Abstract
The cranial osteology and myology in the ateleopodiform Ateleopus japonicus were studied. Many free bony ossicles constitute the cephalic lateral line canals and are separated from the neurocranial roof by thick gelatinous tissue. The preoperculomandibular canal is unique in having a direct connection with the infraorbital canal owing to strong reduction in the size of the preoperculum. The neurocranium is largely cartilaginous, with 6 chondrocranial and 1 dermal element being absent (or not undergoing ossification). The left and right frontals are separated by a deep groove into which a long, mobile rostral cartilage is deeply inserted. Five pairs of cartilages, including 2 pairs of menisci, are associated with the ethmoid region, allowing premaxillary protrusion without involving maxillary rotation. The levator operculi is well developed and likely generates the primary force for depressing the lower jaw. The large interhyal is tightly attached to the entire ventral margin of the operculum, and the two elements appear to function as a single unit in mouth opening. The oral cavity is large because of the posterior position of the branchial arches [the last (5th) arch is situated below the 3rd vertebra]. In pelagic individuals the head is flat with a terminal mouth and straight parasphenoid shaft, whereas in small, benthopelagic individuals the head is rounded with an inferior mouth and bent parasphenoid shaft. “Bending” of the parasphenoid with a dorsally elevated apex is considered the result of the posterior migration of the mouth during the habitat shift. Ateleopodiform characters are discussed phylogenetically and the deep insertion of the rostral cartilage into an open space in the ethmoid region is suggested as a synapomorphy of the order and Lampridiformes.
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RM Alexander (1967) ArticleTitleThe functions and mechanisms of the protrusive upper jaws of some acanthopterygian fishes J Zool Lond 151 43–64 Occurrence Handle10.1111/j.1469-7998.1967.tb02865.x
K Amaoka T Kobayashi (2003) ArticleTitleTwo large postlarvae of Ateleopus japonicus (Osteichthyes: Ateleopodidae) collected from Senzaki Bay, Yamaguchi Japan Spec Divers 8 107–117
KH Barnard (1948) ArticleTitleFurther notes on South African marine fishes Ann South African Mus 36 341–406
P Bleeker (1853) ArticleTitleNalezingen op de ichthyologie van Japan Verh Batav Genootsch Kunst Wet 25 1–56
GA Boulenger (1904) Fishes (systematic accounts of Teleostei) SF Harmer AE Shipley (Eds) The Cambridge natural history, series 7 Macmillan London 541–727
SR Charter HG Moser (1996) Lampridiformes HG Moser (Eds) The early stages of fishes in California Current region. CalCOFI Atlas No 33 Allen Press Lawrence, KS 659–677
K Fujita (1990) The caudal skeleton of teleostean fishes Tokai University Press Tokyo
L Howell Rivero (1935) ArticleTitleThe family Ateleopodidae and its West Indian form Mem Soc Cubana Hist Nat 9 1–16
T Ikeda S Mito (1988) Key to eggs and hatched larvae M Okiyama (Eds) An atlas of the early stage fishes in Japan (in Japanese) Tokai University Press Tokyo 999–1083
H Imamura (1996) ArticleTitlePhylogeny of the family Platycephalidae and related taxa (Pisces: Scorpaeniformes) Spec Divers 1 123–233
GD Johnson (1992) ArticleTitleMonophyly of the euteleostean clades—Neoteleostei, Eurypterygii, and Ctenosquamata Copeia 1992 8–25 Occurrence Handle10.2307/1446531
GD Johnson C Patterson (1993) ArticleTitlePercomorph phylogeny: a survey of acanthomorphs and a new proposal Bull Mar Sci 52 554–625
AS Kapoor (1970) ArticleTitleDevelopment of dermal bones related to sensory canals of the head in fishes Ophicephalus punctatus Bloch (Ophicephalidae) and Wallago attu B. & Schn. (Siluridae) Zool J Linn Soc 49 69–97
GV Lauder (1979) ArticleTitleFeeding mechanisms in primitive teleosts and in the halecomorph fish Amia calva J Zool Lond 187 543–578
B Lekander (1949) ArticleTitleThe sensory line system and the canal bones in the head of some Ostariophysi Acta Zool 30 1–131 Occurrence Handle10.1111/j.1463-6395.1949.tb00503.x
M Miya H Takeshima H Endo NB Ishiguro JG Inoue T Mukai TP Satoh M Yamaguchi A Kawaguchi K Mabuchi SM Shirai M Nishida (2003) ArticleTitleMajor patterns of higher teleostean phylogeny: a new perspective based on 100 complete mitochondrial DNA sequences Mol Phylogenet Evol 26 121–138 Occurrence Handle12470944 Occurrence Handle1:CAS:528:DC%2BD38Xps1WhtL4%3D Occurrence Handle10.1016/S1055-7903(02)00332-9
JS Nelson (1994) Fishes of the world EditionNumber3rd edn Wiley New York
JE Olney (1984) Lampridiformes: development and relationships HG Moser DM Cohen MP Fahay AW Kendall SuffixJr SL Richardson (Eds) Ontogeny and systematics of fishes. Special publication 1 American Society of Ichthyologists and Herpetologists Lawrence, KS 368–379
JE Olney GD Johnson CC Baldwin (1993) ArticleTitlePhylogeny of lampridiform fishes Bull Mar Sci 52 137–169
B Pelster (1997) Buoyancy at depth DJ Randall AP Farrell (Eds) Deep-sea fishes Academic Press New York 195–238
T Potthoff (1984) Clearing and staining techniques HG Moser DM Cohen MP Fahay AW Kendall SuffixJr SL Richardson (Eds) Ontogeny and systematics of fishes. Special publication 1 American Society of Ichthyologists and Herpetologists Lawrence, KS 35–37
T Potthoff JA Tellock (1993) ArticleTitleOsteological development of the snook, Centropomus undecimalis (Teleostei, Centropomidae) Bull Mar Sci 52 669–716
TW Regan (1911) ArticleTitleThe anatomy and classification of the teleostean fishes of the order Iniomi Ann Mag Nat Hist 8 IssueID7 120–133
HW Reno (1961) ArticleTitleThe infraorbital canal, its lateral-line ossicles and neuromasts in the minnows Notropis volucellus and N. buchanani Copeia 1961 403–413
DE Rosen (1973) Interrelationships of higher euteleostean fishes PH Greenwood RS Miles C Patterson (Eds) Interrelationships of fishes Linnean Society of London London 397–513
DE Rosen C Patterson (1969) ArticleTitleThe structure and relationships of the paracanthopterygian fishes Bull Am Mus Nat Hist 141 357–474
Springer VG, Johnson GD (2004) Study of the dorsal gill-arch musclature of teleostome fishes, with special reference to the Actinopterygii. Bull Biol Soc Wash 11:i–vi + 1–235, pls 1–205
EA Stensiö (1947) ArticleTitleThe sensory lines and dermal bones of the cheek in fishes and amphibians K Sevenska Vetensk Akad Handl 24 1–195
MLJ Stiassny (1986) ArticleTitleThe limits and relationships of the acanthomorph teleosts J Zool Lond (B) 1986 411–460
MLJ Stiassny (1996) Basal ctenosquamate relationships and the interrelationships of the myctophiform (scopelomorph) fishes MLJ Stiassny LR Parenti GD Johnson (Eds) Interrelationships of fishes Academic Press New York 405–426
Y Takata K Sasaki (2005) ArticleTitleBranchial structures in the Gasterosteiformes, with special reference to myology and phylogenetic implications Ichthyol Res 52 33–49 Occurrence Handle10.1007/s10228-004-0251-5
JF Webb (1989) ArticleTitleGross morphology and evolution of the mechanoreceptive lateral-line system in teleost fishes Brain Behav Evol 33 34–53 Occurrence Handle2655823 Occurrence Handle1:STN:280:DyaL1M3kvVChsQ%3D%3D
MW Westneat (1990) ArticleTitleFeeding mechanics of teleost fishes (Labridae; Perciformes): a test of four-bar linkage models J Morphol 205 269–295 Occurrence Handle10.1002/jmor.1052050304
R Winterbottom (1974) ArticleTitleA descriptive synonymy of the striated muscles of the Teleostei Proc Acad Nat Sci Phila 125 225–317
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Sasaki, K., Tanaka, Y. & Takata, Y. Cranial morphology of Ateleopus japonicus (Ateleopodidae: Ateleopodiformes), with a discussion on metamorphic mouth migration and lampridiform affinities. Ichthyol Res 53, 254–263 (2006). https://doi.org/10.1007/s10228-006-0343-5
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DOI: https://doi.org/10.1007/s10228-006-0343-5