Mechanisms regulating zooplankton populations in a high‐mountain lake

SUMMARY 1. We studied the seasonal succession of phyto‐ and zooplankton and the potential impact of predation by salmonids on zooplankton population dynamics in a high‐mountain Swiss lake. 2. A comparison of patterns in the abundance, body length, fecundity and age structure in the Daphnia galeata population strongly suggests that trout predation had little impact on the population and was not the cause for a decline in summer. 3. The dominance in the lake of adult trout that feed mainly on benthic prey may buffer the effect of predation on the larger zooplankton. Further, the relatively high amount of phytoplankton after spring thaw could be important for sustaining the Daphnia population under moderate fish predation. 4. Partial correlation analyses proved circumstantial evidence for both exploitative and interference competition between some zooplankton taxa. D. galeata depressed performance of other plankton species through exploitative competition. 5. Our study shows that the impact of fish on zooplankton in high‐mountain lakes depends strongly on food web structure and trophic state of the lake. Where fish predation is weak, invertebrate predation combined with competition for food may be responsible for the dominance of large‐bodied zooplankton species.