Size dependence of leaf area and the mass of component organs during a course of self‐thinning in a hinoki (Chamaecyparis obtusa) seedling population

Abstract

The allometric equation, y = gxh, was applied monthly to the relationships between two different dimensions of tree seedlings of hinoki cypress (Chamaecyparis obtusa) during a course of self‐thinning from April 1990 to March 1991 to detect differences in biomass allocation among individuals. As the h‐value in the allometry of crown length and seedling height was greater than unity for all seasons, crown ratio became greater as seedling height increased. Leaf weight ratio increased with increasing seedling size because the h‐value in the allometry of leaf dry weight and whole seedling dry weight was greater than unity in every month. Therefore, smaller seedlings are disadvantageous to photosynthetic production by leaves. In contrast, the leaf area ratio was constant irrespective of seedling size because the h‐value in the allometry of leaf area and whole seedling dry weight was nearly equal to unity in most seasons. In addition, because the h‐value in the allometry of leaf area and leaf dry weight was less than unity in all seasons, specific leaf area decreased with an increase in leaf dry weight, indicating that smaller seedlings adapt to low light environments by possessing shade leaves. Root weight ratio decreased with increasing seedling size because the h‐value in the allometry of root dry weight and whole seedling dry weight was less than unity in most seasons.