South American lungfish
South American lungfish Temporal range: Late Cretaceous to recent [1]
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Clade: | Sarcopterygii |
Class: | Dipnoi |
Order: | Ceratodontiformes |
Family: | Lepidosirenidae Bonaparte, 1841 |
Genus: | Lepidosiren Fitzinger, 1837 |
Species: | L. paradoxa
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Binomial name | |
Lepidosiren paradoxa Fitzinger, 1837
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Synonyms[3][4][5] | |
(Genus)
(Species)
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The South American lungfish (Lepidosiren paradoxa), also known as the American mud-fish[6] and scaly salamanderfish,[7] is the single species of lungfish found in swamps and slow-moving waters of the Amazon, Paraguay, and lower Paraná River basins in South America.[8] Notable as an obligate air-breather, it is the sole member of its family Lepidosirenidae, although some authors also place Protopterus in the family.[9][10] In Brazil, it is known by the indigenous language Tupi name piramboia, which means "snake-fish" (Portuguese pronunciation: [piɾɐ̃ˈbɔjjɐ]), and synonyms pirarucu-bóia ([piɾɐɾuˈku ˈbɔjjɐ]), traíra-bóia ([tɾɐˈiɾɐ ˈbɔjjɐ]), and caramuru ([kɐɾɐmuˈɾu]).
Taxonomy
[edit]The South American lungfish is most closely related to the African lungfishes (family Protopteridae), and both families are thought to have diverged during the Early Cretaceous. Some papers suggest classifying both Lepidosiren and Protopterus within Lepidosirenidae, though authorities continue to classify both as distinct families.[9][10][11]
Description
[edit]The immature lungfish is spotted with gold on a black background; in the adult, this fades to a brown or gray color.[12] Its tooth-bearing premaxillary and maxillary bones are fused as in all Dipnoi. South American lungfish also share an autostylic jaw suspension (where the palatoquadrate is fused to the cranium) and powerful adductor jaw muscles with the other extant Dipnoi. Like the African lungfishes, this species has an elongated, almost eel-like body. It may reach a length of 125 cm (4.10 ft).[8] The pectoral fins are thin and thread-like, while the pelvic fins are somewhat larger, and set far back. The fins are connected to the shoulder by a single bone, which is a marked difference from most fish, whose fins usually have at least four bones at their base, and a marked similarity with nearly all land-dwelling vertebrates.[13] The gills are greatly reduced and essentially non-functional in the adults.[14]
Juvenile lungfish feed on insect larvae and snails, while adults are omnivorous, adding algae and shrimp to their diets, crushing them with their heavily mineralized tooth-plates. The fish's usual habitats disappear during the dry season, so they burrow into the mud and make a chamber about 30–50 cm (12–20 in) down, leaving a few holes to the surface for air.[14] During this aestivation, they produce a layer of mucus to seal in moisture, and slow their metabolism down greatly.[12]
Relatively little is known about the South American lungfish. They have adapted to cope with both droughts and floods due to evolving pulmonary mechanoreceptors.[15][16] When the rainy season begins, they come out and begin to mate. The parents build a nest for the young, which resemble tadpoles and have four external gills. To enrich the oxygen in the nest, the male develops highly vascularized structures on his pelvic fins that release additional oxygen into the water.[14] The young become air-breathing at about seven weeks. Juveniles have external threadlike gills very much like those of newts.[12] Fossils of the modern species have been found between 72 and 66 mya during the Maastrichtian stage of the late Cretaceous just before the KPG extinction that killed off the non-avian dinosaurs.[17]
As of August 2024, L. paradoxa has one of the longest genomes of any species (91 billion bases, 30 times as many as the human genome).[18] The largest genome belongs to the marbled lungfish, with 130 billion bases.[19][20][21] PiRNA, a type of RNA that normally suppresses transposon activity, was found in low levels in the animal and is possibly among the causes of such a large genome.[18][22]
See also
[edit]References
[edit]- ^ "Lepidosiren paradoxa Fitzinger 1837 (South American lungfish)". PBDB.
- ^ Frederico, R.G. (2022). "Lepidosiren paradoxa". IUCN Red List of Threatened Species. 2022: e.T49830702A159889457. doi:10.2305/IUCN.UK.2022-2.RLTS.T49830702A159889457.en. Retrieved 9 February 2023.
- ^ "Part 7- Vertebrates". Collection of genus-group names in a systematic arrangement. Archived from the original on 5 October 2016. Retrieved 30 June 2016.
- ^ Haaramo, Mikko (2007). "Ceratodiformes – recent lungfishes". Mikko's Phylogeny Archive. Retrieved 3 July 2016.
- ^ Froese, R.; Pauly, D. (2017). "Lepidosirenidae". FishBase version (02/2017). Retrieved 18 May 2017.
- ^ Ernst Heinrich Philipp August Haeckel; Edwin Ray Lankester; L. Dora Schmitz (1892). The History of Creation, Or, The Development of the Earth and Its Inhabitants by the Action of Natural Causes: A Popular Exposition of the Doctrine of Evolution in General, and of that of Darwin, Goethe, and Lamarck in Particular : from the 8. German Ed. of Ernst Haeckel. D. Appleton. p. 422. page 289
- ^ Konrad Guenther; Bernard Miall (1931). A Naturalist in Brazil: The Record of a Year's Observation of Her Flora, Her Fauna, and Her People. Houghton Mifflin Company. pp. 399. page 275
- ^ a b Froese, Rainer; Pauly, Daniel, eds. (2014). "Lepidosiren paradoxa". FishBase.
- ^ a b "FAMILY Details for Lepidosirenidae - Aestivating lungfishes". www.fishbase.se. Retrieved 2023-03-29.
- ^ a b Kemp, Anne; Cavin, Lionel; Guinot, Guillaume (2017-04-01). "Evolutionary history of lungfishes with a new phylogeny of post-Devonian genera". Palaeogeography, Palaeoclimatology, Palaeoecology. 471: 209–219. Bibcode:2017PPP...471..209K. doi:10.1016/j.palaeo.2016.12.051. ISSN 0031-0182.
- ^ Brownstein, Chase Doran; Harrington, Richard C; Near, Thomas J. (2023-04-12). "The biogeography of extant lungfishes traces the breakup of Gondwana". Journal of Biogeography. 50 (7): 1191–1198. Bibcode:2023JBiog..50.1191B. doi:10.1111/jbi.14609. ISSN 0305-0270. S2CID 258115076.
- ^ a b c Animal-world: South American Lungfish.
- ^ "Your Inner Fish" Neil Shubin, 2008,2009,Vintage, p.33
- ^ a b c Bruton, Michael N. (1998). Paxton, J.R.; Eschmeyer, W.N. (eds.). Encyclopedia of Fishes. San Diego: Academic Press. p. 70. ISBN 0-12-547665-5.
- ^ MESQUITA-SAAD, L. S. B.; LEITÃO, M. A. B.; PAULA-SILVA, M. N.; CHIPPARI-GOMES, A. R.; ALMEIDA-VAL, V. M. F. (August 2002). "Specialized metabolism and biochemical suppression during aestivation of the extant South American lungfish --Lepidosiren paradoxa". Brazilian Journal of Biology. 62 (3): 495–501. doi:10.1590/s1519-69842002000300014. ISSN 1519-6984. PMID 12530187.
- ^ de Moraes, Marcos F. P. G.; Höller, Sabine; da Costa, Oscar T. F.; Glass, Mogens L.; Fernandes, Marisa N.; Perry, Steven F. (July 2005). "Morphometric Comparison of the Respiratory Organs in the South American Lungfish Lepidosiren paradoxa (Dipnoi)". Physiological and Biochemical Zoology. 78 (4): 546–559. doi:10.1086/430686. ISSN 1522-2152. PMID 15957109. S2CID 10408527.
- ^ "Lepidosiren Fitzinger 1837 (South American lungfish)". PBDB.
- ^ a b Schartl, Manfred; Woltering, Joost M.; Irisarri, Iker; Du, Kang; Kneitz, Susanne; Pippel, Martin; Brown, Thomas; Franchini, Paolo; Li, Jing; Li, Ming; Adolfi, Mateus; Winkler, Sylke; de Freitas Sousa, Josane; Chen, Zhuoxin; Jacinto, Sandra (2024-08-14). "The genomes of all lungfish inform on genome expansion and tetrapod evolution". Nature: 1–8. doi:10.1038/s41586-024-07830-1. ISSN 1476-4687.
- ^ Leitch, I J (August 2007). "Genome sizes through the ages". Heredity. 99 (2): 121–122. doi:10.1038/sj.hdy.6800981. ISSN 0018-067X.
- ^ "Genome size and chromosome number database we - Various - BNID 100597". bionumbers.hms.harvard.edu. Retrieved 2024-08-17.
- ^ "Animal Genome Size Database:: Statistics". www.genomesize.com. Retrieved 2024-08-17.
- ^ Starr, Michelle (2024-08-15). "Weird Fish Breaks Largest Animal Genome Record With 30x Our DNA". ScienceAlert. Retrieved 2024-08-17.