Spatial distribution of the Daphnia longispina species complex and other planktonic crustaceans in the heterogeneous environment of canyon-shaped reservoirs

Canyon-shaped reservoirs are often characterised by longitudinalgradients of environmental factors (including trophic level,phytoplankton and zooplankton biomass and abundance of planktivorousfish) affecting the taxonomic composition of the pelagic community.We tested the hypothesis that the spatial distribution of differentspecies and interspecific hybrids of the Daphnia longispinaspecies complex is non-random under such conditions. Duringthe summer stratification, we sampled crustacean zooplanktonfrom 11 reservoirs, covering both longitudinal (upstream, middle,dam) and vertical (epi-, meta- and hypolimnion) environmentalgradients. Allozyme electrophoresis was used to discriminateamong different Daphnia taxa. All three frequently hybridizingEuropean species of the complex (galeata, cucullata, longispina= hyalina) and hybrids with Daphnia galeata were commonly recorded.Smaller-bodied Daphnia cucullata and its hybrids, when present,preferred mostly the nutrient- and food-rich upstream regions;D. longispina and its hybrids were more commonly found in thedownstream part, and often dominated in the meta- or hypolimnion.Redundancy analyses confirmed significant differences in theDaphnia taxon composition, as well as in spatial distributionof other crustacean species, along both gradients. For the firsttime, we demonstrate regular patterns in the horizontal distributionof Daphnia species and hybrids within a water body, thus acceptingour hypothesis. Such spatial distributional patterns may stronglyimpact local hybridization processes.