We investigated the physiological basis for tolerance of limiting P supply and for enhanced growth with simultaneous addition of N and P in Aspalathus linearis (Burm. f.) R. Dahlgren. It was hypothesised that increasing N supply would stimulate P acquisition mechanisms and enhance plant growth with high P supply. In sand, plants received 100μM, 300μM, 500μM and 700µM N at a low P level of 10µM and a high P level of 100µM. In solution, plants received 200μM and 500µM N at a low P level of 5µM and a high P level of 15µM. Cluster roots formed only in plants with low P supply. Roots showed greater citrate and malate production and phosphatase activity at 5µM P than at 15µM P. At 10µM P, greater N supply enhanced cluster root formation to 60% of root biomass, and increased the phosphatase activity of noncluster roots and succinate release by both root types. At a high P supply of 15µM, greater N supply stimulated phosphatase activity of roots by 50%, increasing P uptake and plant growth. With increased resource partitioning towards P acquisition due to greater P demand, A. linearis is tolerant of low P supply and highly responsive to combined addition of N and P.