Sedimentary pyrite formation is one of the most important processes controlling the global C-S-Fe cycle. The aim of this study is to evaluate the turbidite depositional influences on the sedimentary pyrite formation offshore southwestern Taiwan. Previous studies suggested that the turbidite deposits were derived from the Gaoping river in the Gaoping canyon and were transported from the sliding of adjacent slope in the Fangliau canyon. This study performs several geochemical analyses, including organic carbon, nitrogen, pyrite and reactive iron content in sediments to investigate the difference between turbidite and non-turbidite deposits. The pyrite content is higher in turbidite deposits than non-turbidite deposits in the same cores and the deeper turbidite deposits contain more pyrite than that in the shallower turbidite deposits in the Gaoping canyon. However, the calculated initial total organic carbon and reactive iron content among these cores are not significantly different. Thus, the pyrite formation may be not controlled by the supply of organic carbon and reactive iron. The rapid deposition and deeper water depth may enhance the degree of pyritization in the turbidite deposits. The turbidite deposits in the Fangliau canyon show similar behavior with that in the Gaoping canyon. The pyrite content increases in turbidite deposits but is not related to the calculated initial organic carbon content, Corg/Ntotal ratio and reactive iron content. Besides, the organic carbon, reactive iron and pyrite contents are lower in deeper non-turbidite deposits in the Fangliau Canyon, which infers that the organic carbon and reactive iron may control the degree of pyritization in different water depth. In summary, the result indicates that the pyrite content is higher in turbidite deposits both in the Gaoping canyon and the Fangliau canyon. It may infer that a relatively reduced environment could provide by turbidite deposits, which enhances the preservation of organic carbon, iron minerals and sulfide and then increases the degree of pyritization in the turbidite deposits.