Synopsis
Three closely related sunfish in the genus Enneacanthus were examined to determine if differences existed in their tolerance to low pH that could explain their contrasting distributions. Na fluxes of E. obesus, E. gloriosus, and E. chaetodon were measured during 12 h exposure to pH 4.0 and 3.5 (all species), and 3.25 (former 2 species only). All experienced ionic disturbances upon acid exposure resulting from inhibition of active Na influx and stimulation of passive Na efflux, but E. gloriosus and E. chaetodon experienced greater disturbances than E. obesus at all pH's tested. Body and plasma Na concentrations of E. gloriosus were measured after one week of exposure to a range of pH's for comparison with previously published data from E. obesus. Exposure to pH 4.0 and below caused a depression in body and plasma Na concentration of E. gloriosus, and only two of 10 fish survived the one week test period at pH 3.5; none survived at pH 3.25. In contrast, exposure to pH 4.0 for five weeks had no effect on body Na concentration of E. obesus, all 10 fish survived exposure to pH 3.5 for two weeks. Growth of E. gloriosus and E. obesus were measured separately during 12 weeks of exposure to a range of pH's. E. gloriosus exposed to pH 4.25 and 4.0 grew at a lower rate than those at higher pH's (4.5, 5.0, and 5.8), and body Na concentrations of fish at pH's 4.25 and 4.0 were significantly less than the others. With declining pH E. obesus did not exhibit reduced growth until pH 3.75 was reached; no depression in body Na concentration occurred at this pH. These results show that there are marked differences in low pH tolerance among closely related species of Enneacanthus which could affect their distributions and competitive interactions.
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Gonzalez, R.J., Dunson, W.A. Differences in low pH tolerance among closely related sunfish of the genus Enneacanthus . Environ Biol Fish 26, 303–310 (1989). https://doi.org/10.1007/BF00002467
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DOI: https://doi.org/10.1007/BF00002467