Avoidance of conspecific injury-released chemical cues by free-ranging Gammarus lacustris (Crustacea : Amphipoda)

Citation
Bd. Wisenden et al., Avoidance of conspecific injury-released chemical cues by free-ranging Gammarus lacustris (Crustacea : Amphipoda), J CHEM ECOL, 27(6), 2001, pp. 1249-1258
Citations number
29
Language
INGLESE
art.tipo
Article
Categorie Soggetti
Environment/Ecology
Journal title
JOURNAL OF CHEMICAL ECOLOGY
ISSN journal
0098-0331 → ACNP
Volume
27
Issue
6
Year of publication
2001
Pages
1249 - 1258
Database
ISI
SICI code
0098-0331(200106)27:6<1249:AOCICC>2.0.ZU;2-X
Abstract
Behavioral responses to chemical cues have been demonstrated for a range of aquatic animals. Injury-released chemical alarm cues from conspecifics are released when a prey's predator is actively foraging. Detection of these c ues elicits antipredator behaviors that reduce the probability of predation . Amphipod crustaceans in the genus Gammarus are widespread denizens of pon ds and streams. Antipredator responses by Gammarus to conspecific alarm cue s, and subsequent reduction of predation risk, are known from experiments i n the laboratory. Here, we verify laboratory findings by demonstrating an a voidance response to alarm cues using a field population of G. lacustris. W e used small traps baited with sponge blocks containing either water (contr ol) or injury-released cues from Gammarus. We repeated the experiment twice . In both experiments, significantly fewer Gammarus were captured in traps with alarm cue sponges than in traps with water sponges. Predatory leeches Dina parva were attracted to Gammarus traps in the first experiment but not the second experiment. In the second experiment, we measured the individua l weight of captured amphipods. Two size classes were present; small (1-5 m g) and large (35-108 mg). Both sizes contributed to the avoidance response. Within the large size class, small individuals were significantly less res ponsive to the alarm cue than large individuals, implying that small adult Gammarus may have different cost/benefit decision criteria for risk assessm ent than large Gammarus.