0000000000378770

AUTHOR

Khalil Sdiri

showing 6 related works from this author

Supplementary material - Details on study area, species, methods and additional results from Ocean acidification affects somatic and otolith growth r…

2019

Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studies were carried out in laboratory conditions without considering the in situ pCO2/pH variability documented for many marine coastal ecosystems. Using a standard otolith ageing technique, we assessed how in situ ocean acidification (ambient, versus end-of-century CO2 levels) can affect can affect somatic and otolith growth, and their relationship in a coastal fish. Somatic and otolith growth rates of juveniles from a population of the ocellated wrasse Symphodus ocellatus living off a Mediterranean CO2 seep, increased at the high-pCO2 site. Also, we detected that slower growing individuals livin…

sense organs
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Ocean acidification does not impair predator recognition but increases juvenile growth in a temperate wrasse off CO2seeps

2017

8 pages, 4 figures, supplementary data https://doi.org/10.1016/j.marenvres.2017.10.013

0106 biological sciencesSettore BIO/07 - EcologiaCO2 ventsCO2ventEffects-fishAquatic ScienceOceanography010603 evolutionary biology01 natural sciencesPredationStress PhysiologicalmedicineMediterranean SeaJuvenileSeawaterPerciformePredatorGlobal changeOtolithRisk assessmentSymphodus ocellatusSettlementbiologyEcologypHAnimalSymphodus ocellatus010604 marine biology & hydrobiologyOcean acidificationGeneral MedicineJuvenile fishCarbon DioxideHydrogen-Ion Concentrationbiology.organism_classificationPollutionmedicine.anatomical_structureCarbon dioxideWrassePredatory BehaviorSymphodus ocellatuEnvironmental Monitoring
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Effets du bruit marin sur le changement des poissons sparidés juvéniles entre les espèces et les stades de développement

2023

International audience; Marine noise is an emerging pollutant inducing a variety of negative impacts on many animal taxa, including fish. Fish population persistence and dynamics rely on the supply of early life stages, which are often very sensitive to disturbance. Impacts of marine noise pollution (MNP) on juvenile fish have rarely been investigated in temperate regions. This is particularly true for the Mediterranean Sea, which is considered as an MNP hotspot due to intensive maritime traffic. In this study, we investigate the relationship between MNP related to boat traffic and (i) assemblage structure and (ii) the density of juvenile fishes (post-settlers at different stages) belonging…

settlementmarine conservationEcologyrecruitmentnoise pollution; Mediterranean Sea; fish juveniles; settlement; recruitment; Sparidae; marine conservationEcological Modeling[SDE]Environmental Sciencesnoise pollutionMediterranean Seafish juvenileSparidaeAgricultural and Biological Sciences (miscellaneous)Nature and Landscape Conservation
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Ocean acidification affects somatic and otolith growth relationship in fish: Evidence from an in situ study

2019

Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studies have been carried out in laboratory conditions without considering the in situ p CO 2 /pH variability documented for many marine coastal ecosystems. Using a standard otolith ageing technique, we assessed how in situ ocean acidification (ambient, versus end-of-century CO 2 levels) can affect somatic and otolith growth, and their relationship in a coastal fish. Somatic and otolith growth rates of juveniles of the ocellated wrasse Symphodus ocellatus living off a Mediterranean CO 2 seep increased at the high- p CO 2 site. Also, we detected that slower-growing individuals living at ambient p C…

0106 biological sciencesIn situ010504 meteorology & atmospheric sciencesSomatic cellCoastal fishPCO2Marine BiologyBiology01 natural sciencesOtolithCoastal fishOtolithic MembranemedicineCO2 seepAnimalsSeawaterEcosystem0105 earth and related environmental sciencesOtolithvariability010604 marine biology & hydrobiologyOcean acidificationOcean acidificationCarbon DioxideHydrogen-Ion ConcentrationAgricultural and Biological Sciences (miscellaneous)Oceanographymedicine.anatomical_structureSomatic growthFish <Actinopterygii>sense organsGeneral Agricultural and Biological SciencesIn situ study
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Seawater carbonate chemistry and somatic and otolith growth relationship of Symphodus ocellatus

2019

Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studies have been carried out in laboratory conditions without considering the in situ pCO2/pH variability documented for many marine coastal ecosystems. Using a standard otolith ageing technique, we assessed how in situ ocean acidification (ambient, versus end-of-century CO2 levels) can affect somatic and otolith growth, and their relationship in a coastal fish. Somatic and otolith growth rates of juveniles of the ocellated wrasse Symphodus ocellatus living off a Mediterranean CO2 seep increased at the high-pCO2 site. Also, we detected that slower-growing individuals living at ambient pCO2 levels …

Ocean Acidification International Coordination Centre (OA-ICC)TemperateRegistration number of speciesIdentificationSalinityinorganicAlkalinityExperimentTemperature waterCarbon inorganic dissolvedCalculated using seacarb after Nisumaa et al 2010Aragonite saturation stateChordataAlkalinity totaltotalCO2 ventTime in dayspHPelagosSymphodus ocellatusTemperaturedissolvedLength totalCarbonate ionPartial pressure of carbon dioxide (water) at sea surface temperature (wet air)Temperature water standard deviationEarth System Researchstandard deviationField observationUniform resource locator link to referencePotentiometric titrationCalcite saturation stateLengthPotentiometricwaterPartial pressure of carbon dioxideSiteGrowth MorphologyAgeUniform resource locator/link to referenceSalinity standard deviationOcean Acidification International Coordination Centre OA ICCMediterranean SeaAnimaliaTypeSampling dateBicarbonate ionNektonCalculated using seacarb after Nisumaa et al. (2010)SpeciesCalculated using CO2SYSPartial pressure of carbon dioxide standard deviationCarbonate system computation flagpH standard deviationFugacity of carbon dioxide (water) at sea surface temperature (wet air)CarbonPartial pressure of carbon dioxide water at sea surface temperature wet airCarbon dioxideGrowth/MorphologySingle speciesFugacity of carbon dioxide water at sea surface temperature wet airsense organs
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Database from Ocean acidification affects somatic and otolith growth relationship in fish: evidence from an in situ study.

2019

Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studies were carried out in laboratory conditions without considering the in situ pCO2/pH variability documented for many marine coastal ecosystems. Using a standard otolith ageing technique, we assessed how in situ ocean acidification (ambient, versus end-of-century CO2 levels) can affect can affect somatic and otolith growth, and their relationship in a coastal fish. Somatic and otolith growth rates of juveniles from a population of the ocellated wrasse Symphodus ocellatus living off a Mediterranean CO2 seep, increased at the high-pCO2 site. Also, we detected that slower growing individuals livin…

sense organs
researchProduct