Search results for "Symphodus ocellatus."

showing 10 items of 11 documents

Nest-mediated parental care in a marine fish: Are large-scale nesting habitats selected and do these habitats respond to small-scale requirements?

2018

Fishes have evolved various reproductive strategies including mechanisms that involve parental care and demersal eggs laid into nests. Symphodus ocellatus has a seasonal reproduction period during which large, dominant males become territorial and build nests with fragments of algae, where they attract females to spawn and provide care to the developing eggs. Based on the hypothesis that the S. ocellatus males choose the reproductive habitat based on some characteristics of the substrate, here we assessed whether, on a coastal area scale, the distribution of this species changes during the reproductive period because of the selection of some suitable sites or substrates, and whether the nes…

0106 biological sciences0301 basic medicineCanopyEnvironmental EngineeringNest-buildinghabitat selectionhabitat requirementAquatic ScienceOceanography010603 evolutionary biology01 natural sciencesDemersal zone03 medical and health sciencesNestAlgaeLabridaeSymphodus ocellatus.Ecology Evolution Behavior and SystematicsSymphodus ocellatusbiologyEcologybiology.organism_classificationSpawn (biology)030104 developmental biologyHabitatPaternal careMediterranean Marine Science

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The influence of high pCO2 on otolith shape, chemical and carbon isotope composition of six coastal fish species in a Mediterranean shallow CO2 vent

2017

Naturally acidified environments, such as CO2 vents, are important sites to evaluate the potential effects of increased ocean acidification on marine ecosystems and biota. Here we assessed the effect of high CO2/low pH on otolith shape and chemical composition of six coastal fish species (Chromis chromis, Coris julis, Diplodus vulgaris, Gobius bucchichi, Sarpa salpa, Symphodus ocellatus) in a Mediterranean shallow CO2 vent. Taking into consideration the major and trace elements found near the vent and the gradient of dissolved inorganic carbon, we compared the otolith chemical signatures of fish exposed long-term to elevated CO2 emissions and reduced pH (mean pH 7.8) against fish living in …

0106 biological sciencesSymphodus ocellatus010504 meteorology & atmospheric sciencesbiologyEcology010604 marine biology & hydrobiologyCoastal fishOcean acidificationAquatic Sciencebiology.organism_classificationChromis chromis01 natural sciencesEcology Evolution Behavior and SystematicOceanographymedicine.anatomical_structureDissolved organic carbonmedicineDiplodus vulgarisChemical compositionEcology Evolution Behavior and Systematics0105 earth and related environmental sciencesOtolith

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Effects of ocean acidification on embryonic respiration and development of a temperate wrasse living along a natural CO2gradient

2016

We assessed rising CO2 effects on metabolism and development of a nesting wrasse by reciprocal transplant experiments in the field. Offspring brooded under different CO2 conditions exhibited similar responses. However, embryos from High-CO2 site were resilient to a wider range of pCO2 levels than those belonging to current-day conditions.

0106 biological sciencesPhysiological performance010504 meteorology & atmospheric sciencesPhysiologyOffspringEarly developmentManagement Monitoring Policy and LawBiology01 natural sciencesTemperate fishRespirationGlobal change0105 earth and related environmental sciencesNature and Landscape ConservationLarvaPhenotypic plasticitySymphodus ocellatusHatchingEcologySymphodus ocellatus010604 marine biology & hydrobiologyEcological ModelingOcean acidificationbiology.organism_classificationThemed Issue Article: Conservation Physiology of Marine FishesWrasseEarly development; Global change; Physiological performance; Symphodus ocellatus; Temperate fish; Nature and Landscape Conservation; Management Monitoring Policy and Law; Ecological Modeling; PhysiologySymphodus ocellatuResearch ArticleConservation Physiology

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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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Nest building in a Mediterranean wrasse (Symphodus ocellatus): are the algae used randomly chosen or actively selected?

2014

To increase their reproductive success, fish species have evolved various strategies, including both simple processes and more complex mechanisms that involve parental care by nest-building. In Symphodus ocellatus, a species that lives in rocky infralittoral zones of the Mediterranean Sea, during the reproductive period, the male builds a nest within a hole or crevice using fragments of algae and/or sand particles. Data on the nesting activity of wrasses are rare, and previous descriptions regarding the algal composition of nests have provided conflicting results. In this regard, it is unclear whether territorial males actively select algal species for nest construction or algal choice is r…

Settore BIO/07 - EcologiaSymphodus ocellatusEcologybiologyReproductive successEcologyNest-buildingJania rubensnestbuildingAlgal selectionAquatic Sciencebiology.organism_classificationJania rubensNestAlgaeHabitatJania rubenWrasseLabridaePaternal careEcology Evolution Behavior and Systematics

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Nest guarding behaviour of a temperate wrasse differs between sites off Mediterranean CO2 seeps

2021

Abstract Organisms may respond to changing environmental conditions by adjusting their behaviour (i.e., behavioural plasticity). Ocean acidification (OA), resulting from anthropogenic emissions of carbon dioxide (CO2), is predicted to impair sensory function and behaviour of fish. However, reproductive behaviours, and parental care in particular, and their role in mediating responses to OA are presently overlooked. Here, we assessed whether the nesting male ocellated wrasse Symphodus ocellatus from sites with different CO2 concentrations showed different behaviours during their breeding season. We also investigated potential re-allocation of the time-budget towards different behavioural act…

0106 biological sciencesEnvironmental EngineeringEnvironmental changeTime allocationParental careBiology010603 evolutionary biology01 natural sciencesNestSeasonal breederEnvironmental ChemistryNest defence14. Life underwaterWaste Management and DisposalSymphodus ocellatusVentEcologyOcean acidificationReproduction010604 marine biology & hydrobiologyOcean acidificationbiology.organism_classificationPollutionWrasseCO2Paternal careScience of The Total Environment

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Data from: Ocean acidification affects fish spawning but not paternity at CO2 seeps

2016

Fish exhibit impaired sensory function and altered behaviour at levels of ocean acidification expected to occur owing to anthropogenic carbon dioxide emissions during this century. We provide the first evidence of the effects of ocean acidification on reproductive behaviour of fish in the wild. Satellite and sneaker male ocellated wrasse (Symphodus ocellatus) compete to fertilize eggs guarded by dominant nesting males. Key mating behaviours such as dominant male courtship and nest defence did not differ between sites with ambient versus elevated CO2 concentrations. Dominant males did, however, experience significantly lower rates of pair spawning at elevated CO2 levels. Despite the higher r…

CO2 ventmedicine and health careSymphodus ocellatusAlternative Reproductive TacticsLife SciencesMedicinelabrid

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Ocean acidification affects fish spawning but not paternity at CO2 seeps

2016

Eggs standard errorOcean Acidification International Coordination Centre (OA-ICC)TemperateRegistration number of speciesIdentificationSalinityEggsinorganicAlkalinityExperimentNumber standard errorDominant male paternityTemperature waterCarbon inorganic dissolvedNumber of individualsCalculated using seacarb after Nisumaa et al 2010Number of spawning events standard errorAragonite saturation stateFish standard lengthChordataAlkalinity totalSalinity standard errortotalCO2 ventReplicatesCourtship standard errorpHPelagosReproductionSymphodus ocellatusTemperatureNumberPartial pressure of carbon dioxide (water) at sea surface temperature (wet air) standard errordissolvedCarbonate ionPartial pressure of carbon dioxide (water) at sea surface temperature (wet air)standard errorIndividuals standard errorEarth System ResearchField observationFOS: Medical biotechnologyUniform resource locator link to referencePotentiometric titrationCalcite saturation stateLocationPotentiometricwaterNumber of spawning eventsAgeUniform resource locator/link to referenceOcean Acidification International Coordination Centre OA ICCMediterranean SeaAnimaliaEggs areaBehaviourTypeBicarbonate ionNektonEggs area standard errorTemperature water standard errorCalculated using seacarb after Nisumaa et al. (2010)SpeciespH standard errorWet massDominant male paternity standard errorCalculated using CO2SYSEvent labelIndividualsCourtshipCarbonate system computation flagstandard lengthFugacity of carbon dioxide (water) at sea surface temperature (wet air)CarbonTreatmentPartial pressure of carbon dioxide water at sea surface temperature wet airFishCarbon dioxideSingle speciesFugacity of carbon dioxide water at sea surface temperature wet airCoast and continental shelf

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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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Effects of ocean acidification on embryonic respiration and development of a temperate wrasse living along a natural CO2 gradient

2016

Volcanic CO2 seeps provide opportunities to investigate the effects of ocean acidification on organisms in the wild. To understand the influence of increasing CO2 concentrations on the metabolic rate (oxygen consumption) and the development of ocellated wrasse early life stages, we ran two field experiments, collecting embryos from nesting sites with different partial pressures of CO2 [pCO2; ambient (400 µatm) and high (800-1000 µatm)] and reciprocally transplanting embryos from ambient- to high-CO2 sites for 30 h. Ocellated wrasse offspring brooded in different CO2 conditions had similar responses, but after transplanting portions of nests to the high-CO2 site, embryos from parents that sp…

StageOcean Acidification International Coordination Centre (OA-ICC)TemperateRegistration number of speciesSalinityinorganicYolk area standard errorAlkalinityExperimentTemperature waterCarbon inorganic dissolvedCalculated using seacarb after Nisumaa et al 2010Aragonite saturation stateRespiration rate oxygenChordataAlkalinity totaltotalCO2 ventpHPelagosReproductionRespirationSymphodus ocellatusTemperatureYolk areadissolvedCarbonate ionPartial pressure of carbon dioxide (water) at sea surface temperature (wet air)Field experimentTemperature water standard deviationTime pointstandard errorRespiration rateEarth System Researchstandard deviationFOS: Medical biotechnologyUniform resource locator link to referenceTime point descriptiveHatchling lengthCalcite saturation statewaterPartial pressure of carbon dioxidedescriptiveGrowth MorphologyFigureUniform resource locator/link to referenceSalinity standard deviationOcean Acidification International Coordination Centre OA ICCMediterranean SeaAnimaliaEggs areaTypeBicarbonate ionNektonEggs area standard errorCalculated using seacarb after Nisumaa et al. (2010)SpeciesPartial pressure of carbon dioxide standard deviationCarbonate system computation flagpH standard deviationHatchling length standard errorFugacity of carbon dioxide (water) at sea surface temperature (wet air)CarbonTreatmentOxygenPartial pressure of carbon dioxide water at sea surface temperature wet airCarbon dioxideGrowth/MorphologySingle speciesOxygen standard deviationFugacity of carbon dioxide water at sea surface temperature wet airCoast and continental shelf

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