The purpose of this study was to investigate variation of the surface temperature on mudstone slopes. A natural ring-like mudstone area was selected to measure the surface temperature changes, using an infrared thermal imaging system (thermo-tracer) and a pyranometer. The distributions of the surface temperature on different directions, including north, northeast, east, southeast, south, southwest, west, and northwest, of a deep slope area were observed. The observation time was chosen based on the four solar terms, including the vernal equinox, the summer solstice, the autumnal equinox, and the winter solstice, in accordance with the solar incident angles and mudstone slopes. The results obtained were summarized as follows. There was a major temperature variation between the northward and southward slope due to the different solar incident angles and sunshine duration. Changes of temperature in winter solstice were the biggest, between 19.6℃ and 24.2℃. In both vernal and autumnal equinox, values of temperature variation were between 12.0℃ and 13.1℃. In summer solstice, the temperature variation was extremely small. The slope of mudstone and the incident angle of solar radiation influenced the changes of temperature. When the incident angle of solar radiation entered with a negative value, as in the winter solstice on the northward slope, there was no direct radiation fall upon the slope surface. Thus, the surface temperature increased very little. When the incident angle of solar radiation was bigger than the slope, temperature changed dramatically. Temperature variation on the solar side was from 20℃ to 30℃ in the eastward, westward and southward directions. Temperature variation on the northward slope ranged from 10℃ to 15℃ from September to next March.