Life Cycle Assessment (LCA) is a systematic method for evaluating the impacts of human activities. Under the framework of LCA, the impact of water consumption intends to quantify the environmental burden due to insufficient water supply resulting from water consumption. Yet, two spatial problems were identified in the current LCA framework, particularly for the application of characterization models and characterization factors (CFs) for the impact of water consumption. The presence of spatial differences between the water-providing watershed and the water demand regions, and the distribution of damage receptors in the research area, may hinder interpretation of the impact results. This study aims to establish a regionalized characterization model of water consumption impact under the LCA framework. The characterization model was developed based on Watershed-Affected Area (WAA), which represents the relationship between a watershed and its supply areas. Socio-economic data describing the distribution of damage receptors in the water supply area was also adopted in the characterization model. The model was operated in matrix form, considering the complexity of spatial attributes such as fate factor, exposure factor, and effect factor. This regionalized characterization model was demonstrated on the Tamsui River, the Zhuosui River, and the Gaoping River in Taiwan. The domestic sector, the agricultural sector, and the industrial sector were defined as damage receptors in the case study. Besides, the economic value of water was selected as an indicator to understand the impacts of water consumption on each sector. The WAA was constructed by analyzing the potable water supply system and the irrigation system. The water demand data, land use area, and the Input-Output tables were used to derive fate factors, exposures factors, and effect factors, respectively. Take the Tamsui River as an example: the CF of the domestic sector in Banqiao District, New Taipei City, was NTD 200.37/ m3consumed during the high-flow period (May-October). This result indicated that consuming 1 m3 of water in the Tamsui River during this period would cause insufficient water supply to the domestic sector in Banqiao District and result in the loss of NTD 200.37 of added value. Moreover, the total loss of added value of the whole domestic sector in the WAA of the Tamsui River would be NTD 3,121.2. From the results of the regionalized CFs, it was learned that this model enabled the transformation of impacts from different scales, that is, inputting water consumption inventory data at a watershed scale and outputting damage results at a local administrative scale. This model could also be used to reveal the distribution of water consumption impacts at the regional level. These are the main contributions of this study, as the impact results at administrative scale could improve easiness in supporting decision-making. To further understand the feasibility of the developed CFs in regional water resources management, scenario studies on the influences of irrigation water demand for paddy rice, implementation of wastewater reclamation plants for water supply augmentation, as well as for possible formulating of seasonal water pricing, were conducted. Results from the impact assessment reported the consequences of water consumption rather than quantitative results of water supply resulting from the inclusion of water characteristics data. Therefore, compared to the volumetric outputs, the impact results could provide more information to support water resources management such as water resource distribution or subsidies for fallow farmland. The regionalized characterization model developed in this study is expected to improve the quality of the CFs and their impact results, mainly due to the consideration of known spatial features of damage receptors in the model. The results with detailed spatial information can be used not only for the selection of alternative practices but also for improving regional governance and drafting damage prevention strategies.