Aslan E.Uğur Görgün A.Katalay S.Filizok I.Becerik S.Aydemir T.2024-07-222024-07-2220180265931Xhttp://akademikarsiv.cbu.edu.tr:4000/handle/123456789/14912It is well known that the marine organisms are used as biological indicators for environmental pollution studies. Among these studies, the research on oxidative stress has been increasing in recent years. In this study, mussels (Mytilus galloprovincialis) and fish (Solea solea) samples were collected seasonally from İnciraltı İzmir, Turkey. This station was in an area where fishing is carried out for human consumption. The relationship between 210Po and oxidative stress markers (lipid peroxidation (LPO), H2O2 and proline) was investigated in the mussel tissue (digestive gland, gills) and fish tissue (liver, gills) samples. The present study indicated that H2O2 accumulated with increasing 210Po concentration in mussel samples. Statistically significant correlation were found between H2O2 and 210Po and LPO and proline in mussel samples. This correlation between LPO and proline can be attributed to common environmental parameters (other than 210Po) affecting expression of both LPO and proline levels. There was not a significant correlation between 210Po and LPO levels. Similarly, a significant correlation was not found between 210Po and proline. © 2018 Elsevier LtdEnglishAnimalsBaysBiomarkersFlatfishesLipid PeroxidationMytilusOxidative StressPoloniumRadiation MonitoringTurkeyWater Pollutants, RadioactiveIzmir BayIzmir [Turkey]TurkeyMytilus galloprovincialisSolea soleaFishLipidsMarine biologyMarine pollutionMolluscsOxidationPoloniumTissuebiological markerhydrogen peroxidelipid peroxidemalonaldehydepoloniumprolinebiological markerpoloniumH2O2Lipid peroxidationMusselproline^210Poamino acidbiomarkerbivalvecorrelationenvironmental factorflatfishlipidoxidationoxidative stresspolonium isotopeseasonal variationanimal tissueArticleautumnbayenvironmental parametersenvironmental radioactivityexocrine glandfishfood intakegilllipid peroxidationliverMytilus galloprovincialisnonhumanoxidative stressseasonal variationSolea soleaspringsummerTurkey (republic)winteranimalbayflatfishmetabolismMytilusoxidative stressphysiologyradiation monitoringturkey (bird)water pollutantOxidative stressArticle10.1016/j.jenvrad.2018.03.018