Abstract
Abstract. Marine organisms precipitate 0.5–2.0 Gt of carbon as calcium carbonate (CaCO3) every year with a profound impact on global biogeochemical element cycles. Biotic calcification relies on calcium ions (Ca2+) and usually on bicarbonate ions (HCO3−) as CaCO3 substrates and can be inhibited by high proton (H+) concentrations. The seawater concentration of carbonate ions (CO32−) and the CO32−-dependent CaCO3 saturation state (ΩCaCO3) seem to be irrelevant in this production process. Nevertheless, calcification rates and the success of calcifying organisms in the oceans often correlate surprisingly well with these two carbonate system parameters. This study addresses this dilemma through the rearrangement of carbonate system equations which revealed an important proportionality between [CO32−] or ΩCaCO3and the ratio of [HCO3−] to [H+]. Due to this proportionality, calcification rates will always correlate as well with [HCO3−] / [H+] as they do with [CO32−] or ΩCaCO3 when temperature, salinity, and pressure are constant. Hence, [CO32−] and ΩCaCO3 may simply be very good proxies for the control by [HCO3−] / [H+], where [HCO3−] serves as the inorganic carbon substrate and [H+] functions as a calcification inhibitor. If the "substrate–inhibitor ratio" (i.e., [HCO3−] / [H+]) rather than [CO32−] or ΩCaCO3 controls biotic CaCO3 formation, then some of the most common paradigms in ocean acidification research need to be reviewed. For example, the absence of a latitudinal gradient in [HCO3−] / [H+] in contrast to [CO32−] and ΩCaCO3 could modify the common assumption that high latitudes are affected most severely by ocean acidification.
Highlights
Calcium carbonate (CaCO3) is used by a large variety of marine organisms as structural material for their exo- and endoskeletons
Every correlation between calcification and [CO23] or CaCO3 will be identical to the corresponding correlation with [HCO−3 ] / [H+] when T, S, and P are stable
This study has argued that a substrate–inhibitor ratio like [HCO−3 ] / [H+] could be a useful measure to assess which carbonatechemistry conditions could be favorable for calcification
Summary
Calcium carbonate (CaCO3) is used by a large variety of marine organisms as structural material for their exo- and endoskeletons. Dissolved inorganic carbon (DIC) substrate, which is present in seawater as carbon dioxide (CO2), bicarbonate ion (HCO−3 ), and carbonate ion (CO23−). From a purely chemical point of view, calcium reacts with inorganic carbon as. Precipitation is thermodynamically favored when [Ca2+] and [CO23−] reach or exceed the solubility of CaCO3 in seawater. The stoichiometric solubility product is defined as. K∗sp = Ca2+ saturated CO23− saturated (2). Is a function of temperature, salinity, and pressure (Mucci, 1983; Zeebe and Wolf-Gladrow, 2001). The saturation state of CaCO3 ( CaCO3 ) is calculated with seawater concentrations of Ca2+ and CO23− and K∗sp as CaCO3 =
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