Distribution of N, Rubisco and photosynthesis in Pinus pinaster and acclimation to light

The light–nitrogen hypothesis suggests canopy photosynthesis is maximized when there is a positive relationship between irradiance received by foliage, its nitrogen content (per unit area N_area), and maximum rate of photosynthesis (A_max). Relationships among relative irradiance and N_area, allocation of nitrogen within the photosynthetic apparatus to Rubisco and chlorophyll, and A_max were examined in Pinus pinaster Ait. needles up to 6 years of age. Measurements were made before bud break in August 1998, and in May 1999 after the first ‘winter’ rains. In August, N_area in P. pinaster needles decreased from 5·1 to 5·7 g m^?2 in sunlit 1‐year‐old needles to 2·3 g m^?2 in shaded 6‐year‐old needles. In May, N_area was 5–40% less but spatial trends were the same. At both sampling dates, A_max was less in old shaded needles compared with young sunlit needles, and was thus consistent with the light–nitrogen hypothesis. Relationships between N_area and A_max were positive at both dates yet varied in strength and form. Allocation of nitrogen within the photosynthetic apparatus was qualitatively consistent with acclimation to light (i.e. Rubisco/Chl decreased with shading), but quantitatively suboptimal with respect to photosynthesis owing to consistent over‐investment in Rubisco. This over‐investment increased with height in the canopy and was greater in May than in August.