Abstract
Anxiety is an emotional state generally expressed as sustained apprehension of the environment and elevated vigilance. It has been widely reported in vertebrates and, more recently, in a few invertebrate species. However, its fitness value remains elusive. We investigated anxiety-like behaviour and its consequences in an amphipod crustacean, using electric shock as aversive stimuli, and pharmacological assays. An anxiety-like state induced by electric shocks in Gammarus fossarum was expressed through increased sheltering behaviour in the absence of predation risk, thereby showing the pervasive nature of such behavioural response. Increasing the number of electric shocks both increased refuge use and delayed behavioural recovery. The behavioural effect of electric shock was mitigated by pre-treatment with LY354740, a metabotropic glutamate receptor group II/III agonist. Importantly, we found that this modulation of decision-making under an anxiety-like state resulted in an increased survival to predation in microcosm experiments. This study confirms the interest in taking an evolutionary view to the study of anxiety and calls for further investigation on the costs counterbalancing the survival benefit of an elevated anxiety level evidenced here.
Highlights
Most living organisms regularly experience acute stress, when facing unpredictable or transient threats in their environment, such as a sudden change in temperature, toxic food or the presence of a predator
Gammarids treated with LY at 100 μg l−1 prior to exposure to an electric shock used the refuge to a lower extent than untreated ones (p = 0.004), albeit still significantly more compared to LY-treated ones unexposed to electric shock (p = 0.026)
The modulation of anxiety by stressful experience and anxiolytic treatment translated into variable levels of refuge use in the absence of predation risk
Summary
Most living organisms regularly experience acute stress, when facing unpredictable or transient threats in their environment, such as a sudden change in temperature, toxic food or the presence of a predator. Response to stress is considered to be adaptive when it decreases the risk of death or injury and facilitates coping mechanisms against future stressors [1]. It has been shown that various types of stressors can generate fear and anxiety in animals.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
