Behavioral linkage of pelagic prey and littoral predators:: microhabitat selection by Daphnia induced by damselfly larvae

Only recently ecologists started treating the previously separately considered benthic, littoral and pelagic zones of lake ecosystems as closely connected compartments. Here we study a link between organisms belonging to a different compartment - namely the pelagic and the littoral - through behavior in a series of laboratory experiments. Waterfleas of the genus Daphnia are inhabitants of the pelagic zone and suffer a high predation pressure from syntopic vertebrate predators (mainly fish). Presumably to escape this predation, they sometimes migrate in the day to the littoral to seek refuge within macrophytes and return to the pelagic at night. Zygopterans from the genus Ischnura do commonly co-occur in ponds with Daphnia and are known as opportunistic predators of Daphnia. In two initial experiments in microcosms in the lab we showed that Ischnura larvae are littoral predators strongly associated with macrophytes. Although we found that predation rates of individual Ischnura larvae on Daphnia are approximately 1.5 fold lower in macrophytes compared to open water, total predation from Ischnura on Daphnia per unit area is tenfold higher within macrophytes than in open water, making the open water a safer place for Daphnia with regard to Ischnura predation. In a third microcosm experiment we monitored horizontal distribution of Daphnia in the absence, presence and odor only of Ischnura larvae. After 2 hours, on average 10% less Daphnia remained within the vegetation when Ischnura larvae or only their odor were present compared to when Ischnura or their odor were absent. We interpret this as a behavioral anti-predation response of Daphnia to the presence of Ischnura larvae that seems primarily chemically mediated. The observed horizontal migration of the pelagic prey driven by the littoral predator may couple both lake compartments and may interact with the predator-prey relationships within the pelagic.