Eelpout

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Eelpout
Halfbarred Pout Gymnelus hemifasciatus FemaleTypeA.jpg
Gymnelus hemifasciatus
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Scorpaeniformes
Suborder: Zoarcoidei
Family: Zoarcidae
Swainson, 1839 [1] [2]
Subfamilies

see text

The eelpouts are the ray-finned fish family Zoarcidae. As the common name suggests, they are somewhat eel-like in appearance. All of the 300 species are marine and mostly bottom-dwelling, some at great depths. Eelpouts are predominantly found in the Northern Hemisphere. The arctic, north pacific and north Atlantic oceans have the highest concentration of species, however species are found around the globe.

Contents

They are conventionally placed in the "perciform" assemblage; in fact, the Zoarcoidei seem to be specialized members of the Gasterosteiformes-Scorpaeniformes group of Acanthopterygii. [3]

The largest member of the family is Zoarces americanus , which may reach 1.1 m in length. Other notable genera include Lycodapus and Gymnelus .

Taxonomy

The eelpout family was first proposed as the family Zoarchidae in 1839 by the English naturalist William John Swainson but the spelling was changed to Zoarcidae after the spelling of the genus Zoarces was corrected by Theodore Gill in 1861. [1] The 5th edition of Fishes of the World classifies this family within the suborder Zoarcoidei, within the order Scorpaeniformes. [4] Other authorities classify this family in the infraorder Zoarcales within the suborder Cottoidei of the Perciformes because removing the Scorpaeniformes from the Perciformes renders that taxon non monophyletic. [5]

Fishes of the World mentions four subfamilies but does not assign genera to the subfamilies [4] but these were set out in Anderson and Federov's Annotated Checklist [6] and this has been followed by FishBase [7] and Catalog of Fishes . [8]

Evolution and adaptations

Eelpout species have evolved to efficiently give birth to future generations. They utilize demersal eggs, which are eggs that are deposited on the seafloor, and can be either free or connected to the substrate. These egg clusters can range from 9.2 mm, to 9.8 mm, which are the largest compared to any other marine egg cluster. [9] It has been found that eelpouts grow larger and heavier in areas where the water is relatively shallow. In these areas, this species consumes molluscs, invertebrates, and small fish. The difference of biodiversity at varying depths has led to the evolution of distinct populations, connecting to the study that temperature might have a significant effect on them. [10] Studies have shown that there are three large families of eelpout species; Zoarcidae, Stichaeidae, and Pholidae. These species have been thought to have evolved in northern, colder seas, each diverging off of each other at different points in time, millions of years ago. [11] The notched-fin eelpout, which is commonly found in the Sea of Okhotsk, have shown researchers what the average length of an adult eelpout is, usually sitting between 21 and 26 cm long (females typically larger than males). [12] Their size has been found to increase as the depth of water in which they have been studied lowers. They feed commonly on Gammarids (small, shrimp like organisms), Polychaetes (marine worms), and Bivalves (clams and muscles) on the seafloor. [12]

Subfamilies and genera

The eelpouts are classified into four subfamilies and 61 genera with around 300 species: [8] [1]

Bothrocara brunneum Bothrocara brunneum.jpg
Bothrocara brunneum
Lycodes turneri PolarEelpout-B-Sheiko.jpg
Lycodes turneri
Pachycara sp. Pachycara sp.jpg
Pachycara sp.
Zoarces viviparus 3 specimens of Zoarces viviparus.jpg
Zoarces viviparus

Characteristics

The body of eelpouts is relatively elongated and laterally compressed. [13] Their heads are relatively small and ovoid. Juveniles have a more rounded snout and relatively larger eye than adults. [13] Their scales are absent or very small. [14] The dorsal and anal fins are continuous down their bodies up to their caudal fin. They produce the pigment biliverdin, which turns their bones green. This feature has no apparent evolutionary function and is harmless. [15] Overall, there is no sexual dimorphism. [16]

Biology

Little is known about eelpout populations because they often slip through nets in sampling studies, and because some species live in inaccessibly deep habitats. Species for which trophic ecology has been documented are typically, if not always, benthic scavengers or predators. [15] [17] At least one species has also adapted to able to breathe air when out of water. [15]

Timeline

QuaternaryNeogenePaleogeneHolocenePleist.Plio.MioceneOligoceneEocenePaleoceneAnarrhichthysAnarhichasQuaternaryNeogenePaleogeneHolocenePleist.Plio.MioceneOligoceneEocenePaleoceneEelpout

Physiology

Metabolic adaptations to low temperatures

Species of eelpouts have adapted in order to grow and thrive in the extreme low temperatures of their habitats. The metabolic responses of Antarctic and temperate eelpout species during exercise and subsequent recovery at 0 °C [18] is a point of emphasis when understanding this species. Contrary to the hypothesis of reduced glycolytic capacity in Antarctic fish as an adaptation to low temperatures, findings revealed similar increases in white muscle lactate, intracellular pH drop, and phosphocreatine depletion during strenuous exercise in both species. Notably, Antarctic eelpout exhibited faster recovery kinetics, including lactate clearance. This suggests a superior metabolic cold compensation mechanism compared to temperate eelpout. The study also proposed a correlation between reduced ATP energy content and muscular fatigue, highlighting the intricate metabolic adjustments crucial for sustaining activity in extreme cold conditions. [19] These environmental factors surrounding this species show how it has adapted and survived over time.

Thermal stress responses

As global temperatures continue to rise, understanding how aquatic species adapt to thermal stress becomes increasingly crucial. The physiological responses of temperate eelpout (Zoarces viviparus) from the North Sea and Antarctic eelpout (Pachycara brachycephalum) to gradually increasing water temperatures were examined. The study explored parameters such as standard metabolic rate (SMR), intracellular pH regulation, and the upper critical temperature limit (TcII), to explain the species' thermal tolerance. [20] Results revealed distinct differences in metabolic responses between the two species, indicating varied thermal sensitivities and adaptation strategies. The habitat of an eelpout can vary greatly throughout the year, as seasonal temperatures can change drastically between 3 and 12 degrees C. With increasing temperatures of the water in these regions, the eelpouts struggle to cope. [20] Certain signs of this struggle are apparent when being studied in a lab, as they raise their pectoral fins, swim around more vigorously, and attempt to jump out of their holding aquariums, leading to the conclusion that higher temperatures lead to higher levels of agitation. For short periods of time, however, this species is able to cope. [20] These findings have implications for understanding the physiological constraints faced by eelpout fish under thermal stress and offer insights into potential shifts in species distribution patterns driven by global warming.

Related Research Articles

<span class="mw-page-title-main">Viviparous eelpout</span> Species of fish

The viviparous eelpout, also known as the, viviparous blenny and European eelpout is species of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts. It is notable for being ovoviviparous and gives birth to live larvae. It is a common soup ingredient in Mediterranean countries. The bones are of greenish colour, due to a harmless pigment. Their skin is slimy and the colour is variable.

Zoarces is a genus of marine ray-finned fishes belonging to the family Zoarcidae, the eelpouts. It is the only genus in the subfamily Zoarcinae. These eelpouts are found in the northern Atlantic and northern Pacific Oceans.

Aiakas is a genus of marine ray-finned fishes belonging to the family Zoarcidae the eelpouts. These fishes are found in the southwestern Atlantic Ocean.

<i>Bothrocara</i> Genus of fishes

Bothrocara is a genus of marine ray-finned fishes belonging to the family Zoarcidae, the eelpouts. They are found in the Pacific Ocean with one species reaching the southwestern Atlantic Ocean.

<span class="mw-page-title-main">Zoarcoidei</span> Suborder of fishes

Zoarcoidei is a suborder of marine ray-finned fishes belonging to the order Scorpaeniformes. The suborder includes the wolffishes, gunnels and eelpouts. The suborder includes about 400 species. These fishes predominantly found in the boreal seas of the northern hemisphere but they have colonised the southern hemisphere.

<span class="mw-page-title-main">Ocean pout</span> Species of fish

The ocean pout is an eelpout in the family Zoarcidae. It is found in the Northwest Atlantic Ocean, off the coast of New England and eastern Canada. The fish has antifreeze proteins in its blood, giving it the ability to survive in near-freezing waters.

<i>Pachycara</i> Genus of fishes

Pachycara is a genus of marine ray-finned fishes belonging to the family Zoarcidae, the eelpouts. The fishes in this genus are found in the Atlantic, Indian, Southern and Pacific Ocean.

<i>Lycodichthys</i> Genus of fishes

Lycodichthys is a genus of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts. They are found in the Southern Ocean.

<i>Lycenchelys</i> Genus of fishes

Lycenchelys is a genus of marine ray-finned fishes belonging to the family Zoarcidae, the eelpouts. The genus has almost cosmopolitan distribution.

Gymnelinae is a subfamily of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts. Most species are found in the North Pacific Ocean but one genus is cosmopolitan, and another is endemic to the Southern Ocean.

Andriashevia is a monospecific genus of marine ray-finned fish belonging to the subfamiy Gymnelinae of the family Zoarcidae, the eelpouts, its only species is Andriasheevia aptera. It is found in the northwestern Pacific Ocean, where it occurs off the Pacific coast of Japan. It appears to be a demersal fish which is associated with large red gorgonian corals, e.g. Paragorgia. Examinations of the stomach contents of collected specimens has shown that its diet is mainly crustaceans but it likely also feeds on encrusting invertebrates which it searches for among coral branches and the hard substrates they live in. This species attains a maximum published standard length of 19.3 cm (7.6 in). Unlike other species in the subfamily Gymnelinae, this taxon has no pectoral fins. The genus name honours the Soviet ichthyologist Anatoly Petrovich Andriashev for his work on fishes of the Russian Far East and especially eelpouts. The specific name, aptera means "without wings" and refers to the absence of pectoral fins.

<i>Davidijordania</i> Genus of fishes

Davidijordania is a genus of marine ray-finned fishes belonging to the family Zoarcidae, the eelpouts. The fishes in this genus are found in the northwestern Pacific Ocean.

Lycodinae is a subfamily of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts. These eelpouts are found are in all the world's oceans, with a number of species being found off southern South America.

<i>Austrolycus</i> Genus of fishes

Austrolycus is a genus of marine ray-finned fishes belonging to the family Zoarcidae, the eelpouts. The two species in this genus are found in the southeastern Pacific Ocean and the western South Atlantic Ocean off southern South America and the Falkland Islands.

Bentartia is a genus of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts. Some authorities treat this genus as monospecific, with the only species being Bentartia cinerea of the Southern Ocean, but other authorities include 4 species from the eastern Pacific Ocean.

<i>Iluocoetes</i>

Iluocoetes is a monospecific genus of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts. The only species in the genus is Iluocoetes fimbriatus. This species is found off southern South America, off Chile and Argentina, in the southeastern Pacific and southwestern Atlantic Oceans.

Lycodapus is a genus of marine ray-finned fishes belonging to the family Zoarcidae, the eelpouts. The species in this genus are found in the Pacific and Southern Oceans.

Lycodonus is a genus of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts. The species in this genus are found in the North and Southern Atlantic Ocean. These fishes are sometimes called scutepouts.

The bearded eelpout is a species of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts. This species is the only species in the monospecific genus Lyconema. It is found in the eastern Pacific Ocean.

Lycozoarces is a monospecific genus of marine ray-finned fish belonging to the family Zoarcidae, the eelpouts, its only species being Lycozoarces regani. It is the only genus in the monogeneric subfamily Lycozoarinae. This taxon occurs in the northwestern Pacific Ocean in the Sea of Okhotsk and the Tatar Strait in the northern Sea of Japan

References

  1. 1 2 3 Richard van der Laan; William N. Eschmeyer & Ronald Fricke (2014). "Family-group names of Recent fishes". Zootaxa. 3882 (2): 001–230. doi: 10.11646/zootaxa.3882.1.1 . PMID   25543675.
  2. Swainson, William (1839). On the Natural History and Classification of Fishes, Amphibians, and Reptiles. Vol. 2. London: Longman, Orme, Brown, Greene, & Longmans. pp. 82–83, 184, 283. doi: 10.5962/bhl.title.62140 .
  3. Kawahara, R.; Miya, M.; Mabuchi, K.; Lavoué, S.; Inoue, J.G.; Satoh, T.P.; Kawaguchi, A. & Nishida, M. (2008). "Interrelationships of the 11 gasterosteiform families (sticklebacks, pipefishes, and their relatives): a new perspective based on whole mitogenome sequences from 75 higher teleosts". Molecular Phylogenetics and Evolution. 46 (1): 224–36. doi:10.1016/j.ympev.2007.07.009. PMID   17709262.
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  7. Froese, Rainer, and Daniel Pauly, eds. (2022). "Zoarcidae" in FishBase . June 2022 version.
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  9. "INDEX", Cognitive Ergonomics, Elsevier, pp. 257–261, 1990, retrieved 2024-04-10
  10. Publishers, Estonian Academy (2016). Proceedings of the Estonian Academy of Sciences, Biology and Ecology. Estonian Academy Publishers.
  11. Radchenko, O. A. (2016). "Timeline of the evolution of eelpouts from the suborder Zoarcoidei (Perciformes) based on DNA variability". Journal of Ichthyology. 56 (4): 556–568. doi:10.1134/S0032945216040123. ISSN   0032-9452.
  12. 1 2 Il’insky, E. N.; Kuznetsova, N. A. (July 2010). "Spatial and length distribution, sex composition, and feeding of the notched-fin eelpout Zoarces elongatus (Perciformes: Zoarcidae) in the Sea of Okhotsk". Russian Journal of Marine Biology. 36 (4): 252–257. doi:10.1134/S1063074010040036. ISSN   1063-0740.
  13. 1 2 Anderson, M. Eric (1988-02-05). "Eucryphycus, a new genus of California eelpout (Teleostei: Zoarcidae) based on Maynea californica Starks and Mann, 1911". Proceedings of the California Academy of Sciences. 4th. 45 (5): 89-96 p. 91.
  14. "Family Zoarcidae: Eelpouts". Key to Fishes of the Puget Sound. Burke Museum. Retrieved 10 September 2022.
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  16. Anderson, M. Eric (1989-12-20). "Review of the eelpout genus Pachycara Zugmayer, 1911 (Teleostei: Zoarcidae), with descriptions of six new species". Proceedings of the California Academy of Sciences. 4th. 46 (10): 221–242.
  17. Belman, Bruce W.; Anderson, M. Eric (May 18, 1979). "Aquarium Observations on Feeding by Melanostigma pammelas (Pisces: Zoarcidae)". Copeia. 1979 (2): 366–369. doi:10.2307/1443432. JSTOR   1443432.
  18. Hardewig, I.; Van Dijk, P. L. M.; Pörtner, H. O. (1998-06-01). "High-energy turnover at low temperatures: recovery from exhaustive exercise in Antarctic and temperate eelpouts". American Journal of Physiology-Regulatory, Integrative and Comparative Physiology. 274 (6): R1789–R1796. doi:10.1152/ajpregu.1998.274.6.r1789. ISSN   0363-6119.
  19. Brodte, E.; Knust, R.; Pörtner, H. O. (2006-06-23). "Temperature-dependent energy allocation to growth in Antarctic and boreal eelpout (Zoarcidae)". Polar Biology. 30 (1): 95–107. doi:10.1007/s00300-006-0165-y. ISSN   0722-4060.
  20. 1 2 3 Zakhartsev, M. V.; De Wachter, B.; Sartoris, F. J.; Pörtner, H. O.; Blust, R. (2003-05-28). "Thermal physiology of the common eelpout (Zoarces viviparus)". Journal of Comparative Physiology B. 173 (5): 365–378. doi:10.1007/s00360-003-0342-z. ISSN   0174-1578.
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