This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Al-Mamry, J. M., Jawad, L. A., Al-Bimani, S. M. H., Al-Busaidi, H. K., Al-Marzouqi, M. S., & Al-Habsi, S. H. (2011a). Asymmetry analysis study on Callionymus margaretae Regan, 1906 collected from the Arabian Sea coasts of Oman. Ribarstvo, 69(1), 3–9.Al-MamryJ. M.JawadL. A.Al-BimaniS. M. H.Al-BusaidiH. K.Al-MarzouqiM. S.Al-HabsiS. H.2011aAsymmetry analysis study on Callionymus margaretae Regan, 1906 collected from the Arabian Sea coasts of OmanRibarstvo69139Search in Google Scholar
Al-Mamry, J., Jawad, L. A., Al-Bimani, S., Al-Ghafari, F., Al Mamry, D., & Al-Marzouqi, M. (2011b). Asymmetry in some morphological characters of Leiognathus equulus (Forsskål) (Leiognathidae) collected from the sea of Oman. Archive of Polish Fisheries, 19(1), 51–55 (The reference is fine, DOI 10.2478/v10086-011-0006-7)Al-MamryJ.JawadL. A.Al-BimaniS.Al-GhafariF.Al MamryD.Al-MarzouqiM.2011bAsymmetry in some morphological characters of Leiognathus equulus (Forsskål) (Leiognathidae) collected from the sea of OmanArchive of Polish Fisheries1915155The reference is fine10.2478/v10086-011-0006-7Open DOISearch in Google Scholar
Annabi, A., Said, K., & Reichenbacher, B. (2013). Interpopulation differences in otolith morphology are genetically encoded in the killifish Aphanius fasciatus (Cyprinodontiformes). Scientia Marina, 77(2), 269–279. https://doi.org/10.3989/scimar.03763.02AAnnabiA.SaidK.ReichenbacherB.2013Interpopulation differences in otolith morphology are genetically encoded in the killifish Aphanius fasciatus (Cyprinodontiformes)Scientia Marina772269279https://doi.org/10.3989/scimar.03763.02ASearch in Google Scholar
Bauchot, L., & Hureau, J. (1984). Fishes of the North-Eastern Atlantic and the Meediterranean. Richard Clay Ltd.BauchotL.HureauJ.1984Fishes of the North-Eastern Atlantic and the MeediterraneanRichard Clay LtdSearch in Google Scholar
Bauchot, M. L. (1987). Poissons osseux. Fiches FAO d'identification pour les besoins de la pêche. (rev. 1). In M. S. Fischer, M. L. Bauchot, & M. Schneider (Eds.), Méditerranée et mer Noire. Zone de pêche 37 (Vol. II). Commission des Communautés Européennes and FAO. pp. 891–1421.BauchotM. L.1987Poissons osseux. Fiches FAO d'identification pour les besoins de la pêche. (rev. 1)InFischerM. S.BauchotM. L.SchneiderM.(Eds.),Méditerranée et mer Noire. Zone de pêche 37(Vol. II).Commission des Communautés Européennes and FAO8911421Search in Google Scholar
Ben Labidi, M. B., Mejri, M., Shahin, A. A. B., Quignard, J. P., Trabelsi, M., & Ben Faleh, A. R. (2020). Stock discrimination of the bogue Boops boops (Actinopterygii, Sparidae) form two Tunisian Marine Stations using the otolith shape. Acta Ichthyologica et Piscatoria, 50(4), 413–422. https://doi.org/10.3750/AIEP/02978Ben LabidiM. B.MejriM.ShahinA. A. B.QuignardJ. P.TrabelsiM.Ben FalehA. R.2020Stock discrimination of the bogue Boops boops (Actinopterygii, Sparidae) form two Tunisian Marine Stations using the otolith shapeActa Ichthyologica et Piscatoria504413422https://doi.org/10.3750/AIEP/02978Search in Google Scholar
Ben Lamine, Y., Yahia-Kefi, O. D., & Daly Yahia, N. M. (2011). Caracterisation Physico-Chimique de la partie sud oust de la baie de Tunis sous l'influence des apports de l'oued Meliane. Bulletin de l'Instiut National des Sciences et Techologies de la Mer, 38, 123–129. https://doi.org/10.71754/instm.bulletin.v38.571)Ben LamineY.Yahia-KefiO. D.Daly YahiaN. M.2011Caracterisation Physico-Chimique de la partie sud oust de la baie de Tunis sous l'influence des apports de l'oued MelianeBulletin de l'Instiut National des Sciences et Techologies de la Mer38123129https://doi.org/10.71754/instm.bulletin.v38.571)Search in Google Scholar
Bouriga, N., Mejri, M., Dekhil, M., Bejaoui, S., Quignard, J. P., & Trabelsi, M. (2021). Investigating otolith mass asymmetry in six benthic and pelagic fish species (Actinopterygii) from the Gulf of Tunis. Acta Ichthyologica et Piscatoria, 51(2), 193–197. https://doi.org/10.3897/aiep.51.64220BourigaN.MejriM.DekhilM.BejaouiS.QuignardJ. P.TrabelsiM.2021Investigating otolith mass asymmetry in six benthic and pelagic fish species (Actinopterygii) from the Gulf of TunisActa Ichthyologica et Piscatoria512193197https://doi.org/10.3897/aiep.51.64220Search in Google Scholar
De Jong, H. A. A., Sondag, E. N. P. M., Kuipers, A., & Oosterveld, W. J. (1996). Swimming behaviour of fish during short periods of weightlessness. Aviation, Space and Environmental Medicine, 67, 463–466.De JongH. A. A.SondagE. N. P. M.KuipersA.OosterveldW. J.1996Swimming behaviour of fish during short periods of weightlessnessAviation, Space and Environmental Medicine67463466Search in Google Scholar
Egorov, A. D., & Samarin, G. I. (1970). Possible change in the paired operation of the vestibular apparatus during weightlessness. Kosmicheskaya biologiya I Aviakosmicheskaya Meditsina, 4, 85–86.EgorovA. D.SamarinG. I.1970Possible change in the paired operation of the vestibular apparatus during weightlessnessKosmicheskaya biologiya I Aviakosmicheskaya Meditsina48586Search in Google Scholar
Elsdon, T. S., & Gillanders, B. M. (2002). Interactive effects of temperature and salinity on otolith chemistry: Challenges for determining environ mental histories of fish. Candian Journal of Fisheries and Aquatic Science, 59(11), 1796–1808. https://doi.org/10.1139/f02-154ElsdonT. S.GillandersB. M.2002Interactive effects of temperature and salinity on otolith chemistry: Challenges for determining environ mental histories of fishCandian Journal of Fisheries and Aquatic Science591117961808https://doi.org/10.1139/f02-154Search in Google Scholar
Eschmeyer, W. N., & Dempster, L. J. (1990). Scorpaenidae. In J. C. Quero, J. C. Hureau, C. Karrer, A. Post, & L. Saldanha (Eds.), Check-list of the fishes of the eastern tropical Atlantic (CLOFETA) (Vol. 2, pp. 665–679). JNICT, SEI, UNESCO.EschmeyerW. N.DempsterL. J.1990ScorpaenidaeInQueroJ. C.HureauJ. C.KarrerC.PostA.SaldanhaL.(Eds.),Check-list of the fishes of the eastern tropical Atlantic (CLOFETA)2665679JNICT, SEI, UNESCOSearch in Google Scholar
Fey, D. P., & Hare, J. A. (2008). Fluctuating asymmetry in the otoliths of larval Atlantic menhaden Brevoortia tyrannus (Latrobe) – A condition indicator? Journal of Fish Biology, 72(1), 121–130. https://doi.org/10.1111/j.1095-8649.2007.01684.xFeyD. P.HareJ. A.2008Fluctuating asymmetry in the otoliths of larval Atlantic menhaden Brevoortia tyrannus (Latrobe) – A condition indicator?Journal of Fish Biology721121130https://doi.org/10.1111/j.1095-8649.2007.01684.xSearch in Google Scholar
Gagliano, M., Depczynski, M., Simpson, S. D., & Moore, J. A. Y. (2008). Dispersal without errors: Symmetrical ears tune into the right frequency for survival. Proceedings of Biological Sciences, 275(1634), 527–534. https://doi.org/10.1098/rspb.2007.1388GaglianoM.DepczynskiM.SimpsonS. D.MooreJ. A. Y.2008Dispersal without errors: Symmetrical ears tune into the right frequency for survivalProceedings of Biological Sciences2751634527534https://doi.org/10.1098/rspb.2007.1388Search in Google Scholar
Grønkjaer, P. (2016). Otoliths as individual indicators: A reappraisal of the link between fish physiology and otolith characteristics. Marine and Freshwater Research, 67(7), 881888. https://doi.org/10.1071/MF15155GrønkjaerP.2016Otoliths as individual indicators: A reappraisal of the link between fish physiology and otolith characteristicsMarine and Freshwater Research677881888https://doi.org/10.1071/MF15155Search in Google Scholar
Hilbig, R., Anken, R.H., Sonntag, G., Höhne, S., Henneberg, J., Kretschmer, N., & Rahmann, H. (2002). Effects of altered gravity on the swimming behaviour of fish. Advances in Space Research, 30(4), 835–841.HilbigR.AnkenR.H.SonntagG.HöhneS.HennebergJ.KretschmerN.RahmannH.2002Effects of altered gravity on the swimming behaviour of fishAdvances in Space Research304835841Search in Google Scholar
Hoffman, R. B., Salinas, G. A., & Baky, A. A. (1977). Behavioural analyses of killifish exposed to weightlessness in the Apollo-Soyus Test Project. Aviation, Space and Environmental Medicine, 48, 712–717.HoffmanR. B.SalinasG. A.BakyA. A.1977Behavioural analyses of killifish exposed to weightlessness in the Apollo-Soyus Test ProjectAviation, Space and Environmental Medicine48712717Search in Google Scholar
Hureau, J. C., & Litvinenko, N. I. (1986). Scorpaenidae. In P. J. P. Whitehead, M. L. Bauchot, J. C. Hureau, J. Nielsen, & E. Tortonese (Eds.), Fishes of the North-eastern Atlantic and the Mediterranean (Vol. 3, pp. 1211–1229). UNESCO.HureauJ. C.LitvinenkoN. I.1986ScorpaenidaeInWhiteheadP. J. P.BauchotM. L.HureauJ. C.NielsenJ.TortoneseE.(Eds.),Fishes of the North-eastern Atlantic and the Mediterranean312111229UNESCOSearch in Google Scholar
Izzo, C., Reis-Santos, P., & Gillanders, B. M. (2018). Otolith chemistry does not just reflect environmental conditions: A meta-analytic evaluation. Fish and Fisheries, 19(3), 441–454. https://doi.org/10.1111/faf.12264IzzoC.Reis-SantosP.GillandersB. M.2018Otolith chemistry does not just reflect environmental conditions: A meta-analytic evaluationFish and Fisheries193441454https://doi.org/10.1111/faf.12264Search in Google Scholar
Jawad, L., Al-Mamry, J., & Al-Mamari, D. (2012). Fluctuating asymmetry in the otolith width of Carangoides caeruleopinnatus (Carangidae) collected from Muscat city coast on the sea of Oman. Croatian Journal of Fisheries, 70(3), 125–133.JawadL.Al-MamryJ.Al-MamariD.2012Fluctuating asymmetry in the otolith width of Carangoides caeruleopinnatus (Carangidae) collected from Muscat city coast on the sea of OmanCroatian Journal of Fisheries703125133Search in Google Scholar
Jawad, L., Gnohossou, P., & Tossou, A. G. (2020). March. Bilateral asymmetry in the mass and size of otolith of two cichlid species collected from Lake Ahémé and Porto-Novo Lagoon (Bénin, West Africa). Anales de Biología, 42, 9–20. https://doi.org/10.6018/analesbio.42.02JawadL.GnohossouP.TossouA. G.2020March. Bilateral asymmetry in the mass and size of otolith of two cichlid species collected from Lake Ahémé and Porto-Novo Lagoon (Bénin, West Africa)Anales de Biología42920https://doi.org/10.6018/analesbio.42.02Search in Google Scholar
Jawad, L. A., & Adams, N. J. (2021). Fluctuating asymmetry in the size of the otolith of Engraulis australis (Shaw, 1790) recovered from the food of the Australasian gannet, Morus serrator, Hauraki Gulf, New Zealand. Marine Pollution Bulletin, 168, 112391. https://doi.org/10.1016/j.marpolbul.2021.112391JawadL. A.AdamsN. J.2021Fluctuating asymmetry in the size of the otolith of Engraulis australis (Shaw, 1790) recovered from the food of the Australasian gannet, Morus serrator, Hauraki Gulf, New ZealandMarine Pollution Bulletin168112391https://doi.org/10.1016/j.marpolbul.2021.112391Search in Google Scholar
Jawad, L. A., & Sadighzadeh, Z. (2013). Otolith mass asymmetry in the mugilid fish, Liza klunzingeri (Day, 1888) collected from the Persian Gulf near Bandar Abbas. Anales de Biología, 35, 105–107.JawadL. A.SadighzadehZ.2013Otolith mass asymmetry in the mugilid fish, Liza klunzingeri (Day, 1888) collected from the Persian Gulf near Bandar AbbasAnales de Biología35105107Search in Google Scholar
Jawad, L. A. (2013). Otolith mass asymmetry in Carangoides caerulepinnatus (Rüppell, 1830) (family: Carangidae) collected from the sea of Oman. Ribarstvo, 71(1), 37–41. https://hrcak.srce.hr/101158. https://doi.org/10.14798/71.1.622JawadL. A.2013Otolith mass asymmetry in Carangoides caerulepinnatus (Rüppell, 1830) (family: Carangidae) collected from the sea of OmanRibarstvo7113741https://hrcak.srce.hr/101158. https://doi.org/10.14798/71.1.622Search in Google Scholar
Jawad, L. A., Abdulsamad, S. M., Al-Nusear, A. N., Waryani, B., & Rutkayová, J. (2021). Otolith mass asymmetry in three sparid fish species collected from the Iraqi waters. Marine Pollution Bulletin, 173(Pt A), 112968. https://doi.org/10.1016/j.marpolbul.2021.112968JawadL. A.AbdulsamadS. M.Al-NusearA. N.WaryaniB.RutkayováJ.2021Otolith mass asymmetry in three sparid fish species collected from the Iraqi watersMarine Pollution Bulletin173Pt A112968https://doi.org/10.1016/j.marpolbul.2021.112968Search in Google Scholar
Jawad, L. A., Al-Mamry, J. M., Hager, M., Al Mamari, M., Al-Yarubi, M., Al-Busaidi, H. K., & Al-Mamary, D. S. (2011). Otolith mass asymmetry in Rhynchorhamphus georgi (Valenciennes, 1846) (Family: Hemiramphidae) collected from the sea of Oman. Journal of the Black Sea/Mediterranean Environments, 17, 47–55 (The reference is fine, No DOI is available)JawadL. A.Al-MamryJ. M.HagerM.Al MamariM.Al-YarubiM.Al-BusaidiH. K.Al-MamaryD. S.2011Otolith mass asymmetry in Rhynchorhamphus georgi (Valenciennes, 1846) (Family: Hemiramphidae) collected from the sea of OmanJournal of the Black Sea/Mediterranean Environments174755(The reference is fine, No DOI is available)Search in Google Scholar
Kassambara, A. (2023). Rstatix: Pipe-Friendly Framework for Basic Statistical Tests. R package version 0.7.2, 2023, https://CRAN.R-project.org/package=rstatix.KassambaraA.2023Rstatix: Pipe-Friendly Framework for Basic Statistical TestsR package version 0.7.2, 2023, https://CRAN.R-project.org/package=rstatix.Search in Google Scholar
Kılıç, E., Can, M. F., & Yanar, A. (2021). Assessment of some heavy metal accumulation and potential health risk for three fish species from three consecutive bay in North-Eastern Mediterranean Sea. Marine Life Science, 3(1), 24–38. https://doi.org/10.51756/marlife.938938KılıçE.CanM. F.YanarA.2021Assessment of some heavy metal accumulation and potential health risk for three fish species from three consecutive bay in North-Eastern Mediterranean SeaMarine Life Science312438https://doi.org/10.51756/marlife.938938Search in Google Scholar
L'Abée-Lund, J. H. (1988). Otolith shape discriminates between juvenile Atlantic salmon, Salmo salar L., and brown trout, Salmo trutta L. Journal of Fish Biology, 33(6), 899–903. https://doi.org/10.1111/j.1095-8649.1988.tb05538.xL'Abée-LundJ. H.1988Otolith shape discriminates between juvenile Atlantic salmon, Salmo salar L., and brown trout, Salmo trutta LJournal of Fish Biology336899903https://doi.org/10.1111/j.1095-8649.1988.tb05538.xSearch in Google Scholar
Lee, D. H., & Lysak, R. L. (1990). Effects of azimuthal asymmetry on ULF waves in the dipole magnetosphere. Geophysics Research Letters, 17, 53–56. https://doi.org/10.1029/GL017i001p00053LeeD. H.LysakR. L.1990Effects of azimuthal asymmetry on ULF waves in the dipole magnetosphereGeophysics Research Letters175356https://doi.org/10.1029/GL017i001p00053Search in Google Scholar
Leventeli, Y., Yalcin, F., & Kilic, M. (2019). An investigation about heavy metal pollution of Duden and Goksu Streams (Antalya, Turkey). Applied Ecology and Environmental Research, 17(2), 2424–2436. https://doi.org/10.15666/aeer/1702_24232436LeventeliY.YalcinF.KilicM.2019An investigation about heavy metal pollution of Duden and Goksu Streams (Antalya, Turkey)Applied Ecology and Environmental Research17224242436https://doi.org/10.15666/aeer/1702_24232436Search in Google Scholar
Lombarte, A., & Cruz, A. (2007). Otolith size trends in marine fish communities from different depth strata. Journal of Fish Biology, 71(1), 53–76. https://doi.org/10.1111/j.1095-8649.2007.01465.xLombarteA.CruzA.2007Otolith size trends in marine fish communities from different depth strataJournal of Fish Biology7115376https://doi.org/10.1111/j.1095-8649.2007.01465.xSearch in Google Scholar
Lombarte, A., Palmer, M., Matallanas, J., Gómez-Zurita, J., & Morales-Nin, B. (2010). Ecomorphological trends and phylogenetic inertia of otolith sagittae in Nototheniidae. Environmental Biology of Fishes, 89(3–4), 607–618. https://doi.org/10.1007/s10641-010-9673-2LombarteA.PalmerM.MatallanasJ.Gómez-ZuritaJ.Morales-NinB.2010Ecomorphological trends and phylogenetic inertia of otolith sagittae in NototheniidaeEnvironmental Biology of Fishes893–4607618https://doi.org/10.1007/s10641-010-9673-2Search in Google Scholar
Lychakov, D. V., & Rebane, Y. T. (2004). Otolith mass asymmetry in 18 species of fish and pigeon. Journal of Gravitational Physiology, 11, 17–34.LychakovD. V.RebaneY. T.2004Otolith mass asymmetry in 18 species of fish and pigeonJournal of Gravitational Physiology111734Search in Google Scholar
Lychakov, D. V., & Rebane, Y. T. (2005). Fish otolith mass asymmetry: Morphometry and influence on acoustic functionality. Hearing Research, 201(1–2), 55–69. https://doi.org/10.1016/j.heares.2004.08.017LychakovD. V.RebaneY. T.2005Fish otolith mass asymmetry: Morphometry and influence on acoustic functionalityHearing Research2011–25569https://doi.org/10.1016/j.heares.2004.08.017Search in Google Scholar
Lychakov, D. V. (1992). Morphometric studies of fish otoliths in relation to vestibular function. Zhurnal Evolutioni Biokhimi Fiziologi, 28, 531–539.LychakovD. V.1992Morphometric studies of fish otoliths in relation to vestibular functionZhurnal Evolutioni Biokhimi Fiziologi28531539Search in Google Scholar
Lychakov, D. V. (2002). Otolithic membrane: Structural and functional organization, evolution, ecomorphological plasticity and tolerance to extreme conditions [Doctorskaya Dissertaziya], Vol 1. Sechenov Institute, St. Petersberg 2, 1–266.LychakovD. V.2002Otolithic membrane: Structural and functional organization, evolution, ecomorphological plasticity and tolerance to extreme conditions [Doctorskaya Dissertaziya]1Sechenov InstituteSt. Petersberg 21266Search in Google Scholar
Lychakov, D.V., Rebane, Y.T., Lombarte, A., Fuiman, L.A., & Takabayashi, A. (2006). Fish otolith asymmetry: morphometry and modeling. Hearing research, 219(1–2), 1–11. doi:10.1016/j.heares.2006.03.019.LychakovD.V.RebaneY.T.LombarteA.FuimanL.A.TakabayashiA.2006Fish otolith asymmetry: morphometry and modelingHearing research2191–211110.1016/j.heares.2006.03.019Open DOISearch in Google Scholar
Lychakov, D. V., Boyadzhieva-Mikhailova, A., Christov, I., Pashchinin, A. N., Evdokimov, I. I., & Matkov, A. A. (1988). Changes in the otolith apparatus of rat and fish after pro longed exposure to acceleration. Kosmicheskaya biologiya I Aviakosmicheskaya Meditsin, 22, 27–33.LychakovD. V.Boyadzhieva-MikhailovaA.ChristovI.PashchininA. N.EvdokimovI. I.MatkovA. A.1988Changes in the otolith apparatus of rat and fish after pro longed exposure to accelerationKosmicheskaya biologiya I Aviakosmicheskaya Meditsin222733Search in Google Scholar
Lychakov, D. V., Rebane, Y. T., Lombarte, A., Demestre, M., & Fuiman, L. (2008). Saccular otolith mass asymmetry in adult flatfishes. Journal of Fish Biology, 72(10), 25792594. https://doi.org/10.1111/j.1095-8649.2008.01869.xLychakovD. V.RebaneY. T.LombarteA.DemestreM.FuimanL.2008Saccular otolith mass asymmetry in adult flatfishesJournal of Fish Biology721025792594https://doi.org/10.1111/j.1095-8649.2008.01869.xSearch in Google Scholar
Lychakov, D. V., Rebane, Y. T., Lombarte, A., Fuiman, L. A., & Takabayashi, A. (2006). Fish otolith asymmetry: Morphometry and modeling. Hearing Research, 219(1–2), 1–11. https://doi.org/10.1016/j.heares.2006.03.019LychakovD. V.RebaneY. T.LombarteA.FuimanL. A.TakabayashiA.2006Fish otolith asymmetry: Morphometry and modelingHearing Research2191–2111https://doi.org/10.1016/j.heares.2006.03.019Search in Google Scholar
Mabrouk, L., Guarred, T., Hamza, A., Messaoudi, I., & Hellal, A. N. (2014). Fluctuating asymmetry in grass goby Zosterisessor ophiocephalus Pallas, 1811 inhabiting polluted and unpolluted area in Tunisia. Marine Pollution Bulletin, 85(1), 248–251. https://doi.org/10.1016/j.marpolbul.2014.06.015MabroukL.GuarredT.HamzaA.MessaoudiI.HellalA. N.2014Fluctuating asymmetry in grass goby Zosterisessor ophiocephalus Pallas, 1811 inhabiting polluted and unpolluted area in TunisiaMarine Pollution Bulletin851248251https://doi.org/10.1016/j.marpolbul.2014.06.015Search in Google Scholar
Mei, W., Yu, G., & Greenwell, B. (2022). ggtrendline: Add Trendline and Confidence Interval to ‘ggplot’. R package version 1.0.3, 2022, https://github.com/PhDMeiwp/ggtrendline.MeiW.YuG.GreenwellB.2022ggtrendline: Add Trendline and Confidence Interval to ‘ggplot’. R package version 1.0.3, 2022, https://github.com/PhDMeiwp/ggtrendline.Search in Google Scholar
Munday, P. L., Hernaman, V., Dixson, D. L., & Thorrold, S. R. (2011). Effect of ocean acidification on otolith development in larvae of a tropical marine fish. Biogeosciences, 8, 2329–2356. https://doi.org/10.5194/bg-8-1631-2011MundayP. L.HernamanV.DixsonD. L.ThorroldS. R.2011Effect of ocean acidification on otolith development in larvae of a tropical marine fishBiogeosciences823292356https://doi.org/10.5194/bg-8-1631-2011Search in Google Scholar
Palmer, A. R. (1994). Fluctuating asymmetry analyses: A premier. In T. A. Markov (Ed.), Developmental instability: Its origin and evolutionary implications (pp. 335–364). Kluwar. https://doi.org/10.1007/978-94-011-0830-0_26PalmerA. R.1994Fluctuating asymmetry analyses: A premierInMarkovT. A.(Ed.),Developmental instability: Its origin and evolutionary implications335364Kluwarhttps://doi.org/10.1007/978-94-011-0830-0_26Search in Google Scholar
Perry, D. M., Redman, D. H., Widman, J. C. Jr., Meseck, S., King, A., & Pereira, J. J. (2015). Effect of ocean acidification on growth and otolith condition of juvenile scup, Stenotomus chrysops. Ecology and Evolution, 5(18), 4187–4196. https://doi.org/10.1002/ece3.1678PerryD. M.RedmanD. H.WidmanJ. C.Jr.MeseckS.KingA.PereiraJ. J.2015Effect of ocean acidification on growth and otolith condition of juvenile scup, Stenotomus chrysopsEcology and Evolution51841874196https://doi.org/10.1002/ece3.1678Search in Google Scholar
Rahman, H., & Anken, R. H. (2002). Gravitation biology using fish as model systems for understanding motion sickness susceptibility. Journal of Gravitational Physiology, 9(1), 19–20.RahmanH.AnkenR. H.2002Gravitation biology using fish as model systems for understanding motion sickness susceptibilityJournal of Gravitational Physiology911920Search in Google Scholar
Samarin, G. I. (1992). Study of the labyrinth asymmetry and its possible role in the motion sickness genesis (Tezisy Kandidatskoi Dissertazii) (pp. 1–33). Institute for Biomedical Problems. (in Russian).SamarinG. I.1992Study of the labyrinth asymmetry and its possible role in the motion sickness genesis (Tezisy Kandidatskoi Dissertazii)133Institute for Biomedical Problems(in Russian).Search in Google Scholar
Scherer, H., Helling, K., Clarke, A. H., & Hausmann, S. (2003). Motion sickness and otolith asymmetry. Biological Sciences in Space, 15(4), 401–404. https://doi.org/10.2187/bss.15.401SchererH.HellingK.ClarkeA. H.HausmannS.2003Motion sickness and otolith asymmetryBiological Sciences in Space154401404https://doi.org/10.2187/bss.15.401Search in Google Scholar
Takabayashi, A., & Ohmura-Iwasaki, T. (2003). Functional asymmetry estimated by measurements of otolith in fish. Biological Sciences in Space, 17(4), 293–297. https://doi.org/10.2187/bss.17.293TakabayashiA.Ohmura-IwasakiT.2003Functional asymmetry estimated by measurements of otolith in fishBiological Sciences in Space174293297https://doi.org/10.2187/bss.17.293Search in Google Scholar
Thiam, N. (2004). Ecomorphologie de Trisopterus luscus (Linnaeus, 1758) tacaud, adaptation a la temp'erature at l'asymm'etric fluctuante [Ph.D. Thesis] Facult'e des Sciences, Universit'e de Vigo (190 pp.).ThiamN.2004Ecomorphologie de Trisopterus luscus (Linnaeus, 1758) tacaud, adaptation a la temp'erature at l'asymm'etric fluctuante[Ph.D. Thesis] Facult'e des Sciences, Universit'e de Vigo190 ppSearch in Google Scholar
Valentine, D. W., Soule, M. E., & Samollow, P. (1973). Asymmetry in fishes: A possible statistical indicator of environmental stress. Fish Bulletin, 71(2), 357–370.ValentineD. W.SouleM. E.SamollowP.1973Asymmetry in fishes: A possible statistical indicator of environmental stressFish Bulletin712357370Search in Google Scholar
Vignon, M., & Morat, F. (2010). Environmental and genetic determinant of otolith shape revealed by a non-indigenous tropical fish. Marine Ecology Progress Series, 411, 231–241. https://doi.org/10.3354/meps08651VignonM.MoratF.2010Environmental and genetic determinant of otolith shape revealed by a non-indigenous tropical fishMarine Ecology Progress Series411231241https://doi.org/10.3354/meps08651Search in Google Scholar
von Baumgarten, R. J., Wetzig, J., Vogel, H., & Kass, J. R. (1982). Static and dynamic mechanisms of space vestibular malaise. The Physiologist, 25(6), 33–36.von BaumgartenR. J.WetzigJ.VogelH.KassJ. R.1982Static and dynamic mechanisms of space vestibular malaiseThe Physiologist2563336Search in Google Scholar
Vrdoljak, D., Matic-Skoko, S., Peharda, M., Uvanovic, H., Markulin, K., & Mertz-Kraus, R. (2020). Otolith fingerprints reveals potential pollution exposure of newly settled juvenile Sparus aurata. Marine Pollution Bulletin, 160, 111695. https://doi.org/10.1016/j.marpolbul.2020.111695VrdoljakD.Matic-SkokoS.PehardaM.UvanovicH.MarkulinK.Mertz-KrausR.2020Otolith fingerprints reveals potential pollution exposure of newly settled juvenile Sparus aurataMarine Pollution Bulletin160111695https://doi.org/10.1016/j.marpolbul.2020.111695Search in Google Scholar
Wang, W. X. (2002). Interactions of trace metals and different marine food chains. Marine Ecology Progress Series, 243, 295–309. https://doi.org/10.3354/meps243295WangW. X.2002Interactions of trace metals and different marine food chainsMarine Ecology Progress Series243295309https://doi.org/10.3354/meps243295Search in Google Scholar
Wickham, H. (2016). ggplot2: Elegant graphics for data analysis. Springer-Verlag.WickhamH.2016ggplot2: Elegant graphics for data analysisSpringer-VerlagSearch in Google Scholar
Yalçin, F. (2020). Application of multivariate statistic and pollution index techniques to determine beach sand element distribution, East of Antalya City. Filomat, 34(2), 623–630. https://doi.org/10.2298/FIL2002623YYalçinF.2020Application of multivariate statistic and pollution index techniques to determine beach sand element distribution, East of Antalya CityFilomat342623630https://doi.org/10.2298/FIL2002623YSearch in Google Scholar
Yalçın, M. G., Mutlu, E., Olguner, C., Atakoğlu, ÖÖ, Bat, L., & Özkan, E. Y. (2023). Spatial geochemical structure of soft sediment on shallow littoral of the Gulf of Antalya, the eastern Mediterranean Sea. Marine Pollution Bulletin, 193, 115–155. https://doi.org/10.1016/j.marpolbul.2023.115155YalçınM. G.MutluE.OlgunerC.AtakoğluÖÖBatL.ÖzkanE. Y.2023Spatial geochemical structure of soft sediment on shallow littoral of the Gulf of Antalya, the eastern Mediterranean SeaMarine Pollution Bulletin193115155https://doi.org/10.1016/j.marpolbul.2023.115155Search in Google Scholar
Profil Orcid