Influence of food availability, predation risk and initial body size on growth and maturation of Cloeon dipterum (Ephemeroptera: Baetidae)

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Authors

ŠUPINA Jan BOJKOVÁ Jindřiška BOUKAL David S.

Year of publication 2016
Type Article in Proceedings
Conference PROCEEDINGS OF THE JOINT MEETING OF THE XIV INTERNATIONAL CONFERENCE ON EPHEMEROPTERA AND XVIII INTERNATIONAL SYMPOSIUM ON PLECOPTERA
MU Faculty or unit

Faculty of Science

Citation
Web http://dx.doi.org/10.11646/zoosymposia.11.1.9
Doi http://dx.doi.org/10.11646/zoosymposia.11.1.9
Field Zoology
Keywords predator-prey interactions; sublethal effects; body size; growth rate; maturation size; maturation age; variable number of instars; Aeshna
Description Larval growth and maturation in aquatic insects are phenotypically plastic and can change in response to the amount and quality of resources, or under predation risk. While better food conditions typically lead to faster growth and earlier maturation at larger body size and hence higher fecundity, the effects of predation risk can vary depending on its strength and selectivity with respect to size or stage. Studies on lotic mayflies (Ephemeroptera) have reported two direct and two indirect life history responses to increased predation risk: slower growth rate and later maturation at the same or smaller size, and faster or unaltered growth rate and earlier maturation at smaller body size. However, life history responses of standing water mayflies to predation risk are unknown. To fill this gap, we carried out a full-factorial laboratory experiment to study the influence of food availability (full/reduced) and predation risk (present/absent predator cues) by dragonfly larvae on growth and maturation of larvae of the lentic mayfly Cloeon dipterum. Males and females responded similarly to food limitation and predation risk. Predation risk had no effect on maturation size, larval mortality and metamorphic failure. However, growth rate, number of moults and development time were all affected by predation risk, and its net effect was modified by food availability and initial body size of the larvae. These results suggest that life history responses to suboptimal conditions depend on body size at the onset of such conditions. Finally, a small group of larvae grew at much slower rates and developed much longer than other individuals of similar initial size, possibly due to bet-hedging or inclusion of multiple genotypes in the experiment.
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