Keywords: 
• triazophos /
• aquatic microcosm /
• multivariate data analysis /
• principal response curves

Abstract: As a type of organophosphorus compound with moderate toxicity, triazophos is widely used in areas of rice production. To clarify the impact of the insecticide on freshwater ecosystems, five concentrations (0, 0.35, 1.75, 17.5, and 52.5 μg·L^-1) of the insecticide were tested in a set of algal-dominated indoor aquatic microcosms. The data were analyzed by CANOCO 5, a type of software for multivariate data analysis. Results of the unconstrained ordination and the followed multiple comparisons indicated that the highest no-effective concentration and the lowest effective concentration with respect to the eigenvectors of zooplankton communities (i.e. NOEC_community and LOEC_community) was 17.5 μg·L^-1 and 52.5 μg·L^-1, respectively, from 0 to 6 d. The communities being exposed to the highest concentration (i.e. 52.5 μg·L^-1) recovered at 9 d, and the average value of the actual concentrations at the date was found to be 4.35 μg·L^-1. Results of the multiple comparisons with respect to population densities of single-species indicated that the species that was mostly affected was Strandesia viridis. In group of 52.5 μg·L^-1, the populations began to shrink at 30 d and they did not recover at the end of the 57 d exposure. For algae, results of the unconstrained ordination and the followed multiple comparisons showed that the impact of triazophos at community level was not so obvious as to identify the value of NOEC_community and LOEC_community. The insecticide was found to induce the population of unicellular species Selenastrum capricornutum from 9~12 d, with NOEC_species and LOEC_species being 1.75 μg·L^-1 and 17.5 μg·L^-1, respectively. There was no evidence that the insecticide altered pH, conductivity, turbidity, and carbon cycle of the dilutions. To take the environmental concentrations that was estimated from GNEEC (Version 2.0), which show the peak value of 2.44 μg·L^-1, into consideration, results of the study suggest that the triazophos may disturb the intrinsic structure of zooplankton communities close to paddy fields even it was applied at recommended rates, but the insecticide was unlikely to cause unrecoverable damage to the systems.