Gyrinid searching tactics: empirical observations and a tactical model

Abstract

Summary. Data on Gyrinus picipes were collected to examine the influence of prey distribution and capture on search path configuration. All paths were analyzed before and after prey capture. Parameters measured were turning angles, step lengths, and step direction. Three indices of search efficiency were calculated: linear displacement, thoroughness, and straightness. Prey distribution had little impact on search configuration. However, prey capture caused significant reductions in step length, linear displacement, and straightness. Thoroughnnes and turning angle increased significantly after prey capture. A simulation model was developed to analyze influences of search parameters on search efficiency. Search paths, simulated using empirically derived parameters, did not differ from actual search paths indicating that the model accurately describes gyrinid search paths and may be used in these analyses. Actual search paths were compared to a simulated Brownian (random) search. Search paths before prey capture were significantly different from random, but Brownian search can describe search paths after prey capture. Comparisons of simulations using various input parameters indicate that step length has the greatest effect on search paths. Turning angles and direction are important before prey capture but not after.