This study aims to assess the safety impact of a bridge considering the influence of climate change. To demonstrate the proposed methodology, Tzu-Chiang bridge is selected as the research object. This study consists of three parts. First, generating future meteorological data under climate change scenarios via GCM(General Circulation Model) with history meteorological data (include 1986-2005 years daily rainfall and temperature), and converting the generated future meteorological data into the watershed runoff using GWLF (Generalized Watershed Loading Function). Second, acquiring stream level and flow velocity at bridge site via 2D HEC-RAS model using the outcomes of GWLF, the goal of this part is to estimate the scouring depth of each pier. Third, establishing SAP2000 bridge model to assess the structural behaviors with different scour depths and earthquake intensity. the demands of displacement ductility are derived from pushover analysis and time history analysis. The capacity of displacement ductility is adopted form FEMA to establish the fragility curves.