The spirit of sustainable development is not only using the environmental resources efficiently for economic and social development but also protecting the environment from degrading. To implement the spirit, analyzing the carrying capacity of water supply due to present and planning facilities and tolerance of water shortage is important. Also, considering the limits of future carrying capacity can scheme the development of future regional water resources. The Lanyang creek watershed is a unique area of water supply development in Taiwan. It rarely has severe water shortage. Therefore, no reservoir is built in the area. However, to support the long-time developments, it has well-built water supply systems. According to the Lanyang creek Watershed’s special development, a different development of water resource system with more environmental considerations can be put into practice when it confronts with possible water shortage risks. This study analyzes the carrying capacity of water supply systems of Lanyang creek watershed and future water demands. According to the results of sensitivity analysis on future carrying capacity, the envelopes of key factors can be determined to make sure not exceeding acceptable risks of water shortage. Moreover, with the vision of sustainable development, this study discusses the measures dealing with water shortage and brings up the water supply strategies for different shortage situations. The measures include using groundwater as backup supply, using groundwater as normal supply, and constructing water-storing facilities to conduct conjunctive operation of surface water and groundwater. Base on the design case study on the measures of conjunctive use of surface water and groundwater, this study proposes constructing water-storing facilities to increase retaining water and pumping groundwater for normal water supply. This study develops conjunctive operation rule curves, which extends the concept of reservoir operation rule curves to the conjunctive use of surface water and groundwater and allows pumping groundwater during the non-drought periods. The rule curve’s goal is to minimize the total water shortage and groundwater drawdown and the Tabu search and the stepwise method are applied to fine the optimal operational rule curves. According to the results of design case study, the optimized conjunctive operation rule curves can reduced more water shortagethan using surface water only or using groundwater as backup.