The size and specificity of plaque-forming cell precursors (PFC) in murine fetal liver, neonatal, and adult spleen were studied in an adoptive transfer system. In this system, anti-4-hydroxy-3-iodo-5-nitrophenylacetic acid (anti-NIP) and anti-2,4,6-trinitrobenzene sulfonic acid (anti-TNP) direct PFC are generated from bone marrow-derived (B) cell precursors in fetal liver between 17 and 20 days of gestation and in 6- or 14-day neonatal spleen. PFC generated from fetal liver and neonatal and adult spleen cells are specific in that they lyse either NIP-coupled SRBC or TNP-coupled SRBC but not both. The generation of specific anti-NIP and anti-TNP PFC from precursors in fetal liver is primarily independent of antigenic stimulation. In contrast, the anti-NIP and anti-TNP responses generated from neonatal and adult spleen are antigen dependent. Both high-avidity PFC (detected with SRBC indicators coupled at low hapten density) and low-avidity PFC (detected with SRBC coupled at high hapten density) are generated from fetal liver and neonatal spleen cells; however, the proportion of high-avidity PFC precursors in adult spleen is at least threefold greater than in fetal liver or neonatal spleen. Analysis by velocity sedimentation indicates that most high-avidity PFC precursors are small lymphocytes in fetal liver, medium lymphocytes in 6-day neonatal spleen, and small lymphocytes in 14-day-old and adult spleen. Low-avidity PFC precursors are primarily medium-sized lymphocytes in fetal liver and 6-day neonatal spleen. In 14-day-old and adult spleen almost all high- and low-avidity PFC precursors are small lymphocytes. The results are discussed in terms of relative changes in the pool sizes of these lymphocyte populations.