Search results for "CO2 vents"

showing 9 items of 9 documents

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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Distribution of sea urchins living near shallow water CO2 vents is dependent upon species acid-base and ion-regulatory abilities.

2013

To reduce the negative effect of climate change on Biodiversity, the use of geological CO2 sequestration has been proposed; however leakage from underwater storages may represent a risk to marine life. As extracellular homeostasis is important in determining species' ability to cope with elevated CO2, we investigated the acid-base and ion regulatory responses, as well as the density, of sea urchins living around CO2 vents at Vulcano, Italy. We conducted in situ transplantation and field-based laboratory exposures to different pCO2/pH regimes. Our results confirm that sea urchins have some ability to regulate their extracellular fluid under elevated pCO2. Furthermore, we show that even in cl…

0106 biological sciencesSettore BIO/07 - EcologiaGeological Phenomena010504 meteorology & atmospheric sciencesClimate ChangeSpecies distributionBiodiversityMarine lifeAquatic ScienceOceanography01 natural sciencesParacentrotus lividushowever leakage from underwater storages may represent a risk to marine life. As extracellular homeostasis is important in determining species' ability to cope with elevated CO2 we investigated the acid-base and ion regulatory responses as well as the density of sea urchins living around CO2 vents at Vulcano Italy. We conducted in situ transplantation and field-based laboratory exposures to different pCO2/pH regimes. Our results confirm that sea urchins have some ability to regulate their extracellular fluid under elevated pCO2. Furthermore we show that even in closely-related taxa divergent physiological capabilities underlie differences in taxa distribution around the CO2 vent. It is concluded that species distribution under the sort of elevated CO2 conditions occurring with leakages from geological storages and future ocean acidification scenarios may partly be determined by quite subtle physiological differentiation.Mediterranean seaBenthosAnimalsSeawater14. Life underwaterEcosystem0105 earth and related environmental sciencesbiologyEcology010604 marine biology & hydrobiologyTo reduce the negative effect of climate change on Biodiversity the use of geological CO2 sequestration has been proposedOcean acidificationCarbon DioxideHydrogen-Ion Concentrationbiology.organism_classificationAdaptation PhysiologicalPollutionTransplantationOceanographyItaly13. Climate actionSea UrchinsWater Pollutants Chemical
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Biogenic habitat shifts under long-term ocean acidification show nonlinear community responses and unbalanced functions of associated invertebrates

2019

Este artículo contiene 8 páginas, 4 figuras.

CO2 ventsEnvironmental Engineering010504 meteorology & atmospheric sciencesOceans and SeasOceans and SeaSnailsIntertidal zone010501 environmental sciencesEnvironmentsTransplant01 natural sciencesModels BiologicalNonlinear DynamicRocky shoreMediterranean SeaAnimalsEnvironmental ChemistryMarine ecosystemEcosystemSeawaterInvertebratePhase shiftWaste Management and DisposalEcosystem0105 earth and related environmental sciencesSeabiologyEcologyAnimalOcean acidificationCoralline algaeOcean acidificationBiodiversityCarbon Dioxidebiology.organism_classificationInvertebratesPollutionNonlinear DynamicsCarbon dioxideItalySnailBenthic zoneImpactsReefsEnvironmental scienceSpecies richnessCoralCo2 ventsVermetid reef
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Ocean acidification as a driver of community simplification via the collapse of higher-order and rise of lower-order consumers

2017

AbstractIncreasing oceanic uptake of CO2 is predicted to drive ecological change as both a resource (i.e. CO2 enrichment on primary producers) and stressor (i.e. lower pH on consumers). We use the natural ecological complexity of a CO2 vent (i.e. a seagrass system) to assess the potential validity of conceptual models developed from laboratory and mesocosm research. Our observations suggest that the stressor-effect of CO2 enrichment combined with its resource-effect drives simplified food web structure of lower trophic diversity and shorter length. The transfer of CO2 enrichment from plants to herbivores through consumption (apparent resource-effect) was not compensated by predation, becaus…

Settore BIO/07 - Ecologia0106 biological sciencesHerbivoreMultidisciplinaryEnvironmental changePrimary producersEcologyScience010604 marine biology & hydrobiologyQROcean acidificationBiology010603 evolutionary biology01 natural sciencesArticleFood webPredationmacrozoobenthos CO2 vents top-down control bottom-up control13. Climate actionMedicineDominance (ecology)14. Life underwaterTrophic levelScientific Reports
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Are control of extracellular acid-base balance and regulation of skeleton genes linked to resistance to ocean acidification in adult sea urchins?

2020

SCOPUS: ar.j

Settore BIO/07 - EcologiaCO2 ventsEnvironmental EngineeringClimate ChangeOceans and SeasMechanical propertiesAcid–base homeostasisEnvironnement et pollutionDICGene expressionExtracellularEnvironmental ChemistryAnimalsSeawaterWaste Management and DisposalGeneSkeletonCO2 ventAcid-Base EquilibriumResistance (ecology)ChemistryOcean acidificationOcean acidificationCarbon DioxideHydrogen-Ion ConcentrationbiomineralizationPollutionSkeleton (computer programming)adult sea urchinsCell biologyTechnologie de l'environnement contrôle de la pollutionqPCRSea UrchinsTraitement des déchetsGene expressionEchinodermsThe Science of the total environment
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Seagrass response to high CO2 in volcanic vents

2012

Settore BIO/07 - EcologiaCymodocea nodosa Posidonia oceanica ocean acidification CO2 vents
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Study of the trophic and functional organization of fish assemblages in submarine shallow CO₂ vents

2014

Naturally acidified marine ecosystems are currently investigated to evaluate the effects of ocean acidification on species, communities and ecological processes. Among these, submarine shallow CO₂ vents represent a sort of natural mesocosms, where at small spatial scales marked gradient of pH are present. The aim of this project is to study the responses of fish assemblages to pH reduction in Mediterranean shallow CO₂ vents by using several descriptors such as community structure, trophic organization, chemical characteristics and composition of carbonic structures. Moreover as in CO₂ vents concentration and bio-availability of several trace elements, also toxic ones, may increase due to di…

Settore BIO/07 - EcologiaFish assemblages Trophic organization Shallow CO2 vents
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Studio della comunità associata allo strato fogliare di Posidonia oceanica in sorgenti sottomarine superficiali di CO2

2011

Settore BIO/07 - Ecologiaepifauna seagrass CO2 vents pH
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Stable isotope signatures of selected benthos at natural carbon dioxide vents: preliminary results on macrophytes

2013

Settore BIO/07 - Ecologiafood webs CO2 vents pH ocean acidification
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