Foliar nutrition can influence vigor and productivity of plants. The seasonal changes and topographical difference cause the temporal and spatial variations in foliar nutrient composition. Both are important topics and worth further discussion in plant ecophysiology. In this study, I collected leaf samples from 11 plant species and soil samples to investigate the effects of seasonal change and topographical difference on foliage nutrient compositions in Watershed #1, Fushan Experimental Forest. I collected leaf samples four times and soil samples once from April to November, 2005. The results showed that soil fertility and nutrient concentrations in foliage could be classified into “bottom type” and “middle-top type”. Bottom type soil had significantly higher pH, available phosphorous, exchangeable calcium, exchangeable magnesium, and base saturation than middle-top type soil (P ≦ 0.0087). The foliar concentrations of nitrogen (N), phosphorous (P), potassium (K), calcium (Ca), magnesium (Mg), were significantly higher in bottom type plants than in middle-top type plants (P < 0.0001). The differences in the foliar nutrient compositions could be a response to the differences in soil fertility between bottom type and middle-top type. In eight out of eleven species, the foliar concentrations of N, P and K increased with sampling sequence, but those of Ca and manganese (Mn) decreased. Seasonal patterns of foliar Mg concentrations were inconsistent and dependent on plant species. In nutrient resorption efficiency (RE), P (58.3%) and K (48.1%) resorption efficiency (PRE, KRE) were significantly higher than N (23.7%) resorption efficiency (NRE) (P = 0.0001). Middle-top type plants had significantly higher PRE (64.1%) and KRE (55.4%) than bottom type plants (P ≦ 0.0047), whereas there was no significant difference in NRE between bottom type and middle-top type plants. The high resorption efficiency might be a strategy of plants to adapt to low soil fertility. In November the foliar N concentrations were still rather high in plants of both types, suggesting the incomplete resorption. In November, similarly, the high concentrations of foliar P in bottom type plants also suggested the incomplete resorption. By contrast, the foliar P concentrations in middle-top type plants had approached the threshold of resorption proficiency in November, indicating the more complete P resoprtion in the soil with low fertility.