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Life-history responses of a freshwater rotifer to copper pollution

Authors :
Federica R, Schanz
Stefan, Sommer
Andrea, Lami
Diego, Fontaneto
Arpat, Ozgul
Source :
Ecology and Evolution
Publication Year :
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 λ. We also estimated elasticities of λ to vital rates and contributions of vital rates to observed Δλ between copper treatments. As expected, λ decreased with increasing copper concentration. This decrease resulted mostly from a decline in juvenile survival rate (SJ ) and partly from a decline in the survival rate of asexually reproducing females (SA ). Maturation rate, and with one exception fecundity, also declined but did not contribute consistently to Δλ. λ was most elastic to SJ and SA , 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 SJ with increasing copper stress and the sensitivity of λ to that decrease also suggest that juvenile survival is a useful indicator of population performance under environmental pollution.<br />We studied how rotifer vital rates respond to increasing copper pollution and whether these responses alter population fitness. We identified juvenile survival as the key component in the rotifers' copper response: juvenile survival declined with increasing copper pollution, and population fitness was sensitive to that decline.

Details

ISSN :
20457758
Volume :
11
Issue :
16
Database :
OpenAIRE
Journal :
Ecology and evolution
Accession number :
edsair.pmid..........313d737a65f3177f097ad8b26056a625