Novel Simultaneous Determination of Calcium and Magnesium Based on Flow Injection Gradient Titration

A novel approach based on flow injection gradient titration is proposed for the simultaneous spectrophotometric determination of Ca and Mg based on parameters of a single signal. Two reagents, calmagite and EDTA, are used to perform the determinations. Calmagite is introduced into a sample to form complexes with the analytes and the solutions are introduced into the holding coil of a sequential injection system in the sequence: carrier, air, sample, EDTA, and sample. In the system, EDTA replaces calmagite to form more stable complexes in turn with Ca and Mg. Next, the flow is reversed and the mixture is directed to the detector where the signal is measured at 680?nm. The signal consists of two parts: a short plateau (the signal for the sum of absorbance of complexes of Ca and Mg with calmagite) and a peak (the signal corresponding to titration of both complexes using EDTA). The absorbance values measured at the plateau and appropriately measured peak width were applied to determine analytes using two-component calibration. The method was verified for the determination of analytes in synthetic samples and in a certified reference material of surface water. Using the developed method, Mg and Ca were determined within the concentration ranges of 0.5–5.0 and 1.0–10.0?mg?L^?1, with precision better than 2.2 and 4.2% (relative standard deviation) and accuracy of 7.0 and 6.8% (relative error). The detection limits were 0.1 and 0.3?mg?L^?1 for Mg and Ca, respectively. The method was applied to analysis of mineral water samples.