Developmental stability and predation success in an insect predator-prey system

I investigated the relationships among developmental stability(as measured by individual bilateral asymmetry values), twomeasures of locomotory performance and predation success inan insect predator-prey system. In this system yellow dungfliesScathophaga stercoraria preyed upon houseflies Musca domesticainlaboratory-controlled conditions. There was no relationshipbetween locomotion and absolute asymmetry or mean size of twomorphological traits (fourth longitudinal wing vein, forelegtibia) in either species. Analysis of single predation trialsindicated that locomotion performance and trait size are notassociated with the probability of predation. However, Muscathat were captured had tibia that were more asymmetric thanMusca that survived. Similarly, Scathophaga that were successfulpredators had more symmetric forelegs than unsuccessful predators.There was no relationship between predation and wing vein asymmetry,which may indicate the importance of terrestrial-based predatoryavoidance tactics in this system. There were no relationshipsbetween morphology or locomotion with predation latency, preyhandling times, or the number of times a prey "escaped" froma predator. The mechanisms behind the relationship between tibiaasymmetry and predation success are discussed. This is the firstexperiment to reveal direct evidence for selection for symmetric,developmentally stable individuals through differential predation