Abstract
Female-biased predation is an uncommon phenomenon in nature since males of many species take on riskier behaviours to gain more mates. Several species of sphecid wasps have been observed taking more female than male prey, and it is not fully understood why. The solitary sphecid Isodontia mexicana catches more adult female tree cricket (Oecanthus nigricornis) prey. Previous work has shown that, although female tree crickets are larger and thus likely to be more valuable as prey than males, body size alone cannot fully explain why wasps take more females. We tested the hypothesis that wasps catch adult female tree crickets more often because bearing eggs impedes a female’s ability to escape predation. We compared female survivors to prey of I. mexicana, and found that females carrying more eggs were significantly more likely to be caught by wasps, regardless of their body size and jumping leg mass. We also conducted laboratory experiments where females’ jumping responses to a simulated attack were measured and compared to her egg load and morphology. We found a significant negative relationship between egg load and jumping ability, and a positive relationship between body size and jumping ability. These findings support the hypothesis that ovarian eggs are a physical handicap that contributes to female-biased predation in this system. Predation on the most fecund females may have ecological-evolutionary consequences such as collapse of prey populations or selection for alternate life history strategies and behaviours.
Highlights
Sex- biased predation is common in nature, and can have significant evolutionary consequences for prey
The mechanisms of female-biased predation can be classified as either predator-mediated or preymediated, but many instances of female-biased predation will likely be influenced by both mechanisms
A mated female O. nigricornis chews a hole into the stem of a suitable plant, and digs a chamber into the pith using her ovipositor, into which she deposits an egg [42]
Summary
Sex- biased predation is common in nature, and can have significant evolutionary consequences for prey. Female-biased predation is evolutionarily significant because it can lead to changes in prey behaviour and life history strategies. Lifehistory traits that can lead to increased predation on females include female-biased sex size dimorphism [6,8]; risky mating behaviour such as mate-search [9], intrasexual competition [10] or copulation [11,12,13]; or risks associated with rearing young, such as trading-off vigilance for increased foraging [14,15], and guarding eggs or young [16]. Gravid or ovigerous females are often reported to suffer higher predation [17,18,19,20,21] This increased mortality can sometimes be attributed to the physical handicap of females carrying and developing eggs [17,22,23]. In species where females transfer eggs to a conspecific, it is often the eggbearing individual that suffers from increased predation (e.g. Pipefish Nerophis ophidion: [24], Golden egg bug Phyllomorpha laciniata: [25])
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