A cross‐phyla response to Daphnia chemical alarm substances by an aquatic oligochaete

Although chemical alarm substances from damaged heterospecifics have been well documented to induce defense mechanisms in potential prey, data about antipredator responses to alarm cues from prey organisms of a distinct phylum are scarce. In this study, we analyze the response of an oligochaete to chemical alarm substances from distantly related cladocerans. We conducted laboratory experiments to investigate whether the aquatic oligochaete Stylaria lacustris detects and responds to alarm substances from Daphnia . The oligochaetes were exposed to alarm substances from Daphnia magna, which is a member of the same prey guild, and D. hyalina , which is vulnerable to different predators. S. lacustris increased the fission rate in response to cues from conspecifics and the heterospecific D. magna . These species share common predators, especially damselfly larvae and hydras. In contrast, chemical cues released from D. hyalina did not induce an increase in the reproductive rate of the oligochaetes. D. hyalina is a pelagic species and is not included in the diet of predators preying upon S. lacustris . Our results indicate cross‐phyla responses among invertebrates (Annelida and Arthropoda), and suggest strong selection pressures to respond to heterospecific alarm substances. The oligochaete S. lacustris is able to differentiate chemical substances released from damaged Daphnia of two different species. These results show that alarm cues released from damaged Daphnia may be species‐specific. However, further studies on the chemical structure of alarm substances in cladocerans are needed to support this hypothesis.