In organisms with dormant stages, life-history responses to past pollution can be studied retrospectively. Here, we study such responses in a rotifer (Brachionus calyciflorus) from the once heavily copper-polluted Lake Orta (Italy). We extracted resting eggs from sediments, established clonal lineages from hatchlings, and exposed newborns of these lineages to one of three copper concentrations that each mimicked a specific period in the lake's pollution history. For each rotifer, we daily collected life-table data. We then estimated treatment-specific vital rates and used a stage-structured population model to project population growth rate ?. We also estimated elasticities of ? to vital rates and contributions of vital rates to observed ?? between copper treatments. As expected, ? decreased with increasing copper concentration. This decrease resulted mostly from a decline in juvenile survival rate (S) and partly from a decline in the survival rate of asexually reproducing females (S). Maturation rate, and with one exception fecundity, also declined but did not contribute consistently to ??. ? was most elastic to S and S, indicating that survival rates were under stronger selection than maturation rate and fecundity. Together, our results indicate that variation in juvenile survival is a key component in the rotifers' copper response. The consistent decrease in S with increasing copper stress and the sensitivity of ? to that decrease also suggest that juvenile survival is a useful indicator of population performance under environmental pollution.
Life-history responses of a freshwater rotifer to copper pollution
Lami A;Fontaneto D;
2021
Abstract
In organisms with dormant stages, life-history responses to past pollution can be studied retrospectively. Here, we study such responses in a rotifer (Brachionus calyciflorus) from the once heavily copper-polluted Lake Orta (Italy). We extracted resting eggs from sediments, established clonal lineages from hatchlings, and exposed newborns of these lineages to one of three copper concentrations that each mimicked a specific period in the lake's pollution history. For each rotifer, we daily collected life-table data. We then estimated treatment-specific vital rates and used a stage-structured population model to project population growth rate ?. We also estimated elasticities of ? to vital rates and contributions of vital rates to observed ?? between copper treatments. As expected, ? decreased with increasing copper concentration. This decrease resulted mostly from a decline in juvenile survival rate (S) and partly from a decline in the survival rate of asexually reproducing females (S). Maturation rate, and with one exception fecundity, also declined but did not contribute consistently to ??. ? was most elastic to S and S, indicating that survival rates were under stronger selection than maturation rate and fecundity. Together, our results indicate that variation in juvenile survival is a key component in the rotifers' copper response. The consistent decrease in S with increasing copper stress and the sensitivity of ? to that decrease also suggest that juvenile survival is a useful indicator of population performance under environmental pollution.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.