The interaction between suction feeding performance and prey escape response determines feeding success in larval fish

The survival of larval marine fishes during early development depends on their ability to capture prey. Most larval fish capture prey by expanding their mouth, generating a suction flow that draws the prey into it. These larvae dwell in a hydrodynamic regime of intermediate Reynolds numbers, shown to impede their ability to capture non-evasive prey. However, the marine environment is characterized by an abundance of evasive prey, such as Copepods. These organisms sense the hydrodynamic disturbance created by approaching predators and perform high-acceleration escape maneuvers. Using a 3D high-speed video system, we characterized the interaction between Sparus aurata larvae and prey from a natural zooplankton assemblage that contained evasive prey, and assessed the factors that determine the outcome of these interactions. 8-33 day post hatching larvae preferentially attacked large prey that was moving prior to the initialization of the strike, however feeding success was lower for larger...