Ikaite is more soluble compared to the three anhydrous phases under normal atmospheric pressure (Bischoff et al., 1993). The precipitation of ikaite occurs only when the ion activity product (IAP) of Ca2 + and CO32 − in the solution exceeds the solubility product of ikaite (Ksp, ikaite). The activities of Ca2 + and CO32 − can be derived from their concentrations and activity coefficients. The values of the activity coefficient depend on solution
ionic strength and temperature. In seawater at salinity 35 and temperature 25 °C, for example, the activity coefficients γCa2 + = 0.203 and γCO32 − = 0.039 ( Millero and Pierrot, 1998) are much smaller than 1. In normal seawater at a temperature above
0 °C, seawater is undersaturated with respect to ikaite ( Bischoff et al., 1993). The precipitation of SGI-1776 chemical structure ikaite from seawater requires a higher concentration of Ca2 + and/or CO32 −, such as can be achieved in sea ice brine. Given the consideration that brine salinity can easily be over 200 at a corresponding temperature as low as − 40 °C ( Eicken, 2003), this extreme environment would greatly affect the chemical environment in brine with regard to calcium concentrations and dissolved selleck products inorganic carbon (DIC). Depending on the physico-chemical environments as well as biological effect (respiration and photosynthesis), brine pH can vary from less than 8 to up to 10 ( Gleitz et al., 1995 and Papadimitriou et al., 2007). Due to the inhibiting role of PO4 in the formation of anhydrous calcium click here carbonate polymorphs ( Burton and Walter, 1990 and Reddy, 1977), it is assumed that elevated PO4 concentrations play a crucial role in ikaite formation ( Buchardt et al., 1997 and Dieckmann et al., 2010). However, this has never been tested under conditions representative
for natural sea ice. Despite of the apparent significance of calcium carbonate precipitation in sea ice, little is as yet known about the impact of physico-chemical processes on ikaite precipitation in sea ice. Papadimitriou et al. (2013) studied the solubility of ikaite in seawater-derived brines. In their study, the Ksp, ikaite was measured in temperature–salinity coupled conditions, and based on simple modeling it was concluded that the precipitation of ikaite in sea ice possibly only occurs when brine pCO2 is reduced. However, as the conditions leading to calcium carbonate precipitation in brine are normally coupled, a variation in sea ice temperature will change the brine salinity and also the chemical environment. It has therefore not been possible to distinguish/identify the dominant process that controls calcium carbonate precipitation under conditions representative for natural sea ice.
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