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CO2 perturbation experiments : similarities and differences between dissolved inorganic carbon and total alkalinity manipulations (2009)

Schulz, K. G.

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In: Biogeosciences, Katlenburg-Lindau [u.a.] : Copernicus, 2004, 6(2009), 10, Seite 2145-2153, 1726-4189

In: volume:6

In: year:2009

In: number:10

In: pages:2145-2153

Type of Medium: Online Resource

Pages: graph. Darst

ISSN: 1726-4189

Language: English

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Determination of the rate constants for the carbon dioxide to bicarbonate inter-conversion in pH-buffered seawater systems (2006)

Schulz, Kai G. ; Riebesell, Ulf ; Rost, B. ; [et al.]

Elsevier

In: Marine Chemistry, 100 . pp. 53-65.

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Publication Date: 2019-09-23

Description: Experimental setups to study modes of inorganic carbon acquisition and fixation rates by marine phytoplankton commonly make use of so-called disequilibrium techniques. The chemical or isotopic disequilibrium, either caused by phytoplankton cells taking up inorganic carbon or by a small disturbance of the isotopic equilibrium in the carbonate system, requires to account for the relatively slow chemical interconversion of carbon dioxide (CO2) to bicarbonate (HCO3−) in seawater. Because in such experiments a constant pH is a prerequisite, pH buffers are generally used. However, a possible influence of such buffers on the kinetics of the carbonate system has hitherto not been investigated. Here, a model of the carbonate system in seawater is employed to show how pH buffers are operating. Furthermore, a new approach is presented to determine the rate constants, k+ and k−, for the conversion reaction of CO2 to HCO3− and vice versa, by means of membrane inlet mass spectrometry (MIMS). For the two pH buffers tested (HEPES and BICINE) it is shown that measured rate constants are in good agreement with calculated values for k+ and k− in a pH range of 7 to 8.5 and at temperatures from 10 to 25 °C.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.marchem.2005.11.001

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CO2 perturbation experiments: similarities and differences between dissolved inorganic carbon and total alkalinity manipulations (2009)

Schulz, Kai ; Barcelos e Ramos, Joana ; Zeebe, R. E. ; [et al.]

Copernicus Publications (EGU)

In: Biogeosciences (BG), 6 (10). pp. 2145-2153.

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Publication Date: 2019-09-23

Description: Increasing atmospheric carbon dioxide (CO2) through human activities and invasion of anthropogenic CO2 into the surface ocean alters the seawater carbonate chemistry, increasing CO2 and bicarbonate (HCO3−) at the expense of carbonate ion (CO32−) concentrations. This redistribution in the dissolved inorganic carbon (DIC) pool decreases pH and carbonate saturation state (Ω). Several components of the carbonate system are considered potential key variables influencing for instance calcium carbonate precipitation in marine calcifiers such as coccolithophores, foraminifera, corals, mollusks and echinoderms. Unravelling the sensitivities of marine organisms and ecosystems to CO2 induced ocean acidification (OA) requires well-controlled experimental setups and accurate carbonate system manipulations. Here we describe and analyse the chemical changes involved in the two basic approaches for carbonate chemistry manipulation, i.e. changing DIC at constant total alkalinity (TA) and changing TA at constant DIC. Furthermore, we briefly introduce several methods to experimentally manipulate DIC and TA. Finally, we examine responses obtained with both approaches using published results for the coccolithophore Emiliania huxleyi. We conclude that under most experimental conditions in the context of ocean acidification DIC and TA manipulations yield similar changes in all parameters of the carbonate system, which implies direct comparability of data obtained with the two basic approaches for CO2 perturbation.

Type: Article , PeerReviewed

Format: text

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