Growth and physiological responses of Pinus radiata D. Don seedlings to a combination of N supply regimes (low N = 1.78 mol m(-3), high N = 7.14 mol m(-3)) and ammonium:nitrate ratios (80:20, 50:50 and 20:80; molar basis) were assessed in a hydroponic experiment run over the course of 105 days. Highly significant (P < 0.001) increases in seedling diameter, height, leaf area and dry mass occurred at lower ammonium:nitrate ratios and were two to fourfold greater than the non-significant (for diameter) to marginally significant (P < 0.05 for other dimensions) increases in these dimensions that occurred with greater N supply. Increases in N supply resulted in a highly significant (P < 0.001) reduction in biomass partitioning to roots and highly significant (P < 0.001) increases in allocation to foliage. The ammonium:nitrate ratio was not found to significantly change biomass partitioning to either foliage, stems or roots. Ammonium and nitrate uptake was significantly influenced by N supply and N form and conformed to ammonium and nitrate concentrations in nutrient solution. Uptake rates of ammonium were twice those of nitrate at comparable concentrations suggesting that P. radiata is in the lower end of the ratio of uptake of ammonium to nitrate reported for conifers (range from 2 to 20 mol mol(-1)). Despite this, plants growing in high ammonium:nitrate ratios were smaller, exhibited luxurious N consumption and lower N use efficiency. Differences in productivity among treatments were partially explained by greater rates of light-saturated photosynthesis associated with nitrate nutrition.