Leaf biomass changes with stand development in hinoki cypress (Chamaecyparis obtusa [Sieb. et Zucc.] Endl.)

We monitored a permanent plot of 3-year-old Chamaecyparis obtusa seedlings for 11 years after planting. As the stem cross-sectional area at the crown base can be regarded as a good predictor of leaf mass according to the pipe model theory, we measured this parameter to determine temporal trends in leaf biomass. The mean values showed asymptotic growth, maintaining a near-constant level after a stand age of 9 years. Peak values were found at 9 years, followed by a slight decrease because of a continuous reduction in stand density. This temporal trend suggests that the leaf biomass per unit land area attains a peak at an age of 9 years. As the stand density changes with stand age, the relationship between stand stem cross-sectional area at the crown base and stand density showed an optimum curve in which the optimum density was around 9200 ha−1. We propose hypothetical trends in primary productivity and biomass density with stand age, based on the results of measurements of stem cross-sectional area at the crown base and stand density under the assumption of the 3/2 power law of self-thinning.