Abstract
Resource limitation during the juvenile stages frequently results in developmental delays and reduced size at maturity, and dietary restriction during adulthood can affect longevity and reproductive output. Variation in food intake can also result in alteration to the normal pattern of resource allocation among body parts or life-history stages. My primary aim in this study was to determine how varying juvenile and/or adult feeding regimes affect particular female and male traits in the sexually cannibalistic praying mantid Pseudomantis albofimbriata. Praying mantids are sit-and-wait predators whose resource intake can vary dramatically depending on environmental conditions within and across seasons, making them useful for studying the effects of feeding regime on various facets of reproductive fitness. In this study, there was a significant trend/difference in development and morphology for males and females as a result of juvenile feeding treatment, however, its effect on the fitness components measured for males was much greater than on those measured for females. Food-limited males were less likely to find a female during field enclosure experiments and smaller males were slower at finding a female in field-based experiments, providing some of the first empirical evidence of a large male size advantage for scrambling males. Only adult food limitation affected female fecundity, and the ability of a female to chemically attract males was also most notably affected by adult feeding regime (although juvenile food limitation did play a role). Furthermore, the significant difference/trend in all male traits and the lack of difference in male trait ratios between treatments suggests a proportional distribution of resources and, therefore, no trait conservation by food-limited males. This study provides evidence that males and females are under different selective pressures with respect to resource acquisition and is also one of very few to show an effect of juvenile food quantity on adult reproductive fitness in a hemimetabolous insect.
Highlights
Nutrition is of paramount importance in organismal development, and marginal resources will impose severe constraints on individuals in most natural populations
This change in the allocation of resources may be a non-adaptive response, where the finite pool of resources is always proportionally allocated to all traits irrespective of absolute intake (‘proportional resource allocation’), or an adaptive response involving the strategic allocation of resources to important traits (‘strategic resource allocation’)
There was a trend for males and females that were foodlimited as juveniles to develop more slowly, achieve a smaller fixed size and shorter antennae and wings than food-satiated individuals
Summary
Nutrition is of paramount importance in organismal development, and marginal resources will impose severe constraints on individuals in most natural populations. Variation in food intake can result in significant alteration to the normal pattern of resource allocation among various body parts or life-history stages [11]. In the long-lived caddisfly Glyhotaelius pellucidus, fewer resources at metamorphosis mean smaller wings and abdomen, but thorax size is maintained [14]. This variation is likely to be the result of different life history patterns i.e. short-lived species invest in the abdomen and reproductive investment, and long-lived species invest in the thorax and longevity
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