The sulfate aerosols record preserved in polar ice cores provide important clue on for understanding the relationship between past variations of aerosols and climate. However, changes in sulfur contributions from various sources, such as marine biogenic sulfur, volcanoes, and sea salt, remain unclear. Sulfur stable isotopic values (δ³⁴S) of sulfate aerosols can be used to assess oxidation pathways and contributions from various source. Here, to investigate the change in changes in sulfate sources over glacial cycle, we measured the sulfur isotopic composition of sulfate in Antarctic Dome Fuji ice core. A relatively high time-resolution allows us to examine timing between the changes in δ³⁴S and other climate proxies (temperature and fluxes of aerosols). The δ³⁴S data during Holocene is consistent well with modern surface snow observation in this region. The δ³⁴S values show distinct increase from the Last Glacial Maximum to Holocene, suggesting that changes in sulfur source under the different climatic conditions.