Physiological responses to variable environments: storage and respiration in starving rotifers

1. Zooplankton exist in environments where food availability varies greatly over time, and success depends in part on the ability to store resources w hen food is abundant and to conserve them when food is scarce. This paper r eports on interspecific differences in the size of stored reserves, and in respiration rate during food deprivation, of four species of planktonic rot ifers. 2. The size of reserves varied from 42 to 71% of initial (well-fed) body ma ss. Interspecific differences in reserve size explained some of the previou sly observed differences in starvation time. 3. The initial response of respiration rate to food deprivation was quite v ariable between species. Brachionus calyciflorus was the only species to co nserve energy by decreasing respiration rate in response to food deprivatio n. In contrast, the respiration rate of starved Asplanchna priodonta increa sed, while that of A. silvestrii and Synchaeta pectinata did not change, du ring food deprivation. 4. Theory predicts that temporal variation in resource level may facilitate the coexistence of competing species. This theory depends upon trade-offs between traits that confer competitive success in different environments. A lthough rotifers show a trade-off between competitive ability and maximum p opulation growth rate, we found no evidence for trade-offs between either o f those two traits and the size of reserves.