The soil seed bank is an important link in regeneration of the forest ecosystem. It is considered an important potential seed source for the plant communities. The aim of the study is to investigate the composition of the soil seed bank of Nantzuhsienshi forest, a subtropical montane rain forest in Taiwan. We summarized the previous results of the understory and canopy composition, with the aim of understand the relationship between soil seed bank and forest vegetation, and discuss the role of soil seed bank in the forest regeneration. During Feb. 1 to Feb. 3, 2010, the soil samples were collected from 75 quadrats which were set up for monitoring seedling dynamics. For each quadrat, a soil core which diameter was 12 cm and depth was 15 cm was extracted. The soil core was then divided into four parts, namely L1 (litter layer), L2 (depth 0-5 cm), L3 (depth 5-10 cm) and L4 (depth 10-15 cm). Each part of the soil samples was evenly placed in a trap for seed germination. The species and abundance of seedlings were recorded. So far, seventy-six species were germinating. 4,790 seeds were recorded, and the average seed density was 5,650 m-2. Seed highest density was L2 layer, the number of seed was decrease with increase of depth. Most species from the seeds in soil seed bank were shade-intolerant species. Debregeasia orientalis and Tetradium glabrifolium were the most abundant species in the soil seed bank, which is incongruent with the understory and canopy composition reported in the previous study. The dominant species in understory or canopy layer e.g. Litsea acuminata, Machilus pseudolongifolia and Castanopsis cuspidata var. carlesii, we found no seeds in soil. Using Motyka’s index to calculate the similarity of soil seed bank, understory and canopy composition. Result indicated that the similarity indices between soil seed bank and understory seedling or canopy species were lower. The similarity indices between seedling and canopy species was higher. Means that the relational degree between potential plant community and existing vegetation was low in Nantzuhsienshi forest. According to the result of research. We can inferred that when disturbances create sites for generation, shade-tolerant species will regenerate from understory seedling. Shade-intolerant species can store seeds in soil, waiting for the occurrence of forest gap and regeneration.