Hydrodynamic and sensory factors governing response of copepods to simulated predation by balaenid whales

Abstract

Predator/prey interactions between copepods and balaenid (bowhead and right) whales were studied with controlled lab experiments using moving baleen in still water and motionless baleen in flowing water to simulate zooplankton passage toward, into, and through the balaenid oral cavity. Copepods showed a lesser escape response to baleen and to a model head simulating balaenid oral hydrodynamics than to other objects. Copepod escape response increased as water flow and body size increased and was greatest at distances ≥10cm from baleen and at copepod density = 10,000m-3. Data from light/dark experiments suggest that escape is based on mechanoreception, not vision. The model head captured 88 of copepods. Results support previous research showing hydrodynamic effects within a whales oral cavity create slight suction pressures to draw in prey or at least preclude formation of an anterior compressive bow wave that could scatter or alert prey to the presence of the approaching whale. © 2012 Alexander J. Werth.