Abstract

In holometabolous insects, adult fitness depends on the quantity and quality of resource acquired at the larval stage. Diverse ecological factors can influence larval resource acquisition, but little is known about how these factors in the larval environment interact to modulate larval development and adult traits.Here, we addressed this gap by considering how key ecological factors of larval density, diet nutritional composition, and microbial growth interact to modulate pupal and adult traits in a polyphagous tephritid fruit fly, Bactrocera tryoni (aka “Queensland fruit fly”).Larvae were allowed to develop at two larval densities (low and high), on diets that were protein‐rich, standard, or sugar‐rich and prepared with or without preservatives to inhibit or encourage microbial growth, respectively.Percentage of adult emergence and adult sex ratio were not affected by the interaction between diet composition, larval density, and preservative treatments, although low preservative content increased adult emergence in sugar‐rich diets but decreased adult emergence in protein‐rich and standard diets.Pupal weight, male and female adult dry weight, and female (but not male) body energetic reserves were affected by a strong three‐way interaction between diet composition, larval density, and preservative treatment, whereby in general, low preservative content increased pupal weight and female lipid storage in sugar‐rich diets particularly at low‐larval density and differentially modulated the decrease in adult body weight caused by larval density across diets.Our findings provide insights into the ecological factors modulating larval development of a polyphagous fly species and shed light into the ecological complexity of the larval developmental environment in frugivorous insects.

Highlights

  • Resources acquired at the early stages of development determine the fitness of adults and their offspring (Rowe & Houle, 1996)

  • Male and female adult dry weight, and female body energetic reserves were affected by a strong three‐way interaction between diet composition, larval density, and preservative treatment, whereby in general, low preservative content increased pupal weight and female lipid storage in sugar‐rich diets at low‐larval density and differentially modulated the decrease in adult body weight caused by larval density across diets

  • By understanding how larval density, diet composition, and microbial growth interact, our findings provide insights into the ecological factors modulating the ontogeny of many frugivorous insect species

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Summary

| INTRODUCTION

Resources acquired at the early stages of development determine the fitness of adults and their offspring (Rowe & Houle, 1996). | 6343 complexity has yet been performed, and key questions remain, such as “Can microbial growth in the larval environment mitigate (or accentuate) density‐ and diet composition‐dependent effects on larval development?”; “How does the three‐way interaction between larval density, diet composition, and microbial growth affect fitness‐related traits of individuals?”. To address these questions, we manipulated larval density (“low” and “high”), larval diet composition through manipulating the ratio of dietary yeast and sugar (Y:S ratio), and preservative content (“low” and “high”) in the larval environment of a polyphagous fruit fly pest, Bactrocera tryoni (Froggatt) (Diptera: Tephritidae; aka “Queensland fruit fly”). By understanding how larval density, diet composition, and microbial growth interact, our findings provide insights into the ecological factors modulating the ontogeny of many frugivorous insect species

| MATERIALS AND METHODS
High adult emergence in protein‐rich diets
Findings
| DISCUSSION
| CONCLUSION

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