Abstract
Bulk compositional, mineralogical and physical properties of weathered basaltic ash soil (“Andisol”) derived mainly from Mt.Fuji were studied. Mineralogical studies revealed that the dominant primary material and weathering products are volcanic glass, allophane and halloysite and the sequence of weathering is volcanic glass→allophane→10Å halloysite→7Å halloysite. X-ray fluorescence analysis indicates that the relative elemental mobilities during the weathering is Na, Ca>K>Mg>P>Si>Ti, Fe>Al>Mn. The trends of soilwater chemistry (H4SiO4 concentration) with depth were calculated based on dissolution -precipitation kinetics-fluid flow coupling model. In order to calculate the trends, the data on present-day annual rainfall, solubility of basalt glass, porosity and specific weight of soil, deposition rate of volcanic ash and grain size of volcanic glass were used. The calculated results were compared with analytical trends of soilwater chemistry. From this comparison the dissolution rate constant of basalt glass was estimated to be 10-9.4 - 10-9.2 (mole Si m-2 s-1). This value is consistent with previous experimental dissolution rate constant of basalt glass reported in the literature.
