Keywords: 
• micronucleus test /
• nuclear anomalies /
• comet test /
• Zhangze reservoir /
• tadpoles /
• genotoxicity

Abstract: Micronucleus test, nucleus abnormality test and comet test were applied to explore the effects of the water pollutant on three genetic toxicity indexes, namely, micronucleus frequency, nuclear anomalies frequency, DNA fracture of Rana nigromaculata sampled from five sampling points of Zhangze Reservoir. The results of micronucleus test showed that the erythrocyte micronucleus frequency of all sampling points was significantly higher than that of the negative control (P < 0.01), except for that of Zetou. The highest micronucleus frequency was 6.87‰ at Dianshang located in the entrance of the reservoir, and the micronucleus frequency decreased gradually at three sampling points located in the upstream, midstream and downstream, i. e., Xiahan (5.45‰), Taishang (3.71‰) and Zetou (2.33‰). The results of nucleus abnormality showed that nuclear abnormality frequency of the erythrocytes at all sampling points was significantly higher than that of the negative control (P < 0.01). The change trend of nuclear abnormality of all sampling points was consistent with that of the micronucleus test. The results of comet test showed that both the tail length and the tail moment of the erythrocytes were significantly higher than that of the negative control (P < 0.01) at all sampling points, and the change trend of both the tail length and the tail moment was consistent with that of the micronucleus test. By comparing and analyzing four indexes of Situ and Taishang both located in the midstream, it is found that no significant difference (P > 0.05) was observed in the micronucleus frequency, nuclear abnormality and comet tail length, but there was significant difference (P < 0.05) in the comet tail moment. In conclusion, the water from different sampling points in Zhangze Reservoir showed high genetic toxicity, which mainly caused chromosome (DNA) fracture. The genetic toxicity indexes of all sampling points varied consistently with the pollutant change of the water body, so the genetic toxicity of the water body can be detected effectively through the three methods mentioned above.