A substantial amount of evidence has indicated that freshwater use and consumption cause water scarcity, damage to human health, and ecological disorder. Life cycle assessment (LCA) is a promising approach that can be used to estimate the impacts caused by water consumption and water use. However, assessment schemes that address the potential environmental impacts of freshwater consumption and use have seldom been provided in LCA methods. The spatial and temporal scales of LCA models are not suitable for Taiwan, as most LCA models are site generic and annual. A majority of studies have also neglected reservoirs as an available water source and the impact of water availability on water quality. Therefore, our study proposes an LCA approach in which the regional water availability, wastewater quality, competition of water among all sectors, and spatial-temporal factors are considered. This LCA approach consists of two impact categories: water consumption and water use, in addition to the corresponding watershed-based and sector-wise characterization factors (also called water stress) during high/low-flow periods. The developed approach was applied in a case study of industrial parks in Taiwan. In addition, four scenarios of water conservation were generated to estimate characterization factors and potential impacts. The results of the water stresses in Taiwan exhibited higher water stresses during low-flow periods than during high flow periods. And the higher priority of sector was, the lower water stress of sector would be. Moreover, water stresses for water consumption of watersheds in western Taiwan were higher than that in eastern Taiwan; and water stresses of agriculture for water use of each watershed was at the state of heavily deprived. In scenarios of water conservation, water stresses of water consumption visibly decreased for the competition of water among all sectors, but there were slight changes on water stresses of water use. With regard to impacts of the case study, science industrial parks with the greatest amount of impacts contributed to consume freshwater from the watersheds at the high water stress and discharge wastewater with worse water quality to the watersheds at the high water stress. Therefore, Southern Taiwan Science Park at Tainan had the highest potential impact of water consumption and Southern Taiwan Science Park at Kaohsiung had the highest potential impact of water use. At the scenario of water conservation of all sectors, impacts of water consumption declined 5%~17% and impacts of water use dropped 1%~6%. Our proposed approach provides a new method to understand the impacts of freshwater consumption and freshwater use.