Keywords: 
• behaviour /
• toxicity response /
• zebrafish /
• PCP /
• entropy

Abstract: Chemical pollution incidents happened frequently in recent years, so it is becoming necessary to establish a realtime monitoring system. The behavioral responses of zebrafish exposed to PCP were monitored by on-line biological monitoring system (here named 3D-biomonitor). The 3D behavior data of zebrafish was recorded and analyzed, where movement trace, swimming speed (median), surface behavior frequency and entropy were highlighted. In comparison with the control test, it can be seen that the surface behavior frequency of zebrafish tended to increase, while the swimming speed and entropy value tended to decrease, after exposed to low concentrations (0.25 mg·L^-1, 0.5 mg·L^-1) of PCP, although the decrement was not obvious. After exposed to the moderate concentrations (1.0 mg·L^-1, 2.0 mg·L^-1) of PCP, all of the three indicators (the swimming speed, surface behavior frequency and entropy value) decreased after dramatically increasing for about 10 min. When zebrafish was exposed to the highest test concentration of PCP (4.0 mg·L^-1), all of the indicators decreased with the exposure time increasing. In general, the behavioral responses of zebrafish were dependent on PCP exposure concentrations, and the toxic effect of PCP on the swimming behavior of zebrafish can be monitored by 3D-biomonitor. It can be expected that fish ethology would be a promising method for monitoring the water pollution accident.