Landscape of fear in freshwater ecotones: How predation risk and light conditions affect mesopredator activity and foraging in springs

Springs are environments that can provide general insights into factors favouring diversity in ecotones, but they are often neglected in freshwater studies. One of the challenging processes acting in ecotones is the landscape of fear (LOF), the space-time variation of perceived predation risk. Spring exploitation often involves species that are mesopredators in surface fresh water and that can become apex predators in ground water, as in the case of the fire salamander larvae (Salamandra salamandra). Here, we aim to determine whether the activity and foraging patterns of the fire salamander in springs are affected by LOF. We surveyed the night- and daytime abundance of fire salamander larvae in 15 springs to assess predator occurrence. We also reared 48 salamander larvae with and without non-lethal exposure to predators within tanks simulating groundwater or surface freshwater light features. Before and after a month of rearing, we tested larva efficiency in catching prey when exposed to predator chemical cues, both in light and dark conditions. In the field, the number of active fire salamander larvae was significantly higher during the night. At night, the number of active larvae across the transition area between ground water and surface water was higher in plots closer to the surface. Testing and rearing conditions significantly affected larva behaviour, and prey capture was significantly more effective in light conditions. It was less successful in larvae reared with predator chemical cues and in the presence of predators. Moreover, larvae reared with predators under light conditions were slower than those raised with predators in dark conditions. Our results show that LOF can interact with extant environmental features and constitute a significant behavioural pressure for mesopredator species living in freshwater ecotones.

Automated summary

This study investigates the activity and foraging patterns of fire salamander larvae in springs, and finds that the number of active larvae is higher at night and in plots closer to the surface in the transition area between ground water and surface water. The study also finds that larvae are more effective in capturing prey in light conditions, but less successful when reared with predator chemical cues and in the presence of predators.