Auxin-induced secretion of an acid phosphatase (EC 3.1.3.2) leads to the hypothesis that this enzyme may be involved in plant cell elongation growth (W. Pfeiffer. 1996. Physiol. Plant. 98: 773-779). Elongation growth can be characterized by the effects of pH, phosphate and citrate, and the correlation with a particular region of the root: the elongation region. Therefore, it was investigated whether these parameters may reveal further correlations between acid phosphatase and elongation growth. The following results were obtained. (1) An extracellular acid phosphatase with high substrate affinity was characterized (Michaelis-Menten constant, 0.03 mM for 4-methylumbelliferyl phosphate; pH optimum, 3.0). The pH dependence of the enzyme was similar to that of elongation growth of coleoptile segments after pretreatment with phosphate (U. Kutschera and P. Schopfer. 1985. Planta 163: 483-493). (2) Phosphate inhibited both the acid phosphatase and coleoptile growth. Phosphate was a competitive inhibitor of the acid phosphatase (inhibitor constant, 2.5 mM). (3) Citrate inhibited coleoptile growth and the acid phosphatase in a similar way (inhibitor constant, 21 mM). (4) The elongation region of maize roots contained more apoplastic acid phosphatase than adjacent regions (170%). The pH dependence of the enzyme suggests that the low pH reported for the elongation region would result in an additional increase of the enzymatic activity (pH optimum at 3.0).