초록
<P><B>Abstract</B></P><P>Chemical signals are widespread in insects, but those resulting in interspecific communication (<I>i.e.</I>, synomones) remain understudied. Here, we analysed chemicals left on substrates by two species of blow fly larvae, <I>Lucilia sericata</I> (Meigen) and <I>Calliphora vomitoria</I> (Linneaus) (Diptera: Calliphoridae), which can aggregate together on carrion. Using solid‐phase microextraction and dynamic headspace analysis, we identified six compounds common to both species: the decanoic, tetradecanoic, pentadecanoic, hexadecanoic and octadecanoic acids, and the 2‐ethylhexyl salicylate. We then tested the behavioural effects of the decanoic and pentadecanoic acids using binary‐choice experiments, along with the (Z)‐9‐tricosene, a pheromone found in many arthropods. The time spent by a larva and its average crawling speed were measured in two sides of an arena, where only one contained a compound at 0.25 or 25 μg/μl. No effect was observed when testing the decanoic acid. The pentadecanoic acid only reduced the speed of <I>C. vomitoria</I> larvae at 25 μg/μl. Finally, <I>L. sericata</I> larvae spent less time in the side containing the (Z)‐9‐tricosene at 0.25 μg/μl, whereas <I>C. vomitoria</I> spent more time and crawled faster in this side at 25 μg/μl. Although these results did not directly evidence synomones, they suggest that the (Z)‐9‐tricosene could regulate larval aggregations on carrion.</P>