Along with the rapid economic growth and promotion of living standard, causing rivers are sink of heavy metals from domestic, industrial, agricultural and dust depositional sources directly and indirectly. Heavy metals will be finally stored in sediment by gravity through the flow of rivers and hence increase the concentration of heavy metals in sediment persistently. Dahan Creek, one of the polluted rivers in Taiwan, is also polluted it’s sediment by the discharge of domestic region and industrial park. The main discharge of Dahan Creek are domestic and industrial wastewater and their industrial wastewater are mainly discharged from Tucheng Industrial Park and Shulin Industrial Park. The most severe polluted discharged entrance is from Chenglin bridge (CLB, wastewater of Tucheng Industrial Park) to Fuchou bridge (FCB, domestic and industrial wastewater of Tucheng region) while it’s most severe pollution were produced by copper (Cu) and Zinc (Zn) in dry season higher than in rainy season. The total concentration of Cu and Zn are at the level of 6.7 and 4.2 times of upper limit of sediment quality of heavy metals announced by Taiwan EPA. The degree of sediment contamination are evaluated into different pollution classes based on the ratio values of different indicators, respectively. The assessed results are (1) Cu: severe polluted; (2) Zn: severe polluted; (3) Cr: high polluted; (4) Ni: high polluted; and (5) Pb: moderate polluted, indicating that sediment of Dahan creek are mainly polluted by Cu and Zn and the sediment quality of the study area can be classified into high to low level in sequences as Cu＞Zn＞Ni＞Cr＞Pb. In order to further understand the potential risk of contamination in the high concentration of Cu and Zn in sediment from CLB to Hsin region of Dahan Creek, the fractionations analysis of Cu and Zn to understand the mobility and potential bioavailability in the sediments. The proportion of high mobility (exchangeable fraction, EXC) for Cu is 1 to 15 % of total content and for Zn is up to 6 to 35 % of total content, which indicated that the content of Cu and Zn are not only over the upper limit of sediment quality of heavy metals in Taiwan, but also easily soluble into the water phase when the sediment be disturbed under natural condition. The potential risk of contamination of Cu and Zn of sediment are classified as medium pollution degree and high pollution degree, respectively, and the highest contamination potential risk region can be evaluated and located at the region from CLB to FCB sampling region based on different indicators ratios. Based on the results from factor analysis (FA) of heavy metals concentration of sediments sampled from different sites, the contaminated metals of Zn (total, EXC and (Bound to Carbonates, CA) fractions), Cu (total, EXC and CA fractions), Cr (total) and Ni (total) can be classified into same group in both dry season and rainy season, which indicated that the pollution of Cu, Zn and Cr in sediments are from the same sources of Tucheng Industrial Park and wastewater of Tucheng region, while the pollution of Ni in sediments is from Tucheng Industrial Park and asphalt plant located at the upstream of KYB presumably.