Search results for "Acidification"

showing 10 items of 173 documents

A review of transgenerational effects of ocean acidification on marine bivalves and their implications for sclerochronology

2020

Abstract Ocean acidification can negatively impact marine bivalves, especially their shell mineralization processes. Consequently, whether marine bivalves can rapidly acclimate and eventually adapt in an acidifying ocean is now increasingly receiving considerable attention. Projecting the fate of this vulnerable taxonomic group is also pivotal for the science of sclerochronology – the study which seeks to deduce records of past environmental changes and organismal life-history traits from various geochemical properties of periodically layered hard tissues (bivalve shells, corals, fish otoliths, etc.). In this review, we provide a concise overview of the long-term and transgenerational respo…

0106 biological sciencesPhenotypic plasticity010504 meteorology & atmospheric sciencesEcology010604 marine biology & hydrobiologyClimate changeOcean acidificationAquatic ScienceBiologyOceanography01 natural sciencesAcclimatizationIsotopes of oxygenTransgenerational epigeneticsIsotopes of carbonSclerochronology0105 earth and related environmental sciencesEstuarine, Coastal and Shelf Science
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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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Distinct lytic vacuolar compartments are embedded inside the protein storage vacuole of dry and germinating Arabidopsis thaliana seeds.

2011

International audience; Plant cell vacuoles are diverse and dynamic structures. In particular, during seed germination, the protein storage vacuoles are rapidly replaced by a central lytic vacuole enabling rapid elongation of embryo cells. In this study, we investigate the dynamic remodeling of vacuolar compartments during Arabidopsis seed germination using immunocytochemistry with antibodies against tonoplast intrinsic protein (TIP) isoforms as well as proteins involved in nutrient mobilization and vacuolar acidification. Our results confirm the existence of a lytic compartment embedded in the protein storage vacuole of dry seeds, decorated by γ-TIP, the vacuolar proton pumping pyrophospha…

0106 biological sciencesPhysiologyProtein storage vacuoleProton-pumping pyrophosphataseArabidopsisPlant ScienceVacuoleUNIQUEMESH: Protein Isoforms01 natural sciencesPYROPHOSPHATASEArabidopsisProtein IsoformsMESH: ArabidopsisH+-ATPASETONOPLAST INTRINSIC PROTEINPLANT-CELLSCation Transport ProteinsIN-VIVOPlant Proteinschemistry.chemical_classification0303 health sciencesMESH: Plant ProteinsGeneral MedicineCell biologyProtein TransportVacuolar acidificationLytic cycleSeedsPREVACUOLAR COMPARTMENTMESH: DesiccationVacuolar Proton-Translocating ATPasesMESH: Protein TransportMESH: Vacuolar Proton-Translocating ATPasesGerminationMESH: Arabidopsis ProteinsMESH: GerminationBiologyAquaporinsMESH: Vacuoles03 medical and health sciencesMESH: AquaporinsMESH: Cation Transport ProteinsStorage protein[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyLytic vacuoleDesiccation030304 developmental biologySeedArabidopsis ProteinsCell Biologybiology.organism_classificationTRANSPORTchemistryMESH: SeedsVacuolesVacuoleMEMBRANEMOBILIZATION010606 plant biology & botany
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Temporal fluctuations in seawater pCO2 may be as important as mean differences when determining physiological sensitivity in natural systems

2015

AbstractMost studies assessing the impacts of ocean acidification (OA) on benthic marine invertebrates have used stable mean pH/pCO2 levels to highlight variation in the physiological sensitivities in a range of taxa. However, many marine environments experience natural fluctuations in carbonate chemistry, and to date little attempt has been made to understand the effect of naturally fluctuating seawater pCO2 (pCO2sw) on the physiological capacity of organisms to maintain acid–base homeostasis. Here, for the first time, we exposed two species of sea urchin with different acid–base tolerances, Paracentrotus lividus and Arbacia lixula, to naturally fluctuating pCO2sw conditions at shallow wat…

0106 biological sciencesSea urchin010504 meteorology & atmospheric sciencesAcid-base balanceEcologyChemistry010604 marine biology & hydrobiologyOcean acidificationVolcanic ventOcean acidificationAquatic ScienceAtmospheric sciencesOceanography01 natural sciencesEcology Evolution Behavior and SystematicpCO2Natural (archaeology)OceanographyAquatic scienceSeawaterNatural variabilitySensitivity (control systems)Natural variabilityEcology Evolution Behavior and Systematics0105 earth and related environmental sciences
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The impact of ocean acidification and warming on the skeletal mechanical properties of the sea urchin Paracentrotus lividus from laboratory and field…

2015

AbstractIncreased atmospheric CO2 concentration is leading to changes in the carbonate chemistry and the temperature of the ocean. The impact of these processes on marine organisms will depend on their ability to cope with those changes, particularly the maintenance of calcium carbonate structures. Both a laboratory experiment (long-term exposure to decreased pH and increased temperature) and collections of individuals from natural environments characterized by low pH levels (individuals from intertidal pools and around a CO2 seep) were here coupled to comprehensively study the impact of near-future conditions of pH and temperature on the mechanical properties of the skeleton of the euechin…

0106 biological sciencesSea urchinIntertidal zone010501 environmental sciencesTest (biology)Aquatic ScienceOceanography01 natural sciencesParacentrotus lividuschemistry.chemical_compoundbiology.animalAquatic scienceCO2 seepSea urchinEcology Evolution Behavior and SystematicsSkeleton0105 earth and related environmental sciencesbiologyEcology010604 marine biology & hydrobiologyLong-term exposureOcean acidificationOcean acidificationOcean acidification sea urchin Paracentrotus lividus mechanical properties nanoindentation skeleton CO2 vent intertidal pools long-term exposurebiology.organism_classificationEcology Evolution Behavior and SystematicOceanographychemistryCarbonateSeawaterIntertidal poolMechanical propertieParacentrotus lividu
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Volcanic CO2 seep geochemistry and use in understanding ocean acidification

2020

AbstractOcean acidification is one of the most dramatic effects of the massive atmospheric release of anthropogenic carbon dioxide (CO2) that has occurred since the Industrial Revolution, although its effects on marine ecosystems are not well understood. Submarine volcanic hydrothermal fields have geochemical conditions that provide opportunities to characterise the effects of elevated levels of seawater CO2 on marine life in the field. Here, we review the geochemical aspects of shallow marine CO2-rich seeps worldwide, focusing on both gas composition and water chemistry. We then describe the geochemical effects of volcanic CO2 seepage on the overlying seawater column. We also present new g…

0106 biological sciencesSettore BIO/07 - Ecologia010504 meteorology & atmospheric sciencesGeochemistryMarine life01 natural scienceschemistry.chemical_compoundAlgaeEnvironmental ChemistrySubmarine hydrothermalismMarine ecosystem0105 earth and related environmental sciencesEarth-Surface ProcessesWater Science and TechnologyCalcifying speciesCarbon dioxide in Earth's atmospherebiology010604 marine biology & hydrobiologyNatural analoguesCoralline algaeOcean acidificationbiology.organism_classificationEcosystem effectsSettore GEO/08 - Geochimica E VulcanologiachemistryCarbon dioxideEnvironmental scienceSeawater
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Seaweed fails to prevent ocean acidification impact on foraminifera along a shallow-water CO2 gradient

2014

Ocean acidification causes biodiversity loss, alters ecosystems, and may impact food security, as shells of small organisms dissolve easily in corrosive waters. There is a suggestion that photosynthetic organisms could mitigate ocean acidification on a local scale, through seagrass protection or seaweed cultivation, as net ecosystem organic production raises the saturation state of calcium carbonate making seawater less corrosive. Here, we used a natural gradient in calcium carbonate saturation, caused by shallow-water CO2 seeps in the Mediterranean Sea, to assess whether seaweed that is resistant to acidification (Padina pavonica) could prevent adverse effects of acidification on epiphytic…

0106 biological sciencesSettore BIO/07 - Ecologia010504 meteorology & atmospheric sciencesPadina pavonica01 natural sciencesForaminiferaBlue carbonchemistry.chemical_compoundEcosystem14. Life underwaterEcology Evolution Behavior and SystematicsOriginal Research0105 earth and related environmental sciencesNature and Landscape ConservationBlue carbonbiologyEcologyEcologyShallow-water CO<inf>2</inf> seep010604 marine biology & hydrobiologyOcean acidificationBenthic foraminiferaCoastal communitieshallow-water CO2 seepsOcean acidification15. Life on landbiology.organism_classificationcoastal communitiesEcology Evolution Behavior and SystematicSeagrassCalcium carbonatechemistry13. Climate actionCalcareous
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Geochemical survey of Levante Bay, Vulcano Island (Italy), a natural laboratory for the study of ocean acidification

2013

Abstract Shallow submarine gas vents in Levante Bay, Vulcano Island (Italy), emit around 3.6t CO2 per day providing a natural laboratory for the study of biogeochemical processes related to seabed CO2 leaks and ocean acidification. The main physico-chemical parameters (T, pH and Eh) were measured at more than 70 stations with 40 seawater samples were collected for chemical analyses. The main gas vent area had high concentrations of dissolved hydrothermal gases, low pH and negative redox values all of which returned to normal seawater values at distances of about 400 m from the main vents. Much of the bay around the vents is corrosive to calcium carbonate; the north shore has a gradient in s…

0106 biological sciencesSettore BIO/07 - EcologiaBiogeochemical cycle010504 meteorology & atmospheric sciencesCarbonatesAquatic ScienceOceanography01 natural sciencesCalcium CarbonateMarine geochemistrychemistry.chemical_compoundCarbon capture and storageSeawater14. Life underwaterSeabed0105 earth and related environmental sciences010604 marine biology & hydrobiologyCarbonate saturation stateOcean acidificationOcean acidificationCarbon DioxidePollutionSettore GEO/08 - Geochimica E VulcanologiaVolcanic ventsOceanographyCalcium carbonatechemistryBaysItaly13. Climate actionCarbon dioxideCarbonateSeawaterBayGeologyWater Pollutants ChemicalEnvironmental MonitoringMarine Pollution Bulletin
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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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Responses of marine benthic microalgae to elevated CO2

2011

Increasing anthropogenic CO emissions to the atmosphere are causing a rise in pCO concentrations in the ocean surface and lowering pH. To predict the effects of these changes, we need to improve our understanding of the responses of marine primary producers since these drive biogeochemical cycles and profoundly affect the structure and function of benthic habitats. The effects of increasing CO levels on the colonisation of artificial substrata by microalgal assemblages (periphyton) were examined across a CO gradient off the volcanic island of Vulcano (NE Sicily). We show that periphyton communities altered significantly as CO concentrations increased. CO enrichment caused significant increa…

0106 biological sciencesSettore BIO/07 - EcologiaChlorophyll aBiogeochemical cycleEcologybiologyPrimary producersEcology010604 marine biology & hydrobiologyAquatic Scienceocean acidification climate change co2 vent mediterraneanbiology.organism_classification010603 evolutionary biology01 natural sciencesColonisationchemistry.chemical_compoundDiatomchemistry13. Climate actionAbundance (ecology)Benthic zone14. Life underwaterPeriphytonEcology Evolution Behavior and SystematicsMARINE BIOLOGY
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