The ability of the perforant path/dentate granule cell synapse of the hippocampal formation to establish and maintain enhanced levels of synaptic transmission in response to tetanization (longterm potentiation, LTP) was investigated in freely moving rats at 15, 30, and 90 days of age. Measures of 1) the slope of the population excitatory postsynaptic potential (EPSP), and 2) the population spike amplitude (PSA) obtained before, and at several times following tetanization, were used to evaluate the magnitude and duration of LTP as a function of age. Significant enhancement of both EPSP slope and PSA measures was obtained from animals of all three ages in response to perforant path tetanization. The initial degree of enhancement was essentially the same across the age groups, ranging from +27% to +38% of pretetanization levels for EPSP slope measures and +60% to +75% of pretetanization levels for PSA measures, obtained 15 min after tetanization. The duration of this enhancement obtained from animals of the preweaning group was significantly longer than that obtained from either 30-or 90-day-old animals. Enhanced measures of both EPSP slope and PSA decayed to baseline levels in these older animals 18 to 24 h after tetanization, while animals tetanized at 15 days of age maintained potentiated levels of both measures for a period of 5 days following tetanization. Tetanization of 15-day-old animals resulted in a significant reduction in the latency to EPSP onset without affecting the time-based relationships among the other measured parameters, which included latency of the population spike onset, population spike minimum, and population spike offset. Tetanization had no effect on the latency measure of any of these parameters in either of the two older age groups. The primarily postnatal development of the dentate granule cell population suggests that both functionally immature GABAergic modulation of granule cell activity and the differential development of components of the N-methyl-Daspartate receptor complex may be involved in the age-related differences in the induction and expression of the LTP phenomenon. This study represents the first developmental characterization of LTP in the perforant path/dentate granule cell synapse in freely moving rats during eaTly development. The results indicate that LTP can be reliably established and maintained in behaving rats as young as 15 days of age. Whereas the degree of potentiation at this age is equivalent to that obtained from juveniles and young adults, the duration of the effect significantly outlasts that obtained from older animals in which development of the dentate gyrus is more functionally mature.