We measured horizontal and vertical gradients of light (rPPFD) along four first-order branches of a Pinus densiflora Sieb. & Zucc. crown, and compared variations in specific leaf area (SLA), needle nitrogen concentration (N), chlorophyll concentration (Chl) and photosynthetic capacity (i.e., maximum rate of carboxylation (V cmax )) along the two axes. The horizontal gradient of rPPFD along first-order branches was similar in magnitude to the vertical gradient of rPPFD from the upper to the

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... crown. None of the measured parameters (i.e., SLA, N, Chl and V cmax ) were strictly proportional to rPPFD, although they were more or less correlated with light when data obtained for all of the crown were pooled ( r 2 = 0.31-0.80). The slope of rPPFD against N on an area basis (N area ) for a branch in the middle of the crown orientated northward was significantly greater than the slope for a similar branch orientated southward. Horizontal variations were unrelated to age effects because measurements were all on 1-yearold needles. We conclude that factors other than light (i.e., orientation) may influence N allocation within branches. There was considerably less variation in the relationship of V cmax to N area (r 2 = 0.58) than in the relationship of V cmax to rPPFD (r 2 = 0.41). Fractional N distribution among components of the photosynthetic machinery was constant within the crown. Together with the relationships between rPPFD and N on a mass basis (r 2 = 0.80) and SLA and V cmax (r 2 = 0.60), these findings suggest that most light acclimation in P. densiflora occurs through changes in needle morphology (e.g., SLA) during development. Keywords: maximum rate of carboxylation, maximum rate of electron transport, nitrogen partitioning, rate of light-saturated photosynthesis, specific leaf area.