Abstract
AbstractEphemeral aquatic environments are important habitats for a variety of species. They are highly variable with regards to vegetation structure and physico‐chemical features that potentially mediate outcomes of biotic interactions. Multiple environmental variables and their emergent impacts on the relationship between prey consumption rate by a predator and prey density (functional response), however, are rarely assessed. Here, we investigated the combined effects of temperature and habitat complexity on the functional response of the freshwater predatory notonectidEnithares sobriaon the cladoceran prey organismDaphnia longispina. A TypeIIfunctional response was observed forE. sobriapredating onD. longispinaand while temperature and habitat complexity had no effect on the response type, these environmental variables interacted with consequences for the magnitude of the functional responses. Overall, structural complexity favored the predator as greater consumption was observed in the most complex habitat treatment. Temperature effects were also evident although these effects were not unidirectional with regard to treatment factor gradients as predators were the most successful at intermediary temperatures. Furthermore, there was a complex interplay between habitat complexity and temperature, with attack rates being greatest at low and high complexities within intermediate temperatures, while at zero complexity attack rates were greatest at the lowest temperature. The effect of habitat on handling times was only evident in the low temperature treatments which decreased steadily with each increase in complexity. Through the application of functional responses the synergistic effects of multiple environmental drivers on predator–prey interaction outcomes have been highlighted, adding insight into how interactions among species may be affected by natural or artificially induced environmental variability.
Highlights
Ephemeral aquatic environments are important habitats for a variety of amphibians, birds, and invertebrates (McCulloch et al 2003, Ferreira et al 2012), they remain relatively poorly studied in comparison to permanent freshwater ecosystems (Williams 2006, O’Neill and Thorp 2014)
We modeled by maximum likelihood estimation (Bolker 2008) Type II functional responses using the “Random Predator Equation” (Rogers 1972), which is appropriate where prey are not replaced as they are consumed, such was the case here (Juliano 2001); Ne = N0{1 − exp[a(Neh − T)]} where Ne is the number of prey eaten, N0 is the initial density of prey, a is the attack constant, h is the handling time and T is the experimental period
Control D. longispina had high survival in all replicates (>98%), experimental deaths were attributed to consumption by E. sobria, which was directly observed
Summary
Ephemeral aquatic environments are important habitats for a variety of amphibians, birds, and invertebrates (McCulloch et al 2003, Ferreira et al 2012), they remain relatively poorly studied in comparison to permanent freshwater ecosystems (Williams 2006, O’Neill and Thorp 2014). As predator–prey interactions are influenced by physical factors such as temperature and habitat complexity, their observed outcomes may alter in response to shifting environmental conditions (Vucic-P estic et al 2011, Alexander et al 2012, Brose et al 2012) This is turn can result in differences in the direction and magnitude of predatory interactions which may influence the stability of prey populations (Abrams 2000). This study assessed predator–prey interactions between two key species of ephemeral aquatic habitats in relation to varying habitat complexity and temperature
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