The International Human Dimensions Programme on Global Environmental Change (IHDP) encourages researchers to explore the connections between socio-economic metabolism and land use change. However, current research uses indices or statistical methods to analyze the macroscopic how socio-economic metabolism and land use change are related. A spatial dynamic approach to investigate this relationship is still needed. A Socio-Economic Metabolism and Land Use Change (SEMLUC) model, which is based on spatial system simulation, for Metropolitan Taipei is developed and to explore the spatial patterns of socio-economic metabolism and land use change. To analyze the impact of climate change on spatial patterns of socio-economic metabolism and land use change, this study adopts the SEMLUC model to simulate spatial patterns for Metropolitan Taipei based on A2 and B2 scenarios in Special Reports: Emission Scenarios (SRES) from the Intergovernmental Panel on Climate Change (IPCC) and local policy scenarios N (negative) and P (positive). Simulation results demonstrate that dependence on non-renewable energy by Metropolitan Taipei has increased markedly in response to increasing temperature. Furthermore, natural assets are concentrated in mountainous areas and agricultural assets disappear from mountainsides during precipitation. Additionally, waste emissions are increasing in urban areas. Without considering the rise in sea level, climate change impacts on land use change are insignificant, except that some agricultural areas are urbanized. Furthermore, scenario simulations indicate that if energy policies, agricultural cultivation and resource recycling systems can be implemented, the impact of climate change on the socio-economic metabolism will be reduced.