Chemical weathering with CO2 consumption attracts much attention, but the investigation of chemical weathering in Taiwan is very limited and thus the controlling factors on chemical weathering are still unclear. During the past decade, we collected the riverine water chemistry with 29 catchments in Taiwan to clarify the chemical weathering rate (CWR) in this high standing islands. The results show that northern Taiwan has lower CWR of 102 t km-2 yr-1 in which silicate weathering contributes 68 t km-2 yr-1 while western and eastern Taiwan have extremely high CWR of ~350 t km-2 yr-1 where carbonate weathering is the main source of ~280 t km-2 yr-1. Runoff and physical erosion rate (PER) are in proportion to CWR with R2= 0.62 and 0.71, respectively. Besides, comparing CWR with uplift rate and PER, we find that the ratio of CWR to total denudation (CWR/CWR+PER) decreases with increasing uplift rate. It indicates that although uplift and tectonic activities may promote physical erosion and consequently chemical weathering, their rates are not elevated at the same pace. In sum, CWR in Taiwan is 320 t km-2 yr-1 and the CO2 consumption rate is 32.5×105 mole km-2 yr-1, which are both 13 times higher than the global average. It reveals that this kind of the high-standing island may respond for not only sediment exports but the considerable amount of the global CO2 consumption by chemical weathering.