Choushui River Alluvial Fan is the area with the most abundant groundwater resources in Taiwan. However, due to industrial development, excessive groundwater extraction has led to the deterioration of groundwater levels and subsequent natural disasters such as land subsidence, seawater intrusion, and groundwater salinization. Among them, groundwater salinization poses long-term water supply issues owing to its extensive scope and challenging remediation. Currently, the extent and distribution of salinization in this area have been well known, but there is limited discussion on future trends. Additionally, previous studies have often focused on single or yearly sampling results, neglecting the seasonal impact on groundwater salinization. Therefore, this study integrates historical groundwater data and samples the water quality during wet and dry periods. The objective is to understand the distribution, sources, mechanisms, seasonal variations, and future trends of groundwater salinization in the Choushui River Alluvial Fan from a hydrochemical perspective. The results indicate that groundwater salinization in the Choushui River Alluvial Fan is concentrated in the first and second aquifer (F1&F2) near the coast. Salinization characteristics include high electrical conductivity, a high chloride/alkalinity equivalent concentration ratio, and a Na-Cl type hydrochemical face. In the major ions and chloride bivariate diagrams, most data points fall near the theoretical mixing line of freshwater and seawater, indicating that salinization originates from seawater, with the degree of salinization determined by the proportion of seawater. Regarding the salinization mechanisms, the degree of salinization does not show a significant correlation with the distance of wells from the sea. Additionally, the lack of surface clay coverage in the coastal area suggests that salt leaching from the surface is the primary mechanism causing salinization in F1, while salinization in F2 may result from salt infiltration through deep wells. Results from the sampling analyses show that although there is no seasonal difference in the degree of salinization, there is a phenomenon of salinization/freshening reversal in certain areas between the wet and dry seasons, indicating by the Base Exchange Index (BEX) values. Long-term trends in BEX for each well indicate three patterns: consistently positive, consistently negative, and a transition from positive to negative. Wells with consistently negative BEX values have the highest likelihood of intensifying salinization, while those with consistently positive BEX values have the lowest likelihood. Wells with a higher likelihood of salinization intensification are often located in areas where the aquifer tends to be saline. This suggests that it is possible to identify regions with salinization tendencies and then formulate more comprehensive and flexible management policies based on the BEX trends of individual wells.