Abstract
Lepidopteran insects have provided excellent study systems for understanding adaptive phenotypic plasticity. Although there are a few well-studied examples of adult plasticity among tropical butterflies, our understanding of plasticity of larval and pupal stages is largely restricted to temperate butterflies. The environmental parameters inducing phenotypic plasticity and the selective pressures acting on phenotypes are likely to differ across tropical and temperate climate regimes. We tested the influence of relative humidity (RH), a prominent yet under-appreciated tropical climatic component, along with pupation substrate, larval development time, pupal sex and weight in determining pupal colour in the tropical satyrine butterfly Mycalesis mineus. Pupae of this butterfly are either brown or green or very rarely intermediate. Larvae were reared at high (85%) and low (60%) RH at a constant temperature. Proportions of green and brown pupae were expected to vary across low and high RH and pupation substrates in order to enhance crypsis. Brown pupae were more common at low RH than at high RH, as predicted, and developed faster than green pupae. Pupal colour was correlated with pupation substrate. Choice of pupation substrate differed across RH treatments. It is unclear whether pupal colour influences substrate selection or whether substrate influences pupal colour. Our study underscores the need for further work to understand the basis of pupal plasticity in tropical butterflies.
Highlights
Seasonal environments can exert strong and varied selection pressures on plants and animals
Brown pupae were fewer in comparison to green pupae across both low (Brown: Green; 62: 600) and high relative humidity (RH) (Brown: Green; 5: 541)
Brown pupae were more frequent at low RH (62 / 662) compared to high RH (5 / 546) (GLM: P < 0.001, z = -4.143) (Fig 2, see Analysis A in S1 File)
Summary
Seasonal environments can exert strong and varied selection pressures on plants and animals. Phenotypic plasticity, where environmental cues determine the developing phenotype, occurs widely in organisms adapting to varying environments [1,2]. Adaptive phenotypic plasticity, where environmental cues induce development of phenotypes with enhanced fitness in different environments, is thought to be widespread in nature [3]. Insects in general [4,5], and butterflies in particular [6], provide well-characterized examples of adaptive phenotypic plasticity. The adaptive significance of discrete seasonal wing morphs has been extensively studied in many butterfly species Green pupae !16 hours !25 ̊C 18 ̊C >60%. Brown/Pink pupae 8 hours
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