I. Leaf growth dynamic and leaf chemical properties have important implications of plant acclimation. This study was aimed to investigate the major phenological events of leaf growth and shedding and leaf chemical properties at two sites with contrasting light conditions in a natural hardwood forest of Feng Huang mountain, Chitou. II. Sixteen tree species were selected at two sites: understory (11 species) and ridge species (10 species), with 5 species common to two sites. From December of 2007 till April of 2008, the leaf numbers were censused at least once a month on the marked twigs and the bud types and delayed greening of young leaves were noted. The data of leaf growth and shedding were then used to calculate leaf life span. In addition, trees without any marked twigs (11 understory species and 10 ridge species, with 5 species found in both sites) were sampled to analyze leaf nitrogen, phosphorus, total phenols and the chlorophyll meter value in different developmental stages of leaves (L25: ≦25% of the fully expanded size and unfolded; LFE: Fully expanded with tender texture; LM: Fully expanded with tougher texture). III. Most medium and large trees have scaled buds, and most small trees and shrubs have hypsophyllary buds. The budbreak occurred from March to May for most species, with two exceptions in Turpinia formosana and Eurya loquaiana. IV. The buds on small trees of Michelia compressa var. formosana and Castanopsis cuspidata var. carlesii in understory opened 1-2 months earlier than the mature trees in ridge. The buds of Eurya loquaiana in understory also opened earlier than the individual in ridge. V. Based on the categories of leaf emergence, there are 4 species in succeeding type, 7 species in flush type, and 5 species in intermediate type. Most species in flush type have scaled buds. In addition, the leaf emergence types cannot differentiate between understory and ridge sites. VI. The leaf fall of most ridge species peaked at the similar time with canopy species; but most understory trees peaked at later time with greater variation than canopy species. Based on two calculations of leaf life span, leaf life span was longer for understory species than those growing in ridge. VII. The foliar concentrations of nitrogen, phosphorus and total phenols mostly followed the order of L25＞LFE＞LM, while the leaf chlorophyll meter value LM＞LFE＞L25. Trees of delayed greening contain significantly lower foliar nitrogen, phosphorus and chlorophyll meter value, but higher total phenols than those of normal greening. It suggests that trees of delayed greening invest relatively more in defense and less in growth. This trade-off between defense and growth became less evident in mature leaves. VIII. Indeed, we found certain differences between different light regimes in leaf growth dynamic (budbreak, leaf fall and leaf life span) and foliar phosphorus. Because the factors influencing phenological events and leaf chemical properties are numerous and complicated, more long-term studies on leaf dynamics and leaf traits are required to understand the ecological and evolutionary characteristics of major tree species in the natural forests of Taiwan.