Behavioral and Ecological Responses of an Invasive Freshwater Mussel to Noise Pollution
Résumé
Biological invasions and anthropogenic noise represent two major threats to fresh water ecosystems but the response of invasive species to noise and how it can modulate their behavior and ecological impact have received scant attention. In this study, we conducted a two-phase laboratory experiment to investigate the effect of motorboat noise on the quagga mussel Dreissena bugensis, one of the world's most invasive species causing detrimental ecological and economic impacts. We first measured aggregation patterns during a 14 to 18day rearing phase where the mussels experienced laboratory background noise supplemented or not with motorboat sounds that mimic nautical activity during summmer. Afterwards, we monitored the valve activity and estimated the filtration rate of mussels from both rearing conditions in the presence or absence of motorboat noise for 12 hours. Our results showed that aggregation rate and mean aggregate size were higher with motorboat noise. Conversely, valve activity did not differ between the two noise conditions but was significantly increased by the previous repeated exposure to noise during the rearing phase. The relationship between valve activity and filtration rate was positive for the mussels not exposed to boat noise, positive but weaker for the mussels that experienced boat noise during one of the two experiment and not significant for those under boat noise during the whole investigation.
Further research is needed to understand the physiological origins of the response to noise and the consequences on life-history traits and mussel-based ecosystem processes such as phytoplanktonic primary production, benthification and biofouling.
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