Biology:Carangiformes

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Carangiformes is a large and diverse order of ray-finned fishes within the clade Percomorpha. It is part of a sister clade to the Ovalentaria, alongside its sister group, the Anabantaria (including Anabantiformes and Synbranchiformes). The order includes ecologically diverse groups such as the jacks and trevallies, flatfishes, barracudas, billfishes, and archerfishes.

The Carangiformes has traditionally been regarded as a monotypic order with only the family Carangidae within it by taxonomic authorities; other families currently part of the order were previously classified as part of the wider order Perciformes. The 5th edition of Fishes of the World classify six families within Carangiformes,[1] with more recent authorities expanding the order to include up to 30 families, based on phylogenetic evidence.[2]

Description

While the expanded order Carangiformes is primarily defined by molecular data, the core group (suborder Carangoidei) shares specific synapomorphies:

Most carangiforms are medium to large-sized predatory fish, ranging from 22 cm (8.7 in) to 2.5 m (8.2 ft) in length. Body shapes vary from slender and fusiform (e.g., barracudas, cobia) to deep-bodied and laterally compressed (e.g., trevallies, moonfish, flatfishes). Most species are marine, inhabiting primarily tropical and subtropical waters, though some are able to live in freshwater during certain parts of their lives (giant trevally, all archerfish), and some live entirely in freshwater (river tonguesole).

Classification

The order Carangiformes has historically been either subsumed within Perciformes or used exclusively for the families in the suborder Carangoidei (Carangidae, Coryphaenidae, Rachycentridae, Echeneidae, and Nematistiidae). However, recent genetic studies have redefined the group to resolve the paraphyly of Perciformes, incorporating many more groups such as the highly specialized flatfishes.

The earliest known carangiform fossils are species of the moonfish genus Mene from the Late Paleocene of Peru and Tunisia.[4]

Taxonomy

The following classification follows Eschmeyer's Catalog of Fishes (2025):[5]

The following fossil families are also known:[6]

  • Order Carangiformes
    • ?Family †Pygaeidae Jordan, 1905
    • Suborder Pleuronectoidei
      • Family †Amphistiidae Boulenger, 1902
      • Family †Joleaudichthyidae Chabanaud, 1937
    • Suborder Menoidei
    • Suborder Carangoidei
      • Family †Ductoridae Blot, 1969[8]
      • Family †Opisthomyzonidae Jordan, 1923

Phylogenies

The following cladogram is based on a 2023 phylogenetic analysis which studied the UCEs of various marine fish:[9]

Carangiformes
Carangoidei
Carangidae

Caranginae 70px

Naucratinae 70px

Trachinotidae 70px

Echeneidae 70px

Istiophoridae

Tetrapturus 70px

Kajikia 70px

Makaira 70px

Istiophorus 70px

Xiphiidae

Xiphias 70px

Menidae

Mene 70px

Nematistiidae

Nematistius 70px

Toxotidae

Toxotes 70px

Leptobramidae

Leptobrama 70px

Psettodidae

Psettodes 70px

Citharidae

Citharoides 70px

Polynemidae

Polydactylus 70px

Sphyraenidae

Sphyraena 70px

Lactariidae

Lactarius 70px

Latidae

Lates 70px

Centropomidae

Centropomus 70px

Internal relationships of Carangoidei

Within the suborder Carangoidei, Coryphaenidae, Rachycentridae, and Echeneidae have been suggested to comprise a monophyletic grouping (dubbed "Echeneoidea"),[10] which has been recovered as a sister clade to the Carangidae.[11] Additionally, the family Carangidae is paraphyletic in the traditional sense; the "Echeneoidea" clade are more closely related to two carangid subfamilies (Scomberoidinae and Trachinotinae) than they are to the other two subfamilies (Naucratinae and Caranginae). This has been consistently found by studies, which propose the elevation of the subfamily Trachinotinae into the family Trachinotidae to reflect this finding.[10][9]

The following cladogram is based on Girard et al.'s 2020 study of UCEs and morphology:[10]

Carangoidei
Carangidae (part)

Naucratinae

Caranginae

Trachinotidae

Scomberoidinae

Trachinotinae

Echeneoidea

Coryphaenidae

Rachycentridae

Echeneidae

The following cladogram is based on a 2023 phylogenetic analysis which studied the UCEs of various marine fish:[9]

Carangoidei
Carangidae
Caranginae

Script error: No such module "Clade/hidden".

Naucratinae

Seriola dumerili

Seriola rivoliana

Seriolina nigrofasciata

Seriola hippos

Seriola lalandi

Naucrates ductor 70px

Seriola quinqueradiata

Seriola zonata

Seriola fasciata

Elagatis bipinnulata

Trachinotidae
Trachinotinae

Trachinotus

Scomberoidinae

Scomberoides

Oligoplites

Lichia

Echeneidae

Remora

Phtheirichthys lineatus

Echeneis naucrates 70px

Echeneis neucratoides

Coryphaena hippurus 70px

Coryphaena equiselis 70px

Rachycentron canadum 70px

References

  1. J. S. Nelson; T. C. Grande; M. V. H. Wilson (2016). Fishes of the World (5th ed.). Wiley. pp. 380–383. ISBN 978-1-118-34233-6. https://sites.google.com/site/fotw5th/. Retrieved 2019-11-15. 
  2. Girard, Matthew G.; Davis, Matthew P.; Smith, W. Leo (2020-05-08). "The Phylogeny of Carangiform Fishes: Morphological and Genomic Investigations of a New Fish Clade". Copeia 108 (2): 265. doi:10.1643/CI-19-320. ISSN 0045-8511. 
  3. 3.0 3.1 E. O. Wiley & G. David Johnson: A teleost classification based on monophyletic groups. Joseph S. Nelson, Hans-Peter Schultze & Mark V. H. Wilson: Origin and Phylogenetic Interrelationships of Teleosts. Verlag Dr. Friedrich Pfeil, München 2010, ISBN 978-3-89937-107-9
  4. Friedman, Matt; V. Andrews, James; Saad, Hadeel; El-Sayed, Sanaa (2023-06-16). "The Cretaceous–Paleogene transition in spiny-rayed fishes: surveying "Patterson's Gap" in the acanthomorph skeletal record André Dumont medalist lecture 2018" (in en). Geologica Belgica. doi:10.20341/gb.2023.002. ISSN 1374-8505. https://popups.uliege.be/1374-8505/index.php?id=7048. 
  5. "Eschmeyer's Catalog of Fishes Classification - California Academy of Sciences" (in en). https://www.calacademy.org/scientists/catalog-of-fishes-classification/. 
  6. Friedman, Matt; V. Andrews, James; Saad, Hadeel; El-Sayed, Sanaa (2023-06-16). "The Cretaceous–Paleogene transition in spiny-rayed fishes: surveying "Patterson's Gap" in the acanthomorph skeletal record André Dumont medalist lecture 2018" (in en). Geologica Belgica. doi:10.20341/gb.2023.002. ISSN 1374-8505. https://popups.uliege.be/1374-8505/index.php?id=7048. 
  7. Rust, Seabourne; Wium, Morne; Otero, Rodrigo A.; Terezow, Marianna (2026-02-01). "Fossil billfish (Xiphioidei) from the Eocene of Hampden, North Otago, New Zealand". Gondwana Research 150: 301–311. doi:10.1016/j.gr.2025.09.021. ISSN 1342-937X. https://www.sciencedirect.com/science/article/pii/S1342937X25003120. 
  8. Friedman, Matt; Johanson, Zerina; Harrington, Richard C.; Near, Thomas J.; Graham, Mark R. (2013-09-07). "An early fossil remora (Echeneoidea) reveals the evolutionary assembly of the adhesion disc". Proceedings of the Royal Society B: Biological Sciences 280 (1766). doi:10.1098/rspb.2013.1200. PMID 23864599. 
  9. 9.0 9.1 9.2 "Widespread sympatry in a species-rich clade of marine fishes (Carangoidei)". Proceedings of the Royal Society Biological Sciences 290 (2010). 1 Nov 2023. doi:10.1098/rspb.2023.0657. 
  10. 10.0 10.1 10.2 Girard, Matthew G.; Davis, Matthew P.; Smith, W. Leo (2020-05-08). "The Phylogeny of Carangiform Fishes: Morphological and Genomic Investigations of a New Fish Clade". Copeia 108 (2): 265. doi:10.1643/CI-19-320. ISSN 0045-8511. 
  11. J. S. Nelson; T. C. Grande; M. V. H. Wilson (2016). Fishes of the World (5th ed.). Wiley. pp. 380–383. ISBN 978-1-118-34233-6. https://sites.google.com/site/fotw5th/. Retrieved 2019-11-15. 

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