Sodium nitrite (NaNO2) was fed to male and female rats before and during breeding, to females only during gestation and lactation, and to their offspring after weaning (day 21 after birth) through day 90, at levels of 0, 0.0125, 0.025 or 0.05% (w/w) of the diet. Dams in a fifth group (positive controls) were given 4 mg/kg ip of the anti-mitotic/embryotoxic drug 5-azacytidine on day 16 of gestation. All offspring were reared by their natural dams and were evaluated blind with respect to treatment in a battery of standardized behavioural tests between 3 and 90 days of age. NaNO2 produced no significant reductions in parental body weight or food consumption, though it significantly increased offspring mortality and decreased weight gain at the two highest doses during the preweaning period. Functionally, NaNO2 delayed swimming development and decreased open-field activity. The open-field effect was not linearly dose dependent. In rats killed on day 90 after birth, NaNO2 produced no effects on brain or body weights. 5-Azacytidine produced evidence of substantially greater developmental toxicity than did NaNO2. NaNO2 produced a moderate degree of developmental toxicity, but no evidence was found to suggest that the central nervous system was the target organ for the toxic effects. The inclusion of tests of functional development added useful confirmatory evidence to the overall picture of NaNO2 toxicity.