To prevent the increasingly serious threat of global warming to life on earth, building energy saving and greenhouse gas (GHG) emission reduction has become a major issue for most cities. Green roofs can effectively reduce heat flux and sequestrate carbon by vegetative cover, thereby decreasing building energy consumption and GHG emissions. This study thus applied a building energy simulation model and a life cycle assessment (LCA) software to assess the environmental benefits of local green roofs based on their energy savings, GHG emission reductions, and life cycle and cost-benefit assessments. For evaluating the energy saving, the U-value of a green roof was measured first. With the measured U-value and the typical meteorological year of the study area, the one-dimensional heat flux (1D-HF) method and the EnergyPlus model were used to estimate the energy saving. The GHG emission reduction was computed based on the emission factor of local electricity and the carbon sequestration capability of a green roof. The difference between a conventional roof and a green roof for various life cycle environmental impacts was evaluated by Simapro. Finally, a life cycle cost-benefit analysis was implemented based on the market prices of roof materials, replacement costs, life spans, and economic values of energy savings and GHG emission reductions. The results obtained in this study are intended to evaluate the applicability of green roofs for buildings in local cities. The U-value of a local extensive green roof with 10cm substrate depth was measured and estimated to be 0.42. The energy savings of three studied cases are approximately 12-15kWh/m2/yr. The GHG emission reductions range between 5,964 and 7,293 kg CO2e/yr. While compared to the conventional roof with a life span of 10-20 years, the green roof LCA result shows about 1x106-1.8x106 kg 1,4-DB eq impact reductions for human ecotoxicity, aquatic ecotoxicity, and terrestrial ecotoxicity. The life cycle cost benefit analytical results show $5-50/m2/yr economic benefit over the conventional roof with a life span of 10-15 years. The economic benefit is expected to significantly increase after the government raises electricity tariffs in near future.