Water is an indispensable element in the maintenance of human life and one of the important services provided by the ecosystem. However, a great number of artificial development, such as sloping land, deforestation, excessive fertilization, etc., have surpassed the original carrying capacity of the ecosystem, resulting in the failure of the ecosystem to function properly to regulate flood peaks, soil and water conservation, and to filter water quality. Causes an impact and creates a vicious circle to human beings. Hydrologic and Hydraulic Modeling and Hydrology Services are like twin brothers. The former describes the changes in flow rate and water quality in a quantitative way; the latter tends to present its spatial distribution characteristics in a qualitative way. With the rise of eco-hydrology, terms such as “Hydro-ecology” and “Eco-hydrology” began to appear in related research. Zalewski, Lin Yu-Pin and others have clearly defined ecohydrology as "A cross-disciplinary science that combines hydrological processes and biological dynamics at different spatial scales." In this study, the spatial system dynamics (SSD) simulation platform with improved time-space characteristics is combined with hydrological and hydrological model (GWLF) and hydrological service assessment tool (InVEST) as the medium for studying ecological hydrology. Chen You-lan river, Nantou County was selected as the research area, and the simulation result was validated by the measured data. The HSSSD , which was built in this study, its RSQ and NSE approaching 0.85, compared with RSQ=0.69/ NSE=0.65 of InVEST and RSQ=0.79/NSE=0.78 of GWLF., showing that HSSSD can effectively improve the accuracy of the simulation. Furthermore, this study uses the GLUE method to analyze the uncertainty of the parameters, showing that the corresponding is CN2, r of the forest and D. Combined hydrological and hydraulic models with hydrological service assessment tools, HSSSD can simultaneously display simulation results at time and space scales, and provide users with more information such as nutrient loss pathways, in addition to further improving the accuracy of simulations and uncertainty. Analyze the 95% confidence interval of the simulation, so that the simulation results can be flexibly applied to ecological hydrology.