This study aims to investigate the thermal history regarding the Late Miocene strata in the Hengchun Peninsula with low-temperature thermochronology. Those samples collected were from the Lilungshan Formation, including quartzite (pebbles) and sandstones (matrix). Apatite fission-track thermochronology is a radiometric dating method that refers to thermal histories of the sedimentary basin within the closure temperature range of 135±20˚C. Our study shows that fission-track ages of quartzite pebbles and the sandstones obtain pooled ages between 2.6±0.5 Ma and 3.5±0.6 Ma, and the age distributions indicate total reset. Nevertheless, the formation age of the Lilungshan Formation falls within nannofossil zone NN11 (5.6-8.3 Ma). If the fission-track age record is less than the depositional age, which represents a post-deposition annealing age, the strata should be buried deeply to over the closure temperature of apatite fission-track. Therefore, we confirm that the Lilungshan Formation has encountered a thermal event caused by tectonic burial in the foreland basin. In conclusion, the apatite fission-track ages of the Lilungshan Formation have been totally reset due to paleo-burial. Besides, the onset of uplifting age in the Hengchun Peninsula was between 2.6±0.5 Ma and 3.5±0.6 Ma. Furthermore, if we assume the geothermal gradient is 45±13°C/km, the thickness of overlying strata must at least 2.1-3.8 km to reach the closure temperature of apatite fission-track (~135°C). It shows that the cooling rate of the basin is 34-46℃/Myr, and the exhumation rate of the basin is 0.6-1.5 mm/yr.