Phenol Tolerance in Populations of Mosquitofish from Polluted and Nonpolluted Waters

Abstract

The phenol tolerances of 3 Alabama [USA] populations of mosquitofish G. affinis were compared; 2 populations lived in industrially polluted streams and 1 in a nonpolluted lake. In 48-h static tests, the median lethal concentration (LC50) of phenol was significantly higher for mosquitofish from a stream that received coke-treatment wastewater from a steep plant than for the other 2 populations. Especially at low phenol concentrations, most mortality occurred during the 1st few hours of exposure, indicating that some individuals were much more susceptible to phenol than others. Eight-hour assays of fish from the lake and the most polluted stream confirmed the presence of distinctly phenol-resistant and phenol-susceptible groups of fish. The differences of LC50 values for these 2 populations reflect differing proportions of resistant individuals. Resistant fish made up 67-80% of the polluted-stream population with the high LC50 and only 23-27% of the nonpolluted-lake population. Repeated nonlethal toxicity tests on individuals demonstrated that some fish are invariably susceptible and others show resistance at some times and susceptibility at others. Phenol resistance apparently depends on the induction of a genetically determined, rapidly acting detoxification mechanism.