Organotins (OTs) have been widely used as polymer stabilisers, biocides, wood preservatives, and antifouling pants. Among the organotins, triorganotins and specifically tributyltin (TBT) have the maximum toxic effect to marine organisms and causes an endocrine-mediated adverse effect in invertebrates. Therefore, the present study were performed embryo development test, and recorded the rate of target organ been effected by the chemicals to evaluate the toxicity of tributyltin chloride (TBTCl) and triphenyltin chloride (TPhTCl) by Daphnia magna embryo. In acute toxicity test, the 48 hour EC50 value of TBTCl and TPhTCl were 3.54 μg/l and 9.69 μg/l, respectively. In embryo development test, the 96 hour EC50 value of TBTCl and TPhTCl were 0.40 μg/l and 14.70 μg/l, respectively. The results were indicated that trbutyltin chloride was more toxic than triphenyltin chloride. It was also observed malpighian tube and tail spine teratogenesis in embryo development test, more than 50% of daphnids being deformed during the test. The present study indicates that the embryo development test with target organ effected rate were more sensitive than traditional acute toxicity test. Suggest that the improved method could be use in environmental toxicants evaluation.