Soil organic P (Po) mineralization is an important process in P cycling. No accurate method for its quantification is available because any mineralized inorganic P (Pi) may be rapidly sorbed onto the soil solid phase where it cannot be separated from already present Pi. A method for measuring soil Po mineralization is explored using isotopic dilution techniques under conditions of constant soil respiration rates. First, the specific activity (SA) as affected by physicochemical processes was extrapolated from an isotopic exchange kinetics batch experiment. Second, the SA was assessed during incubation after labeling soil with 33PO4. Lower SA measured during incubation than extrapolated from the batch experiment was attributed to the release of nonlabeled Pi due to mineralization of nonlabeled Po. In order to separate biological from biochemical mineralization processes, one set of samples was -irradiated to stop the microbial activity while maintaining phosphatase activity. The -irradiated soil revealed higher mineralization rates than the corresponding nonirradiated soil. This was explained by an increase of the amount of easily mineralizable Po derived from killed microbial cells by -irradiation. Consequently, a gross, but overestimated, biochemical P mineralization can be assessed. In the nonirradiated soil, mineralization not only of nonlabeled, but also of recently synthesized labeled Po resulting from microbial turnover, may occur. Thus, in the nonirradiated soil, after several days a gross, biologically and biochemically mediated mineralization is increasingly underestimated. During the first 7 d, the mineralization rate in the nonirradiated soil was 1.7 mg P kg-1 d-1, which is an amount approximately equivalent to soil solution P in this soil, indicating that soil P mineralization is a significant process in delivering available Pi. Abbreviations: cP, Pi concentration in the soil solution (mg P L-1) obtained at a 1:10 soil/water ratio • E(t), difference between mesE(t) and modE(t): amount of P mineralization at time t • E value, amount of isotopically exchangeable P • mesE(t), isotopically exchangeable P measured in the incubation experiment (mg P kg-1) • mesSA, specific activity of the soil solution (33PO4/31PO4 in Bq µg-1 P) measured in the incubation experiment • modE(t), isotopically exchangeable P extrapolated from the batch experiment (mg P kg-1) • modSA, specific activity of the soil solution (33PO4/31PO4 in Bq µg-1 P) extrapolated from the short-term batch experiment • n, parameter obtained from the batch experiment usually calculated using linear regression between log [r(t)/R] and log (t) • Pi, inorganic soil phosphorus • Pmin, organic phosphorus mineralization • Po, organic soil phosphorus • r(t)/R, radioactivity remaining in the soil solution at the corresponding time (t) in relation to the radioactivity added at time zero • SA, specific activity of the soil solution (33PO4/31PO4 in Bq µg-1 P) • SA(t), difference between mesSA and modSA at time t