Behavioral response of fish has been shown that was sensitive to chemicals in water. Herein, larval and adult rare minnows of Gobiocypris rarus were studied for their innate color preference and response to a concentration gradient of chemicals (cadmium ion [Cd2+], tricaine methanesulfonate [MS222], and p-chloroaniline). The results showed that both larval and adult rare minnows preferred blue and green over yellow and red in water with no chemicals added. Larval color preference changed significantly under concentrations of Cd2+ ≥ 0.4 mg/L, MS222 ≥ 3 mg/L, and p-chloroaniline ≥ 10 mg/L; for adults, color preference changed significantly when Cd2+ ≥ 3 mg/L, MS222 ≥ 34 mg/L, and p-chloroaniline ≥ 38 mg/L. In addition, the color preference priorities of both larvae and adults also changed at high concentrations of chemicals. The present study provides useful information on how changes in rare minnow behavior could be used as an early indicator of water pollution.
Keywords: Behavior; Biological early warning system; Color preference; Effect of chemicals; Rare minnow.