With the expanding and growth in both economy and technology of the greater metropolitan Taipei in the recent decades, the change of its surrounding environment, such as the land surface temperature contrast between day and night time, is getting obvious. The coverage of natural vegetation area is replaced by artificial pace, which is often seen in a developing city. It is expected that the land surface temperature distribution is no longer in similar patterns from past to current. To investigate the near-surface thermal phenomenon in association with environmental change, this study is proposed to utilize the infrared imagery from Landsat during 2000 to 2003. The characteristics of the retrieved land surface temperature (LST) from Landsat observation in the northern part of Taiwan are analysed. Those indices from NDVI (Normalized Difference Vegetation Index), NDWI (Normalized Difference Water Index), and NDBI (Normalized Difference Building Index) are examined for the correlation with land use qualitatively and quantitatively. The correlation between different land cover and LST is investigated as well. On the other hand, the potential geothermal energy in conjunction with LST is discussed in this study due to Datun volcano is in the vicinity of metropolitan Taipei. Through the change in LST from time series analysis in four seasons, this study would like to identify the volcanic area from geothermal anomalies in Landsat infrared observation. The result suggests that LST is in a negative correlation with soil moisture content, while LST has a positive correlation with the portion of bare soil. The spatial distribution of possible volcano location could be identified through the analysis of temporal change in Landsat LST.