Associations between tooth loss and prognostic biomarkers and the risk for cardiovascular events in patients with stable coronary heart disease

Abstract. Four strains of the coccolithophore E. huxleyi (RCC1212, RCC1216, RCC1238, RCC1256) were grown in dilute batch culture at four CO 2 levels ranging from ∼200 µatm to ∼1200 µatm. Growth rate, particulate organic carbon content, and particulate inorganic carbon content were measured, and organic and inorganic carbon production calculated. The four strains did not show a uniform response to carbonate chemistry changes in any of the analysed parameters and none of the four strains displayed a response pattern previously described for this species. We conclude that the sensitivity of different strains of E. huxleyi to acidification differs substantially and that this likely has a genetic basis. We propose that this can explain apparently contradictory results reported in the literature.

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Strain-specific responses of <i>Emiliania huxleyi</i> to changing seawater carbonate chemistry

Langer¹,

Nehrke²,

Probert³

et al. 2009

Preprint

102

146

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Abstract. Four strains of the coccolithophore Emiliania huxleyi (RCC1212, RCC1216, RCC1238, RCC1256) were grown in dilute batch culture at four CO2 levels ranging from ~200 μatm to ~1200 μatm. Growth rate, particulate organic carbon content, and particulate inorganic carbon content were measured, and organic and inorganic carbon production calculated. The four strains did not show a uniform response to carbonate chemistry changes in any of the analysed parameters and none of the four strains displayed a response pattern previously described for this species. We conclude that the sensitivity of different strains of E. huxleyi to acidification differs substantially and that this likely has a genetic basis. We propose that this can explain apparently contradictory results reported in the literature.

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Modelling of the ion-exchange properties and indirect determination of the interstitial water composition of an argillaceous rock. Application to the Callovo-Oxfordian low-water-content formation

Motellier

Gorgeon

et al. 2003

Applied Geochemistry

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Screen-printed electrografted electrode for trace uranium analysis

Betelu

Vautrin-Ul

et al. 2009

Talanta

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Study of uranium(VI) and radium(II) sorption at trace level on kaolinite using a multisite ion exchange model

Reinoso-Maset

2016

Journal of Environmental Radioactivity

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Uranium and the long-lived decay product radium-226 are abundantly present in mine wastes produced during uranium extraction activities. In the case of release to the surrounding environment, these radionuclides are at trace level compared to groundwater solutes, and the presence, content and properties of clay minerals in the host environment influence the extent of radionuclide sorption and, in turn, migration. Since clays are known to have the distinctive property of retaining ions, the aim of this work was to study the sorption of trace U(VI) and Ra(II) on a common phyllosilicate mineral, kaolinite, in the presence of excess K, a common groundwater cation, in order to obtain a thermodynamic database that describes the ion exchange equilibria occurring at the mineral-solution interface. Following a detailed experimental protocol using chemical and radiochemical analytical techniques, batch experiments over a wide pH range (from 2 to 11) and fixed concentration (ca. 10(-9) M), and additional adsorption isotherms at two different solution pH (6.2 and 10.4) over a concentration range (10(-10) to 10(-4) M) were carried out to measure the distribution coefficient (Kd) of U(VI) and Ra(II) sorption on kaolinite. The experimental sorption data was processed according to a general multisite sorbent/multispecies sorbate ion exchange model, which allowed deducing the charge of adsorbed species and the stoichiometry of the associated adsorption equilibria on kaolinite's surface sites. Aqueous speciation calculations predicted Ra(II) as Ra(2+) over the working pH range, and its adsorption curves and isotherms were explained using three sorption sites. Adsorption of U(VI) occurred on four sorption sites and was governed by its solution speciation, with positively charged hydroxylated (UO2(2+) and UO2(OH)(+)) and silicate (UO2(H3SiO4)(+)) species being adsorbed between pH 2 and 6, whereas its negatively charged forms (UO2(OH)3(-) and UO2(OH)4(2-)) dominated U(VI) sorption at pH > 7. Nonlinear fitting of the experimental data using the ion exchange model provided the associated equilibrium constants as corrected selectivity coefficients.

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Methodology to obtain exchange properties of the calcite surface—Application to major and trace elements: Ca(II), , and Zn(II)

Tertre

Beaucaire

Juery

et al. 2010

Journal of Colloid and Interface Science

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Palladium complexes in concentrated nitrate and acid solutions

Frias

Pitsch

et al. 1995

Talanta

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Calcium sorption on hydroxyapatite in aqueous solutions: reversible and nonreversible components

Badillo-Almaraz

2003

Journal of Colloid and Interface Science

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J. Ly

Strain-specific responses of <i>Emiliania huxleyi</i> to changing seawater carbonate chemistry

Strain-specific responses of <i>Emiliania huxleyi</i> to changing seawater carbonate chemistry

Modelling of the ion-exchange properties and indirect determination of the interstitial water composition of an argillaceous rock. Application to the Callovo-Oxfordian low-water-content formation

Screen-printed electrografted electrode for trace uranium analysis

Study of uranium(VI) and radium(II) sorption at trace level on kaolinite using a multisite ion exchange model

Methodology to obtain exchange properties of the calcite surface—Application to major and trace elements: Ca(II), , and Zn(II)

Palladium complexes in concentrated nitrate and acid solutions

Calcium sorption on hydroxyapatite in aqueous solutions: reversible and nonreversible components

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J. Ly

Strain-specific responses of &lt;i&gt;Emiliania huxleyi&lt;/i&gt; to changing seawater carbonate chemistry

Strain-specific responses of &lt;i&gt;Emiliania huxleyi&lt;/i&gt; to changing seawater carbonate chemistry

Modelling of the ion-exchange properties and indirect determination of the interstitial water composition of an argillaceous rock. Application to the Callovo-Oxfordian low-water-content formation

Screen-printed electrografted electrode for trace uranium analysis

Study of uranium(VI) and radium(II) sorption at trace level on kaolinite using a multisite ion exchange model

Methodology to obtain exchange properties of the calcite surface—Application to major and trace elements: Ca(II), , and Zn(II)

Palladium complexes in concentrated nitrate and acid solutions

Calcium sorption on hydroxyapatite in aqueous solutions: reversible and nonreversible components

Contact Info

Product

Resources

About

Strain-specific responses of <i>Emiliania huxleyi</i> to changing seawater carbonate chemistry

Strain-specific responses of <i>Emiliania huxleyi</i> to changing seawater carbonate chemistry