museum of Natural History

The average weight of Latimeria chalumnae is 80 kg (176 lb), and they can reach up to 2 m (6.5 ft) in length. Adult females are slightly larger than males. Latimeria chalumnae exhibit a deep royal blue color with spots used as a camouflage tactic for hunting prey. Similar anatomical adaptations include the abundance of visual cells such as rods to help see when light is limited. [10] This combined with the West Indian Ocean coelacanth's large eyes aid seeing in dark water. [13]

Similar to cartilaginous fish, Latimeria chalumnae has a rectal gland, pituitary gland, pancreas, and spinal cord. To balance osmotic pressure, these fish adopt an efficient mechanism of osmoregulation by retaining urea in their blood.

Latimeria chalumnae are an ovoviviparous species, which means that they retain their eggs internally until they hatch. They also have low fecundity due to their long gestation period of around 12 months, though not much is known about their age of sexual maturity. [14]

Habitat and behavior

Live coelacanth at 69 m off Pumula on the KwaZulu-Natal South Coast, South Africa Coelacanth off Pumula on the KwaZulu-Natal South Coast, South Africa, on 22 November 2019.png
Live coelacanth at 69 m off Pumula on the KwaZulu-Natal South Coast, South Africa

L. chalumnae are usually found between 180–210 m (590–690 ft) of depth, but are sometimes found as deep as 243 m (797 ft) [11] and as shallow as 54 metres (177 ft). [15] L. chalumnae tend to reside in underwater caves, which are most common at these depths. This may limit their maximum depth range, along with lack of prey. [11] They are known to spend the daytime within these lava caves, likely for protection from predators, and use the surrounding feeding grounds at night. [14] Coelacanths are opportunistic in their feeding. [16] Some of their known prey species are fish that include: Coranthus polyacanthus , Beryx splendens , Lucigadus ori and Brotula multibarbata . [16] Their intracranial joint and associated basicranial muscle likely play an important but unresolved role in feeding. [16]

Some individuals have been seen performing "headstands" as feeding behavior, allowing coelacanth to slurp prey from crevices within lava caves. [17] This behavior is made possible due to the coelacanth's ability to move both its upper and lower jaw, which is a unique trait in extant vertebrates that have bone skeletons. [17]

Population and conservation

L. chalumnae is widely but very sparsely distributed around the rim of the western Indian Ocean, from South Africa northward along the East African coast, especially the Tanga Region of Tanzania to Kenya, the Comoros, and Madagascar, seemingly occurring in small colonies. In 1991, it was estimated that 2-5 coelacanths were accidentally caught each year from Grand Comoro, making up about 1% of its population. [14] Between 1991 and 1994, there was an estimated 30% total population reduction of the coelacanth. [18] In 1998, the total population of the West Indian Ocean coelacanth was estimated to have been 500 or fewer, a number that would threaten the survival of the species. [19] Near Grand Comoro, an island northwest of Madagascar, a maximum of 370 individuals reside. [14] L. chalumnae is listed as critically endangered by IUCN. [2] In accordance with the Convention on International Trade of Endangered Species treaty, the coelacanth was added to Appendix I (threatened with extinction) in 1989. The treaty forbids international trade for commercial purposes and regulates all trade, including sending specimens to museums, through a system of permits.

Discovery

First discovery in South Africa

Preserved specimen of Latimeria chalumnae in the Natural History Museum, Vienna, Austria [length: 170 cm (67 in) - weight: 60 kg (130 lb)]. This specimen was caught on 18 October 1974, next to Salimani/Selimani (Grand Comoro, Comoro Islands) .mw-parser-output .geo-default,.mw-parser-output .geo-dms,.mw-parser-output .geo-dec{display:inline}.mw-parser-output .geo-nondefault,.mw-parser-output .geo-multi-punct,.mw-parser-output .geo-inline-hidden{display:none}.mw-parser-output .longitude,.mw-parser-output .latitude{white-space:nowrap} 11deg48'40.7''S 43deg16'3.3''E / 11.811306degS 43.267583degE / -11.811306; 43.267583. Latimeria Chalumnae - Coelacanth - NHMW.jpg
Preserved specimen of Latimeria chalumnae in the Natural History Museum, Vienna, Austria [length: 170 cm (67 in) - weight: 60 kg (130 lb)]. This specimen was caught on 18 October 1974, next to Salimani/Selimani (Grand Comoro, Comoro Islands) 11°48′40.7″S43°16′3.3″E / 11.811306°S 43.267583°E / -11.811306; 43.267583 .
Comoran coelacanth at the Comoros Pavilion at Expo 2020 Dubai Comoran Coelacanth Latimeria chalumnae Comoros Pavilion Expo 2020 Dubai Photo by Prof Dr Norman Ali Khalaf.jpg
Comoran coelacanth at the Comoros Pavilion at Expo 2020 Dubai

On December 23, 1938, Hendrik Goosen, the captain of the trawler Nerine, returned to the harbour at East London, South Africa, after a trawl between the Chalumna and Ncera Rivers. As he frequently did, he telephoned his friend, Marjorie Courtenay-Latimer, curator at East London Museum, to see if she wanted to look over the contents of the catch for anything interesting, and told her of the strange fish he had set aside for her. [20] Correspondence in the archives of the South African Institute for Aquatic Biodiversity (SAIAB, formerly the JLB Smith Institute of Ichthyology) show that Goosen went to great lengths to avoid any damage to this fish and ordered his crew to set it aside for the East London Museum. Goosen later told how the fish was steely blue when first seen but by the time the Nerine entered East London harbour many hours later the fish had become dark grey.

Failing to find a description of the creature in any of her books, Courtenay-Latimer attempted to contact her friend, Professor J. L. B. Smith, but he was away for Christmas. Unable to preserve the fish, she reluctantly sent it to a taxidermist. When Smith returned, he immediately recognized it as a coelacanth, known to science only from fossils. Smith named the fish Latimeria chalumnae in honor of Marjorie Courtenay-Latimer and the waters in which it was found. The two discoverers received immediate recognition, and the fish became known as a "living fossil". The 1938 coelacanth is still on display in the East London, South Africa, museum.

However, as the specimen had been stuffed, the gills and skeleton were not available for examination, and some doubt therefore remained as to whether it was truly the same species. Smith began a hunt for a second specimen that would take more than a decade.

The West Indian Ocean coelacanth was later found to be known to fishermen of the Grande Comore and Anjouan Islands, where it inhabits the slopes of at depths between 150 and 700 meters (500 and 2,300 ft). [18]

The second specimen, Malania anjouanae

A second specimen with a missing dorsal fin and deformed tail fin was captured in 1952 off the coast of Anjouan (Comoros). At the time it was believed to be a new species and placed in a new genus as well, Malania, named in honour of the Prime Minister of South Africa at the time, Daniel François Malan, without whose help the specimen would not have been preserved with its muscles and internal organs more or less intact. [21] It has since been accepted as Latimeria chalumnae.

Taxonomy

The West Indian Ocean coelacanth (Latimeria chalumnae) is allocated to the genus Latimeria, which it shares with one other species, the Indonesian coelacanth (Latimeria menadoensis). [22] From September 1997-July 1998, two coelacanth fish were discovered off the coast of Manado Tua Island, Sulawesi, Indonesia, different from the Latimeria chalumnae discovered near the Comores. The Indonesian coelacanth is identifiable by its brownish grey color. [22]

Genetics

The genome of Latimeria chalumnae was sequenced in 2013 to provide insight into tetrapod evolution. [20] The coelacanths were long believed to be the closest relatives to the first tetrapods on land due to their body characteristics. [8] However, genetic sequencing proved that the lungfishes are in fact the closest relatives to land tetrapods. [8] The full sequence and annotation of the entry is available on the Ensembl genome browser. [23]

See also

Related Research Articles

<span class="mw-page-title-main">Geography of the Comoros</span>

The Comoros archipelago consists of four main islands aligned along a northwest–southeast axis at the north end of the Mozambique Channel, between Mozambique and the island of Madagascar. Still widely known by their French names, the islands officially have been called by their Swahili names by the Comorian government. They are Grande Comore (Njazidja), Mohéli (Mwali), Anjouan (Nzwani), and Mayotte (Mahoré). The islands' distance from each other—Grande Comore is some 200 kilometers from Mayotte, forty kilometers from Mohéli, and eighty kilometers from Anjouan—along with a lack of good harbor facilities, make transportation and communication difficult. Comoros are sunny islands.

<span class="mw-page-title-main">Coelacanth</span> Order of lobe-finned fishes

Coelacanths are an ancient group of lobe-finned fish (Sarcopterygii) in the class Actinistia. As sarcopterygians, they are more closely related to lungfish and tetrapods than to ray-finned fish.

<span class="mw-page-title-main">Lungfish</span> A type of bony fish

Lungfish are freshwater vertebrates belonging to the class Dipnoi. Lungfish are best known for retaining ancestral characteristics within the Osteichthyes, including the ability to breathe air, and ancestral structures within Sarcopterygii, including the presence of lobed fins with a well-developed internal skeleton. Lungfish represent the closest living relatives of the tetrapods. The mouths of lungfish typically bear tooth plates, which are used to crush hard shelled organisms.

<span class="mw-page-title-main">Sarcopterygii</span> Class of fishes

Sarcopterygii — sometimes considered synonymous with Crossopterygii — is a taxon of the bony fish known as the lobe-finned fish or sarcopterygians, characterised by prominent muscular limb buds (lobes) within the fins, which are supported by articulated appendicular skeletons. This is in contrast to the other clade of bony fish, the Actinopterygii, which have only skin-covered bony spines (lepidotrichia) supporting the fins.

<span class="mw-page-title-main">Living fossil</span> Organism resembling a form long shown in the fossil record

A living fossil is an extant taxon that phenotypically resembles related species known only from the fossil record. To be considered a living fossil, the fossil species must be old relative to the time of origin of the extant clade. Living fossils commonly are of species-poor lineages, but they need not be. While the body plan of a living fossil remains superficially similar, it is never the same species as the remote relatives it resembles, because genetic drift would inevitably change its chromosomal structure.

<span class="mw-page-title-main">Comoro Islands</span> Archipelago in the Indian Ocean

The Comoro Islands or the Comoros are an archipelago of volcanic islands situated off the southeastern coast of Africa, to the east of Mozambique and northwest of Madagascar. The islands are politically divided between the Union of the Comoros, a sovereign country, and Mayotte, an Overseas Department of France.

<i>Latimeria</i> Genus of lobe-finned fishes from the Indian Ocean

Latimeria is a rare genus of fish which contains the only living species of coelacanth. It includes two extant species: the West Indian Ocean coelacanth and the Indonesian coelacanth. They follow the oldest known living lineage of Sarcopterygii, which means they are more closely related to lungfish and tetrapods than to the common ray-finned fishes and cartilaginous fishes.

<span class="mw-page-title-main">Marjorie Courtenay-Latimer</span> South African naturalist (1907–2004)

Marjorie Eileen Doris Courtenay-Latimer was a South African museum official, who in 1938, brought to the attention of the world the existence of the coelacanth, a fish thought to have been extinct for 65 million years.

James Leonard Brierley Smith was a South African ichthyologist, organic chemist, and university professor. He was the first to identify a taxidermied fish as a coelacanth, at the time thought to be long extinct.

The Chalumna River is a river in the Eastern Cape, South Africa. It is approximately 78 km long, forming at the confluence of two small rivers, the Qugwala in the West and the Mtyolo in the East. It empties into the Indian Ocean through an estuary near Kayser's Beach.

<span class="mw-page-title-main">Balloon shark</span> Species of shark

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<span class="mw-page-title-main">Latimeriidae</span> Family of fishes

Latimeriidae is the only extant family of coelacanths, an ancient lineage of lobe-finned fish. It contains two extant species in the genus Latimeria, found in deep waters off the coasts of southern Africa and east-central Indonesia. In addition, several fossil genera are known from the Mesozoic of Europe, the Middle East, and the southeastern United States, dating back to the Triassic.

<span class="mw-page-title-main">Sodwana Bay</span> Bay of the Indian Ocean on the northern KwaZulu-Natal coast of South Africa

Sodwana Bay is a bay in South Africa on the KwaZulu Natal north coast, between St. Lucia and Lake Sibhayi. It is in the Sodwana Bay National Park, and the Maputaland Marine Reserve, and is a popular recreational diving destination. The term is commonly used to refer to both the marine reserve and the terrestrial park, as well as the geographical bay.

<span class="mw-page-title-main">Indonesian coelacanth</span> Species of coelacanth

The Indonesian coelacanth, also called Sulawesi coelacanth, is one of two living species of coelacanth, identifiable by its brown color. It is listed as vulnerable by the IUCN, while the other species, L. chalumnae is listed as critically endangered. Separate populations of the Indonesian coelacanth are found in the waters of north Sulawesi as well as Papua and West Papua.

<i>Axelrodichthys</i> Extinct genus of coelacanths

Axelrodichthys is an extinct genus of mawsoniid coelacanth from the Cretaceous of Africa, North and South America, and Europe. Several species are known, the remains of which were discovered in the Lower Cretaceous (Aptian-Albian) of Brazil, North Africa, and possibly Mexico, as well as in the Upper Cretaceous of Morocco (Cenomanian), Madagascar and France. The Axelrodichthys of the Lower Cretaceous frequented both brackish and coastal marine waters while the most recent species lived exclusively in fresh waters. The French specimens are the last known fresh water coelacanths. Most of the species of this genus reached 1 metre to 2 metres in length. Axelrodichthys was named in 1986 by John G. Maisey in honor of the American ichthyologist Herbert R. Axelrod.

<span class="mw-page-title-main">Mawsoniidae</span> Extinct family of coelacanths

Mawsoniidae is an extinct family of prehistoric coelacanth fishes which lived during the Triassic to Cretaceous periods. Members of the family are distinguished from their sister group, the Latimeriidae by the presence of ossified ribs, a coarse rugose texture on the dermatocranium and cheek bones, the absence of the suboperculum and the spiracular, and reduction or loss of the descending process of the supratemporal. Mawsoniids are known from North America, Europe, South America, Africa, Madagascar and Asia. Unlike Latimeriidae, which are exclusively marine, Mawsoniidae were also native to freshwater and brackish environments. Mawsoniids represent among the youngest known coelacanths, with the youngest known remains of the freshwater genus Axelrodichthys from France and an indeterminate marine species from Morocco being from the final stage of the Cretaceous, the Maastrichtian, roughly equivalent in age to the youngest known fossils of latimeriids. Species of Mawsonia and Trachymetopon are known to have exceeded 5 metres in length, making them among the largest known bony fish to have ever existed.

<span class="mw-page-title-main">Fish fin</span> Bony skin-covered spines or rays protruding from the body of a fish

Fins are moving appendages protruding from the body of fish that interact with water to generate thrust and help the fish swim. Apart from the tail or caudal fin, fish fins have no direct connection with the spine and are supported only by muscles.

<span class="mw-page-title-main">Evolution of fish</span> Origin and diversification of fish through geologic time

The evolution of fish began about 530 million years ago during the Cambrian explosion. It was during this time that the early chordates developed the skull and the vertebral column, leading to the first craniates and vertebrates. The first fish lineages belong to the Agnatha, or jawless fish. Early examples include Haikouichthys. During the late Cambrian, eel-like jawless fish called the conodonts, and small mostly armoured fish known as ostracoderms, first appeared. Most jawless fish are now extinct; but the extant lampreys may approximate ancient pre-jawed fish. Lampreys belong to the Cyclostomata, which includes the extant hagfish, and this group may have split early on from other agnathans.

Jacques Millot was a French arachnologist, who also made significant contributions in the fields of ichthyology and ethnology.

<i>Serenichthys</i> Genus of coelacanth fish

Serenichthys kowiensis is a fossil species of coelacanth described in 2015 from near Grahamstown in South Africa.

References

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