Sexual dimorphism in the sonic system and otolith morphology of Neobythites gilli (Ophidiiformes)

Parmentier, Eric; Boistel, Renaud; Bahri, Mohamed Ali; Plenevaux, Alain; Schwarzhans, W

doi:10.1111/jzo.12561

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Sexual dimorphism in the sonic system and otolith morphology of Neobythites gilli (Ophidiiformes)

Parmentier, Eric; Boistel, Renaud; Bahri, Mohamed Ali et al.

2018 • In Journal of Zoology, 305, p. 274-380

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/227719

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10.1111/jzo.12561

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Research Center/Unit :

AFFISH-RC - Applied and Fundamental FISH Research Center - ULiège
FOCUS - Freshwater and OCeanic science Unit of reSearch - ULiège

Disciplines :

Zoology

Author, co-author :

Parmentier, Eric ; Université de Liège - ULiège > Département de Biologie, Ecologie et Evolution > Morphologie fonctionnelle et évolutive

Boistel, Renaud

Bahri, Mohamed Ali ; Université de Liège - ULiège > GIGA-CRC In vivo Imaging

Plenevaux, Alain ; Université de Liège - ULiège > Département de chimie (sciences) > Département de chimie (sciences)

Schwarzhans, W

Language :

English

Title :

Sexual dimorphism in the sonic system and otolith morphology of Neobythites gilli (Ophidiiformes)

Publication date :

March 2018

Journal title :

Journal of Zoology

ISSN :

0952-8369

eISSN :

1469-7998

Publisher :

Wiley-Blackwell, United States

Volume :

305

Pages :

274-380

Peer reviewed :

Peer Reviewed verified by ORBi

Funders :

F.R.S.-FNRS - Fonds de la Recherche Scientifique

Available on ORBi :

since 12 September 2018

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Abramoff, M.D., Magalhaes, P.J. & Ram, S.J. (2014). Image processing with ImageJ. Biophoton Int 11, 36–42.
Aguilera, O., Schwarzhans, W. & Bearez, P. (2016). Otoliths of the Sciaenidae from the Neogene of tropical America. Palaeo Ichthyol. 14, 7–90.
Ali, H.A., Mok, H.-K. & Fine, M.L. (2016). Development and sexual dimorphism of the sonic system in deep sea neobythitine fishes: the upper continental slope. Deep Sea Res Part I Oceanogr. Res. Pap. 115, 293–308.
Bahri, M.A., Warnock, G., Plenevaux, A., Choquet, P., Constantinesco, A., Salmon, E., Luxen, A. & Seret, A. (2010). Performance evaluation of the General Electric eXplore CT 120 micro-CT using the vmCT phantom. Nucl. Instr. Meth Phys. Res. 648, 181–185.
Boistel, R., Herrel, A., Lebrun, R., Daghfous, G., Tafforeau, P., Losos, J.B. & Vanhooydonck, B. (2011). Shake rattle and roll: the bony Labyrinth and aerial descent in squamates. Integr. Comp. Biol. 51, 957–968.
Bose, A.P.H., Adragna, J.B. & Balshine, S. (2017). Otolith morphology varies between populations, sexes and male alternative reproductive tactics in a vocal toadfish Porichthys notatus. J. Fish Biol. 90, 311–325.
Brawn, V.M. (1961). Aggressive behaviour in the cod (Gadus callarias L.). Behaviour 18, 108–147.
Bretin, F., Warnock, G., Luxen, A., Plenevaux, A., Seret, A. & Bahri, M.A. (2013). Performance evaluation and X-ray dose quantification for various scanning protocols of the GE eXplore 120 micro-CT. IEEE Trans. Nucl. Sci. 60, 3235–3241.
Campana, S.E. & Casselman, J.M. (1993). Stock discrimination using otolith shape analysis. Can. J. Fish Aquat. Sci. 50, 1062–1083.
Cardinale, M., Doering-Arjes, P., Kastowsky, M. & Mosegaard, H. (2004). Effects of sex, stock, and environment on the shape of known-age Atlantic cod (Gadus morhua) otoliths. Can. J. Fish Aquat. Sci. 61, 157–167.
Carter, J.H. & Musick, J.A. (1985). Sexual dimorphism in the deep-sea fish Barathrodemus manatinus (Ophidiidae). Copeia 1, 69–73.
Casadevall, M., Matallanas, J., Carrasson, M. & Munoz, M. (1996). Morphometric, meristic and anatomical differences between Ophidion barbatum L., 1758 and O. rochei Muller, 1845 (Pisces, Ophidiidae). Publ. Espec. Inst. Esp. Oceanogr. 21, 45–61.
Courtenay, W.R.J. (1971). Sexual dimorphism of the sound producing mechanism of the striped cusk eel Rissola marginata (Pisces: Ophidiidae). Copeia 2, 259–268.
Fine, M.L., Horn, M.H. & Cox, B. (1987). Acanthonus armatus, a deep-sea teleost fish with a minute brain and large ears. Proc. R. Soc. Lond. B Biol. Sci. 230, 257–265.
Fine, M.L., Burns, N.M. & Harris, T.M. (1990). Ontogeny and sexual dimorphism of sonic muscle in the oyster toadfish. Can. J. Zool. 68, 1374–1381.
Fine, M.L., Lin, H., Nguyen, B.B., Rountree, R.A., Cameron, T.M. & Parmentier, E. (2007). Functional morphology of the sonic apparatus in the fawn cusk-eel Lepophidium profundorum (Gill, 1863). J. Morphol. 268, 953–966.
Fine, M.L., Ali, H.A., Nguyen, T.K., Mok, H.-K. & Parmentier, É. (2018). Development and sexual dimorphism of the sonic system in three deep-sea neobythitine fishes: mid and lower continental slope. Deep Sea Res Part I Oceanogr. Res. Pap. 131, 41–53.
Grønkjær, P. (2016). Otoliths as individual indicators: a reappraisal of the link between fish physiology and otolith characteristics. Mar. Freshw. Res. 67, 881–888.
Hawkins, A.D. & Rasmussen, K.J. (1978). The call of gadoid fish. J. Mar. Biol. Assoc. U.K. 58, 891–911.
Hill, G.L., Fine, M.L. & Musick, J.A. (1987). Ontogeny of the sexually dimorphic sonic muscle in three sciaenid species. Copeia 3, 708–713.
Howes, G.J. (1992). Notes on the anatomy and classification of Ophidiiform fishes with particular reference to the abyssal genus Acanthonus Gunther, 1878. Bull Br. Mus. Nat. Hist. 58, 95–131.
Hüssy, K. (2008). Otolith shape in juvenile cod (Gadus morhua): ontogenetic and environmental effects. J. Exp. Mar. Bio. Ecol. 364, 35–41.
Kéver, L., Boyle, K.S., Dragičević, B., Dulčić, J., Casadevall, M. & Parmentier, E. (2012). Sexual dimorphism of sonic apparatus and extreme intersexual variation of sounds in Ophidion rochei (Ophidiidae): first evidence of a tight relationship between morphology and sound characteristics in Ophidiidae. Front. Zool. 9, 34.
Kéver, L., Boyle, K.S., Bolen, G., Dragičević, B., Dulčić, J. & Parmentier, E. (2014a). Modifications in call characteristics and sonic apparatus morphology during puberty in Ophidion rochei (Actinopterygii: Ophidiidae). J. Morphol. 275, 650–660.
Kéver, L., Boyle, K.S., Dragičević, B., Dulčić, J. & Parmentier, E. (2014b). A superfast muscle in the complex sonic apparatus of Ophidion rochei (Ophidiiformes): histological and physiological approaches. J. Exp. Biol. 217, 3432–3440.
Kéver, L., Colleye, O., Herrel, A., Romans, P. & Parmentier, E. (2014c). Hearing capacities and otolith size in two ophidiiform species (Ophidion rochei and Carapus acus). J. Exp. Biol. 217, 2517–2525.
Kéver, L., Colleye, O., Lugli, M., Lecchini, D., Lerouvreur, F., Herrel, A. & Parmentier, E. (2014d). Sound production in Onuxodon fowleri (Carapidae) and its amplification by the host shell. J. Exp. Biol. 217, 4283–4294.
Kéver, L., Lejeune, P., Michel, L.N. & Parmentier, E. (2016). Passive acoustic recording of Ophidion rochei calling activity in Calvi Bay (France). Mar. Ecol. 37, 1315–1324.
Lombarte, A. & Cruz, A. (2007). Otolith size trends in marine fish communities from different depth strata. J. Fish Biol. 71, 53–76.
Lombarte, A., Palmer, M., Matallanas, J., Gómez-Zurita, J. & Morales-Nin, B. (2010). Ecomorphological trends and phylogenetic inertia of otolith sagittae in Nototheniidae. Environ. Biol. Fishes 89, 607–618.
Mann, D.A., Bowers-Altman, J. & Rountree, R.A. (1997). Sounds produced by the striped cusk-eel Ophidion marginatum (Ophidiidae) during courtship and spawning. Copeia 3, 610–612.
Maruska, K.P., Ung, U.S. & Fernald, R.D. (2012). The African cichlid fish Astatotilapia burtoni uses acoustic communication for reproduction: sound production, hearing, and behavioral significance. PLoS ONE 7, 1–13.
Møller, P.R. & Schwarzhans, W. (2008). Review of the Dinematichthyini (Teleostei, Bythitidae) of the Indo-west Pacific, Part IV. Dinematichthys and two new genera with descriptions of nine new species. The Beagle 24, 87–146.
Nguyen, T.K., Lin, H., Parmentier, E. & Fine, M.L. (2008). Seasonal variation in sonic muscles in the fawn cusk-eel Lepophidium profundorum. Biol. Lett. 4, 707–710.
Nielsen, J.G. (1999). A review of the genus Neobythites (Teleostei, Ophidiidae) in the Atlantic, with three new species. Bull. Mar. Sci. 65, 335–372.
Nielsen, J.G. (2002). Revision of the Indo-Pacific species of Neobythites (Teleostei, Ophidiidae), with 15 new species. Galathea Rep. 19, 5–105.
Nielsen, J.G., Cohen, D.M., Markle, D.F. and Robins, C.R. (1999). FAO species catalogue. Ophidiiform fishes of the world (Order Ophidiiformes): an annotated and illustrated catalogue of pearlfishes, cusk-eels, brotulas and other ophidiiform fishes known to date: 178. Rome: FAO. Fish. Synopsis No. 125. 18.
Nielsen, J.G., Uiblein, F. & Mincarone, M.M. (2009). Ocellus bearing Neobythites species (Teleostei: Ophidiidae) from the West Atlantic with description of a new species. Zootaxa 2228, 57–68.
Parmentier, E. & Vandewalle, P. (2003). Morphological adaptations of Pearlfish (Carapidae) to their various Habitats. In Fish adaptations: 261–276. Val, A.L. & Kapoor, B.G. (Eds). India: Oxford & IBH.
Parmentier, E. & Vandewalle, P. (2005). Further insight on carapid-holothuroid relationships. Mar. Biol. 146, 455–465.
Parmentier, E., Vandewalle, P. & Lagardère, F. (2001). Morpho-anatomy of the otic region in carapid fishes: eco-morphological study of their otoliths. J. Fish Biol. 58, 1046–1061.
Parmentier, E., Chardon, M. & Vandewalle, P. (2002a). Preliminary study on the ecomorphological signification of the sound-producing complex in Carapidae. In Functional and Ecological Vertabrate Morphology: 139–151. Aerts, P., D'Août, K., Herrel, A. & Van Damme, R. (Eds). Maastricht: Shaker Publishing.
Parmentier, E., Lagardère, F. & Vandewalle, P. (2002b). Relationships between inner ear and sagitta growth during ontogenesis of three Carapini species, and consequences of life-history events on the otolith microstructure. Mar. Biol. 141, 491–501.
Parmentier, E., Vandewalle, P. & Lagardère, J.P. (2003). Sound-producing mechanisms and recordings in Carapini species (Teleostei, Pisces). J. Comp. Physiol. A Neuroethol. Sens. Neural. Behav. Physiol. 189, 283–292.
Parmentier, E., Fontenelle, N., Fine, M.L., Vandewalle, P. & Henrist, C. (2006a). Functional morphology of the sonic apparatus in Ophidion barbatum (Teleostei, Ophidiidae). J. Morphol. 267, 1461–1468.
Parmentier, E., Lagardère, J.-P., Braquegnier, J.-B., Vandewalle, P. & Fine, M.L. (2006b). Sound production mechanism in carapid fish: first example with a slow sonic muscle. J. Exp. Biol. 209, 2952–2960.
Parmentier, E., Bouillac, G., Dragicevic, B., Dulcic, J. & Fine, M. (2010). Call properties and morphology of the sound-producing organ in Ophidion rochei (Ophidiidae). J. Exp. Biol. 213, 3230–3236.
Popper, A.N., Rogers, P.H., Saidel, W.M. & Cox, M. (1988). The role of the fish ear in sound processing. In Sensory Biology of Aquatic Animals: 687–710. Atema, R.R., Fay, R.R., Popper, A.N. & Tavolga, W.N. (Eds). New York: Springer Verlag.
Popper, A.N., Ramcharitar, J.U. & Campana, S.E. (2005). Why otoliths? Insights from inner ear physiology and fisheries biology. Mar. Freshw. Res. 56, 497–504.
Ramcharitar, J.U., Gannon, D.P. & Popper, A.N. (2006). Bioacoustics of fishes of the family Scianidae (croackers and drums). Trans. Am. Fish. Soc. 135, 1409–1431.
Rountree, R.A. & Bowers-Altman, J. (2002). Soniferous behavior of the striped cusk-eel, Ophidion marginatum. Bioacoustics 12, 242–244.
Rowe, S. & Hutchings, J.A. (2004). The function of sound production by Atlantic cod as inferred from patterns of variation in drumming muscle mass. Can. J. Zool. 82, 1391–1398.
Rowe, S. & Hutchings, J.A. (2006). Sound production by Atlantic cod during spawning. Trans. Am. Fish. Soc. 135, 529–538.
Schulz-Mirbach, T., Ladich, F., Riesch, R. & Plath, M. (2010). Otolith morphology and hearing abilities in cave- and surface-dwelling ecotypes of the Atlantic molly, Poecilia mexicana (Teleostei: Poeciliidae). Hear. Res. 267, 137–148.
Schwarzhans, W. (1993). A Comparative morphological treatise of recent and fossil otoliths of the family Sciaenidae (Perciformes). In Piscium Catalogus: Part Otolothi Piscium, vol. 1: 1–245. Pfeil, F. (Ed). München: Verlag Dr. Friedrich Pfeil.
Schwarzhans, W. (1994). Sexual and ontogenetic dimorphism in otoliths of the family Ophidiidae. Cybium 18, 71–89.
Schwarzhans, W. & Aguilera, O.A. (2016). Otoliths of the Ophidiiformes from the Neogene of tropical America. Palaeo Ichthyol. 14, 91–124.
Tellechea, J.S. & Norbis, W. (2012). Sexual dimorphism in sound production and call characteristics in the striped weakfish Cynoscion guatucupa. Zool. Stud. 51, 946–955.
Tuset, V.M., Farré, M., Otero-Ferrer, J.L., Vilar, A., Morales-Nin, B. & Lombarte, A. (2016). Testing otolith morphology for measuring marine fish biodiversity. Mar. Freshw. Res. 67, 1037–1048.
Uiblein, F. (1995). Morphological variability between populations of Neobythites stefanovi (Pisces: Ophidiidae) from the deep Red Sea and the Gulf of Aden. Mar. Ecol. Prog. Ser. 124, 23–29.
Uiblein, F., Ott, J.M. & Stachowitsch, M. (1996). Deep-sea and extreme shallow-water habitats: affinities and adaptations. Biosyst. Ecol. Ser. 11, 165–182.
Wourms, J.P. & Bayne, O. (1973). Development of the viviparous brotulid fish, Dinematichthys ilucoeteoides. Copeia 1973, 32–40.
Zanette, I., Daghfous, G., Weitkamp, T., Gillet, B., Adriaens, D., Langer, M., Cloetens, P., Helfen, L., Bravin, A., Peyrin, F., Baumbach, T., Dischler, J.-M., Loo, D.Van., Praet, T., Poirier-Quinot, M. & Boistel, R. (2013). Looking Inside Marine Organisms with Magnetic Resonance and X-ray Imaging. In Imaging Marine Life: 122–184. Reynaud, E.G. (Ed). Weinheim, German: Wiley-VCH Verlag GmbH & Co. KGaA.
Zeyl, J.N., Love, O.P. & Higgs, D.M. (2013). Condition-dependent auditory processing in the round goby (Neogobius melanostomus): links to sex, reproductive condition and female estrogen levels. J. Exp. Biol. 216, 1075–1084.