Evaluating CO 2 calculation error from organic alkalinity and pH measurement error in low ionic strength freshwaters

Dissolved CO 2 concentration calculated from historical or in situ alkalinity and pH measurements according to carbonate equilibria is widely applied in freshwater CO 2 studies yet there is long concern on systematic errors associated with the calculation. Correction of the CO 2 calculation errors is however hampered by a lack of correct understandings of error sources and magnitudes. Here through reviewing literature quantification of the effect, we point out pH measured by commercial glass electrodes is not reliable and biased unidirectionally toward lower values by −0.14 ± 0.20 on average. This effect, together with high organic alkalinity, is responsible for unreliable CO 2 calculations in low ionic strength freshwaters. Relying on a series of interdependencies between freshwater properties, the analysis further proposes a roadmap for correction of the errors. The method, when testing against a dataset of direct CO 2 measurements, is proved effective at reducing CO 2 calculation errors. The analysis represents a significant progress in freshwater CO 2 studies based on carbonate equilibria and future applications of the method are advised to apply the corrections to freshwaters of <1000  μ eq L −1 in total alkalinity.