Antibiotics are one of the most widely used pharmaceuticals, not only for human and veterinary medication but also for aquaculture and livestock. However, It found in the aquatic environment usually occur as mixtures, not as a single substance. They might be potential micropollutants in aquatic ecosystems that negative impact. Therefore, it is necessary to evaluate the risk of antibiotics. In order to evaluate the combined toxic effect of antibiotics on aquatic organisms of different trophic levels, this study choose three antibiotics of different mode of actions i.e., Ciprofloxacin(CIP), Sulfamethoxazole(SMX) and Tetracycline(TC) for conducting the toxicity assessment on Pseudokirchneriella subcapitata (Alga), Daphnia magna (water flea) and Pseudorasbora parva (fish). In the single-compound toxicity test, the toxicity for P. subcapitata in degreasing order is: Tetracycline > Ciprofloxacin > Sulfamethoxazole. For D. magna is Ciprofloxacin> Sulfamethoxazole > Tetracycline. However, only Tetracycline has toxic effect for P. parva. Binary mixture toxicity was investigated by using D. magna.The results shows simple addition effect was observed with the combination of Sulfamethoxazole + Tetracycline, while the others show antagonism. Combination of antibiotics with D. magna and P. parva are no mortality or inhibit the biological, when the most sensitive endpoint of final yield of P. subcapitata have significant effect as compared with control and inhibit the growth of P. subcapitata, causing harm to the ecological environment. On the other hand, the results from species sensitivity test show that among different trophic levels of P. subcapitata has the highest sensitivity to Tetracycline in which the 50 % effective effect concentration(EC50) is 0.056 mg/L, respectively, and the no observed effect concentrations(NOEC) value is 0.008 mg/L.For D. magna, it is most sensitive to the Ciprofloxacin with an EC50 of 31.3 mg/L, but NOEC is most sensitive by Tetracycline, it value is 0.26 mg/L. The sensitivity of these three antibiotics on P. parva were found to be lower than the above two organisms. For the toxicity assessments, using the most sensitive species of P. subcapitata, which is among different trophic level, calculate the risk quotient (RQ). RQ values of Sulfamethoxazole and Tetracycline are larger than 1 for both acute and chronic toxicity, which means that it has a significant effect to environment. Future, the usage of the two antibiotics would be limited.