Thorin L. Geister scite author profile

BackgroundThe ability to withstand thermal stress is considered to be of crucial importance for individual fitness and species' survival. Thus, organisms need to employ effective mechanisms to ensure survival under stressful thermal conditions, among which phenotypic plasticity is considered a particularly quick and effective one.Methodology/Principal FindingsIn a series of experiments we here investigate phenotypic adjustment in temperature stress resistance following environmental manipulations in the butterfly Bicyclus anynana. Cooler compared to warmer acclimation temperatures generally increased cold but decreased heat stress resistance and vice versa. In contrast, short-time hardening responses revealed more complex patterns, with, e.g., cold stress resistance being highest at intermediate hardening temperatures. Adult food stress had a negative effect on heat but not on cold stress resistance. Additionally, larval feeding treatment showed interactive effects with adult feeding for heat but not for cold stress resistance, indicating that nitrogenous larval resources may set an upper limit to performance under heat stress. In contrast to expectations, cold resistance slightly increased during the first eight days of adult life. Light cycle had marginal effects on temperature stress resistance only, with cold resistance tending to be higher during daytime and thus active periods.Conclusions/SignificanceOur results highlight that temperature-induced plasticity provides an effective tool to quickly and strongly modulate temperature stress resistance, and that such responses are readily reversible. However, resistance traits are not only affected by ambient temperature, but also by, e.g., food availability and age, making their measurement challenging. The latter effects are largely underexplored and deserve more future attention. Owing to their magnitude, plastic responses in thermal tolerance should be incorporated into models trying to forecast effects of global change on extant biodiversity.

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Validated Assessment Scales for the Lower Face

Narins

et al. 2012

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Validated Assessment Scales for the Upper Face

et al. 2012

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Validated Assessment Scales for the Mid Face

Carruthers

Flynn

Geister

et al. 2012

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Validated Composite Assessment Scales for the Global Face

Rzany

Carruthers²,

Carruthers

et al. 2012

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Adult nutrition and butterfly fitness: effects of diet quality on reproductive output, egg composition, and egg hatching success

et al. 2008

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Background: In the Lepidoptera it was historically believed that adult butterflies rely primarily on larval-derived nutrients for reproduction and somatic maintenance. However, recent studies highlight the complex interactions between storage reserves and adult income, and that the latter may contribute significantly to reproduction. Effects of adult diet were commonly assessed by determining the number and/or size of the eggs produced, whilst its consequences for egg composition and offspring viability were largely neglected (as is generally true for insects). We here specifically focus on these latter issues by using the fruit-feeding tropical butterfly Bicyclus anynana, which is highly dependent on adult-derived carbohydrates for reproduction.

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Testing the beneficial acclimation hypothesis: temperature effects on mating success in a butterfly

Geister

Fischer

2007

Behavioral Ecology

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Validated Assessment Scale for Neck Volume

Sattler

Carruthers

et al. 2012

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Thorin L. Geister

Environmental Effects on Temperature Stress Resistance in the Tropical Butterfly Bicyclus Anynana

Validated Assessment Scales for the Lower Face

Validated Assessment Scales for the Upper Face

Validated Assessment Scales for the Mid Face

Validated Composite Assessment Scales for the Global Face

Adult nutrition and butterfly fitness: effects of diet quality on reproductive output, egg composition, and egg hatching success

Testing the beneficial acclimation hypothesis: temperature effects on mating success in a butterfly

Validated Assessment Scale for Neck Volume

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