Abstract
Dense patches of evergreen dwarf bamboo species (1-3 m), such as Sasa senanensis, often prevent forest tree regeneration, and they suppress competing grassland species in Japan. We hypothesized that its evergreen habit contributes to the dominance of S. senanensis through carbon gain during the phenological gaps of spring and late fall under the improved irradiance and moisture conditions in a deciduous forest. We monitored the seasonal patterns of gas exchange in S. senanensis growing in the forest understory and in the open. The timing of greatest carbon gain in shade leaves was during early spring and late fall under a leafless forest canopy compared with that of late spring and early summer for open-grown leaves. Compared to understory S. senanensis, those grown in the open attained high photosynthesis and chlorophyll (Chl) a/b but lower area-based total chlorophyll, specific leaf area, and leaf nitrogen. In understory plants, these leaf characters and lightfleck responses indicated that they retain...
Published Version
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