Morphometry of the sagittal otolith from Atherinella brasiliensis (Quoy & Gaimard, 1824) (Actinopterygii - Atherinopsidae), at the coast of Paraná.
DOI:
https://doi.org/10.5914/tropocean.v42i1.5801Schlagworte:
Brazilian silverside, teleósteos and regressionAbstract
In this work was done the description of the morphological and morphometric of the otolith sagitta of the Atherinella brasiliensis together with the linear regressions between biometrics fish and otoliths. Were 145 specimens analyzed with total length of 7.01 cm and with a standard deviation of ± 4.28 cm. All sagitta otoliths of A. brasiliensis showed sulcus acusticus heterosulcoid shape and type ostial. With the growth of the specimens occurred changes in the shape and margins of the otoliths, in specimens having above 8 cm total length of the fish observed a dorsal depression. The appearance of this depression in the dorsal otolith this species is an indication of the stress caused by the first maturation of the species.Literaturhinweise
AUGUSTIN, L. Q. Atherinella brasiliensisIn: CAPULI, E.E. (Ed.) FishBase. WorldWide Web EletronicPublication. www.fishbase.org, version (06/2012), 2012.
BORDIGNON, M. O. Diet of the fishing bat Noctilio leporinus(Linnaeus) (Mammalia, Chiroptera) in a mangrove area of southern Brazil.Revista Brasileira de Zoologia, v. 1, n. 23, p. 256-260, 2006.
CAMPANA, S. E. Chemistryand composition of fish otolith: pathways, mechanisms and application. Marine Ecology ProgressSeries, n. 188, v. 3, 263 –297, 1999.
COLABUONO, F.I.;VOOREN, C.M. Diet of Black-browed (Thalassarche melanophrys) and Atlantic Yellow-nosed (T. chlororhynchos) Albatrosses and White-chinned (Procellaria aequinoctialis) and Spectacled P. conspicillata Petrels off southern Brazil. Marine Ornithology, v. 35, p. 9–20, 2007.
CONTENTE, R.F.; STEFANONI, M. F.;SPACH, H. L.Feeding ecology of the Brazilian silverside Atherinella brasiliensis(Atherinopsidae) in a sub-tropicalestuarine ecosystem. Journal of the Marine Biological Association of the United Kingdom, p. 1-9, 2010.
CONTENTE, R.F.; STEFANONI, M. F.;SPACH, H. L. Fish assemblage structure in an estuary of the Atlantic Forest biodiversity hotspot (southern Brazil). IchthyologicalResearch, v. 50, p. 58 –38, 2011.
ELSDON, T. S.;WELLS, B.K.;CAMPANA, S. E.;GILLANDERS, B. M.;JONES, C. M.;LIMBURG, K. E.;SECOR, D. H.;THORROLD, S. R.;WALTHER, B. D.Otolith chemistry to describe movements and life-history parameters of fishes: hypotheses, assumptions, limitationsand inferences. Oceanography and Marine Biology, v. 46, p. 297-330, 2008.
FALCÃO, G. M.; SARPÉDONTI, V.; SPACH, L. H.; OTERO, B. E. M; QUEIROZ, D. N. M. L. G.; SANTOS, C. A. Ictiofauna em planícies de maré das Baías das Laranjeiras e de Paranaguá, Paraná, Brasil. Revista Brasileira de Zoociências, v. 2, n. 8, p. 125-138, 2006.
FÁVARO, L.F., LOPES, S. de C. G.;SPACH, H. L. Reprodução do peixe-rei, Atherinella brasiliensis (Quoy & Gaimard) (Atheriniformes, Atherinidae), em uma planície de maré adjacente à gamboa do Baguaçu, Baía de Paranaguá, Paraná, Brasil. Revista Brasileira de Zoologia,v. 20, p.501–506, 2003.
FRANCIS, R.I.C.;CAMPANA, S. E. Inferring age from otolith measurements : a review and a new approach. Canadian Journal of Fisheries andAquatic Sciences, v.61, p. 1269–1284, 2004.
GHOSH, P.;EILER, J., CAMPANA, S. E.;FEENEY, R. F. Calibration of the carbonate ‘clumped isotope’ paleothermometer for otoliths. Geochimica et Cosmochimica Acta, v. 71, p. 2736–2744, 2007.
MENEZES, N. A.;FIGUEIREDO, J. L. Manual de peixe marinhos do sudeste do Brasil. Teleostei V. Museu de Zoologia, Universidade de São Paulo,p. 71-75, 2000.
MEYNIER, L.;STOCKIN, K. A.;BANDO, M. K. H.;DUIGNAN, P. J. Stomach contents of common dolphin (Delphinussp.) from New Zealand waters. New Zealand Journal of Marine and Freshwater Research,v.42, p.257–268, 2008.NIELSEN, L. A.;JOHNSON, D.L. Fisheries Techniques.AmericanFisheries Society, 301-324, 1983.
POPPER, A. N.;RAMCHARITAR, J.;CAMPANA, S. E. Why otoliths? Insights from inner ear physiology and fisheries biology. Marine and Freshwater Research, v. 56, p. 497 –504, 2005.
SANTOS, M. C. O.; ROSSO, S.; SANTOS, R. A.;LUCATO, S. H. B.;BASSOI, M. Insights on small cetacean feeding habits in southeastern Brazil.Aquatic Mammals, n. 28, p. 38 -45, 2002.
SECOR, D. H.; DEAN, J. M.;LABAN, E. H. Otolith removal and preparation for microstructural examination, p. 19-57. In STEVENSON, D. K. and CAMPANA, S. E. Otolith microstructure examination and analysis. Canadian Special Publication of Fisheriesand Aquatic Science, v.117, 1991.
SMALE, J.M.;WATSON, G.;HECHT, T. Otolith atlas of southern African marine fishes.J.L.B Smith Institute of Ichthyology, 74, 1995.
SPACH, H. L.; FÉLIX, F. C;HACKRADT, C. W.;LAUFER, D. C.;MORO,P. S.; CATTANI, A. P.Utilização de ambientes rasos por peixes na Baía de Antonina, Paraná. Biociências, n. 14, v.2, p.125-135, 2006.
VOLPEDO,A. V.;ECHEVERRÍA, D. D. Ecomorphological patterns of the sagitta in fish on the continental shelf of Argentine. Fisheries Research, v. 60, p. 551–560, 2003.
TOMBARI, A.D.;VOLPEDO, A. V.;ECHEVERRÍA, D. D. Desarrollo de la sagitta en juveniles y adultos de Odontesthes argentinensis (Valenciennes, 1835) y O. bonariensis (Valenciennes, 1835) de la provincia de Buenos Aires, Argentina (Teleostei: Atheriniformes). Revista Chilena de Historia Natural, v.78, p. 623-633, 2005.
