Abstract
Phytophagous insects may be expected to prefer host-plant species on which their larvae perform best, but this has rarely been explored in grass-feeding butterflies. We explored links between oviposition preferences, larval food preferences, and performance (larval survival and development time, pupal mass, and adult longevity) on 18 species of grass in the common evening brown, Melanitis leda L. (Nymphalidae: Melanitini), a tropical butterfly that has been recorded from a large number of species of grass. Melanitis leda oviposited on all of the grass species offered in choice experiments, and larvae were able to develop to the adult stage on almost all of them. Oviposition preferences were for species of plants on which larval survival was higher, but were not correlated with larval development. The mother's choice of host plant appeared to affect performance of the resulting adults as large butterflies had longer life spans. Ovipositing females appeared to adjust clutch size and position of their eggs on a plant depending on plant traits. Larval survival was only marginally correlated with larval growth rate on the different species of plants. Larvae showed host-plant preferences that were not correlated with adult oviposition preferences, larval survival, or larval growth. Overall, while M. leda can utilize a large number of species of grass, it shows marked oviposition preferences. Apparent fine-tuning of clutch size and positioning of eggs on plants with different traits might be another adaptation associated with using a large number of species of plants. We conclude that this grass feeding butterfly selects oviposition sites that maximize the chances of their larvae surviving.
Highlights
The study of interactions between phytophagous insects and plants is important for understanding global biodiversity and ecosystem functioning (Ehrlich & Raven, 1964; Gilbert, 1979; Vialatte et al, 2010; Davis et al, 2013)
We examined three measures of larval development: development time from egg-hatch to pupation, pupal fresh mass, and growth rate calculated as pupal mass to the power 1/3 divided by development time
We found no trends when the choice of small larvae was tested against survival, and when choice of large larvae was tested against growth rate
Summary
The study of interactions between phytophagous insects and plants is important for understanding global biodiversity and ecosystem functioning (Ehrlich & Raven, 1964; Gilbert, 1979; Vialatte et al, 2010; Davis et al, 2013). Phytophagous insects are presumed to be under selection to evolve suites of traits that promote the matching of preference and performance (Gripenberg et al, 2010). Oviposition preferences are not always strongly correlated with particular measures of larval performance, especially in host-plant generalists (Gripenberg et al, 2010). This is perhaps in part because host-plant generalists are under selection to make oviposition decisions that are adaptive over a wide range of host-plant species, and may use oviposition cues that are not optimal for each particular potential host. While more specialized dicotyledonous plant feeders often use particular chemicals that are characteristic of particu-
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