Warren W. Wood 1973 <p>Specific-ion electrodes were used to simultaneously determine&nbsp;the activity changes of calcium, hydrogen, sodium, fluoride, and&nbsp;divalent ions when 50 g of a natural, untreated material containing&nbsp;calcium-rich mixed-layer illite-montmorillonite clay, quartz sand, and&nbsp;calcium carbonate was added to 250 ml of natural Canadian River&nbsp;water containing 220 mg/1 Na. Calcium and magnesium were displaced&nbsp;from the clay by the sodium; the exchanged and dissolved noncarbonate&nbsp;calcium precipitated as calcium carbonate, and the magnesium&nbsp;remained in solution. Fluoride entered into both a rapid reaction and a&nbsp;long-term reaction, indicating solution from the material. The pH&nbsp;decreased rapidly. The reactions for all observed ions, other than&nbsp;fluoride, were faster than the response time of their respective electrodes&nbsp;and were complete in less than one minute. Rapid solution of&nbsp;material containing calcium, magnesium, sodium, and fluoride was also&nbsp;observed when a duplicate sample of the earth material was added to&nbsp;distilled water; pH also changed rapidly in this mixture. These results&nbsp;suggest that many important water-rock reactions can be considered&nbsp;nearly instantaneous for purposes of digital modeling of the geochemical&nbsp;changes during artificial recharge.</p> application/pdf en U.S. Geological Survey Rapid reaction rates between water and a calcareous clay as observed by specific-ion electrodes article