Semiconductor manufacturing industry is flourishing in Taiwan, which effluent is harmful to environment due to the existence of various substances, such as NH4+, TMAH and Cu(II). Although the amount of the individual substance in the effluent is low, the combined effects on aquatic organisms should be concerned. The aim of this study is to examine individual and combined toxicity of NH4+, TMAH and Cu(II) on Daphnia magna and zebrafish (Danio renio) embryos in the synthetic wastewater. For the individual toxicity, the EC50 of NH4+, TMAH and Cu(II) were 26.20 mg/L as N, 1.02 mg/L and 0.02 mg/L for Daphnia magna immobility, and 84.43 mg/L as N, 460.53 mg/L and 0.04 mg/L for zebrafish larvae malformation, respectively. It suggests that Cu(II) is the most toxic substance for the both organisms. For combined toxicity, the presence of Cu(II) resulted in antagonism on the immobility of Daphnia magna in all combinations. In contrast, the synergism was observed on malformation of the zebrafish larvae. The multiple regression analysis revealed that Cu(II) is the critical factor for determining the combined effects in the semiconductor wastewater. Besides, sublethal endpoints of zebrafish such as malformation types and abnormal heartbeat rates indicated that the toxicity is enhanced and the modes of toxicity were different in the combinations.