Biology:Amphibious fish

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Mudskippers (Periophthalmus gracilis shown) are among the most land adapted of fish (excepting, from a cladistic perspective, tetrapods), and are able to spend days moving about out of water.

Amphibious fish are fish that are able to leave water for extended periods of time. About 11 distantly related genera of fish are considered amphibious. This suggests that many fish genera independently evolved amphibious traits, a process known as convergent evolution. These fish use a range of terrestrial locomotory modes, such as lateral undulation, tripod-like walking (using paired fins and tail), and jumping. Many of these locomotory modes incorporate multiple combinations of pectoral-, pelvic-, and tail-fin movement.

Many ancient fish had lung-like organs, and a few, such as the lungfish and bichir, still do. Some of these ancient "lunged" fish were the ancestors of tetrapods. In most recent fish species, though, these organs evolved into the swim bladders, which help control buoyancy. Having no lung-like organs, modern amphibious fish and many fish in oxygen-poor water use other methods, such as their gills or their skin to breathe air. Amphibious fish may also have eyes adapted to allow them to see clearly in air, despite the refractive index differences between air and water.

List of amphibious fish

Lung breathers

  • Lungfish (Dipnoi): Six species have limb-like fins, and can breathe air. Some are obligate air breathers, meaning they will drown if not given access to breathe air. All but one species bury in the mud when the body of water they live in dries up, surviving up to two years until water returns.
  • Bichir (Polypteridae): These 12 species are the only ray-finned fish to retain lungs. They are facultative air breathers, requiring access to surface air to breathe in poorly oxygenated water.[1]
  • Various other "lunged" fish: now extinct, a few of this group were ancestors of the stem tetrapods that led to all tetrapods: Lissamphibia, sauropsids and mammals.

Gill or skin breathers

  • Rockskippers: These blennies are found on islands in the Indian and Pacific Oceans. They come onto land to catch prey and escape aquatic predators, often for 20 minutes or more. Leaping blennies (Alticus arnoldorum) are able to jump over land using their tails. On Rarotonga, one species has evolved to become largely terrestrial.[2][3]
  • Woolly sculpin (Clinocottus analis): Found in tide pools along the Pacific Coast, these sculpins leave water if the oxygen levels get low, and they can breathe air.[4]
  • Mudskippers (Oxudercinae): This subfamily of gobies is probably the most land-adapted of fish. Mudskippers are found in mangrove swamps in Africa and the Indo-Pacific; they frequently come onto land, and can survive in air for up to 3-1/2 days.[5] Mudskippers breathe through their skin and through the lining of the mouth (the mucosa) and throat (the pharynx). This requires the mudskipper to be wet, limiting them to humid habitats. This mode of breathing, similar to that employed by amphibians, is known as cutaneous breathing. They propel themselves over land on their sturdy fore fins. Some of them are also able to climb trees and skip atop the surface of the water.[6]
  • Mangrove killifish (Mangrove rivulus): It can survive for about two months on land, where it breathes through its skin.
  • Eels: Some eels, such as the European eel and the American eel, can live for an extended time out of water and can also crawl on land if the soil is moist. The moray Echidna catenata sometimes leaves the water to forage.[7]
  • Swamp eels, which are not true eels, can absorb oxygen through their highly vascularized mouths and pharynges, and in some cases (e.g., Monopterus rongsaw) through their skin.
  • Snakehead fish (Channidae): This family of fish consists of obligate air breathers, using their suprabranchial organs, which are a primitive labyrinth organ. The northern snakehead of Eastern Asia can "walk" on land by wriggling and using its pectoral fins, which allows it to move between the slow-moving, and often stagnant and temporary bodies of water in which it lives.
  • Airbreathing catfish (Clariidae): Amphibious species of this family may venture onto land in wet weather, such as the eel catfish (Channallabes apus), which lives in swamps in Africa, and is known to hunt beetles on land.[8]
  • Labyrinth fish (Anabantoidei). This suborder of fish also use a labyrinth organ to breathe air. Some species from this group can move on land. Amphibious fish from this family are the climbing perches, African and Southeast Asian fish that are capable of moving from pool to pool over land by using their pectoral fins, caudal peduncle, and gill covers as a means of locomotion. Climbing gourami are said to move at night in groups.[citation needed]
  • Arapaima are obligate airbreathers that breathe air through a modified swim-bladder.[citation needed]
  • Knifefish: (Gymnotiformes) some species of Gymnotiformes, otherwise known as the knifefish, are obligate oxygen breathers that require resurfacing in order to survive, such as Electrophorus electricus and Gymnotus carapo, the latter of which uses an "esophageal force pump" to siphon air into its lungs for gas exchange.[9][10][11]

See also

References

  1. "J.B. Graham Air-breathing fishes. Evolution, diversity and adaptation, xi, 299p. San Diego, California: Academic Press, 1997.". Journal of the Marine Biological Association of the United Kingdom 77 (4): 1265. November 1997. doi:10.1017/s0025315400038893. ISSN 0025-3154. 
  2. Ord, T. J.; Summers, T. C.; Noble, M. M.; Fulton, C. J. (2017-03-02). "Ecological release from aquatic predation is associated with the emergence of marine blenny fishes onto land". The American Naturalist 189 (5): 570–579. doi:10.1086/691155. PMID 28410030. 
  3. Keim, Brandon. "Video: How Leaping Fish Species Left the Water — For Good". https://www.wired.com/wiredscience/2010/06/leaping-blennies/. 
  4. "Clinocottus analis summary page". http://fishbase.org/summary/Clinocottus-analis.html. 
  5. "The mudskipper - Homepage". http://www.themudskipper.org/. 
  6. Wicaksono, A.; Hidayat, S.; Retnoaji, B.; Alam, P. (2020). "The water-hopping kinematics of the tree-climbing fish, Periophthalmus variabilis". Zoology 139: 125750. doi:10.1016/j.zool.2020.125750. PMID 32086143. https://www.pure.ed.ac.uk/ws/files/131465246/Pre_print_GreenOpenAccess_Wicaksono_et_al_2020_Zoology.pdf. 
  7. Froese, Rainer. "Echidna catenata (Bloch, 1795)". FishBase. http://www.fishbase.org/summary/Echidna-catenata.html. 
  8. African fish leaps for land bugs on BBC News
  9. Johansen, Kjell; Lenfant, Claude; Knut-Schmidt, Nielsen; Petersen, Jorge A (June 1968). "Gas exchange and control of breathing in the electric eel, Electrophorus electricus". Zeitschrift für vergleichende Physiologie 61 (2): 137–163. doi:10.1007/BF00341112. https://link.springer.com/article/10.1007/BF00341112. Retrieved 30 May 2022. 
  10. Liem, Karel F; Eclancher, Bernard; Fink, William L (Jan–Feb 1984). "Aerial Respiration in the Banded Knife Fish Gymnotus carapo (Teleostei: Gymnotoidei)". Physiological Zoology 57 (1): 185–195. doi:10.1086/physzool.57.1.30155979. https://www.jstor.org/stable/30155979. Retrieved 30 May 2022. 
  11. Farber, Jay P; Rahn, Hermann (May 1970). "Gas exchange between air and water and the ventilation pattern in the electric eel". Respiration Physiology 9 (2): 151–161. doi:10.1016/0034-5687(70)90067-8. PMID 5445180. https://www.sciencedirect.com/science/article/abs/pii/0034568770900678. Retrieved 30 May 2022.