Search results for "NORTH-SEA"

showing 3 items of 3 documents

Multi-isotopic and trace element evidence against different formation pathways for oyster microstructures

2021

Geochimica et cosmochimica acta 308, 326-352 (2021). doi:10.1016/j.gca.2021.06.012

BiomineralizationRARE-EARTH-ELEMENTSOysternitrogen isotopes550010504 meteorology & atmospheric sciencesPaleoclimateXRF010502 geochemistry & geophysicsSulfur isotopes01 natural sciencesMineralization (biology)Clumped isotopesMg/Cachemistry.chemical_compoundSclerochronologyddc:550CALCIFICATION RATECRASSOSTREA-GIGASCalcitebiologyStable isotope ratioOysterDistribution coefficientBivalveCalcitetrace elementOxygen isotope ratio cyclePacific oysterSTABLE-ISOTOPEStable isotopeIsotopes of nitrogenChemistryNORTH-SEASEMMECHANICAL CHARACTERISTICSmicrostructureCrassostrea gigas [Portuguese oyster]Ostreidae [oysters]MineralogyGeochemistry and Petrologybiology.animalClumpcd isotopes0105 earth and related environmental sciencesTrace elementARAGONITIC BIVALVE SHELLSbiology.organism_classificationBivalviachemistryTEMPERATURE-DEPENDENCEFORAMINIFERAL CALCITECrassostrea gigasHIGH-RESOLUTION
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Emission of iodine-containing volatiles by selected microalgae species

2014

In this study we present the results of an emission study of different phytoplankton samples in aqueous media treated with elevated ozone levels. Halocarbon measurements show that the samples tested released bromoform and different iodocarbons, including iodomethane, iodochloromethane and diiodomethane. Iodide and iodate levels in the liquid phase were representative of concentrations of surface water in a natural environment. Measurement of volatile iodine (I2) emissions from two diatom samples (Mediopyxis helysia and Porosira glacialis) and the background sample (F/2 medium from filtered natural seawater) showed that the quantity of evolved I2 depends on the ozone concentration in the air…

Atmospheric ScienceOzoneInorganic chemistryIodidechemistry.chemical_elementcoastalIodinegas chromatography/mass spectrometrylcsh:Chemistrychemistry.chemical_compounddiatom culturesmolecular-iodineDiiodomethanenorth-seaIodateatlantic-oceanchemistry.chemical_classificationparticle formationfungiHalocarbonlcsh:QC1-999marine boundary-layerlcsh:QD1-999chemistrygerman bightEnvironmental chemistryphytoplanktonSeawaterBromoformlcsh:Physics
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Stable coexistence of genetically divergent Atlantic cod ecotypes at multiple spatial scales

2018

Abstract Coexistence in the same habitat of closely related yet genetically different populations is a phenomenon that challenges our understanding of local population structure and adaptation. Identifying the underlying mechanisms for such coexistence can yield new insight into adaptive evolution, diversification and the potential for organisms to adapt and persist in response to a changing environment. Recent studies have documented cryptic, sympatric populations of Atlantic cod (Gadus morhua) in coastal areas. We analysed genetic origin of 6,483 individual cod sampled annually over 14 years from 125 locations along the Norwegian Skagerrak coast and document stable coexistence of two gene…

0106 biological sciencesSympatryGENOMIC DIVERGENCECHROMOSOMAL REARRANGEMENTSBiodiversityecotypes010603 evolutionary biology01 natural sciencessympatry/dk/atira/pure/sustainabledevelopmentgoals/life_below_waterLOCAL ADAPTATIONGeneticsGadusPOPULATION-STRUCTURESDG 14 - Life Below Waterdispersaltemporal genetic stabilityGADUS-MORHUA L.MARINE FISHESEcology Evolution Behavior and SystematicsEcotypebiologyEcology010604 marine biology & hydrobiologynatural selectionGROWTH-RATEOriginal Articlesbiology.organism_classificationSTATIONARY ECOTYPESNATURAL-SELECTIONNORTH-SEAHabitatSympatric speciationAtlantic codconnectivityBiological dispersalOriginal ArticleGeneral Agricultural and Biological SciencesAtlantic cod
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