Phenotypic plasticity in insects: the effects of substrate color on the coloration of two ground-hopper species

The question of how phenotypic variation is maintained within populations has long been a central issue in evolutionary biology. Most of these studies focused on the maintenance of genetic variability, but the phenotype of organisms may also be influenced by environmental cues experienced during ont...

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Bibliographic Details
Published in:Evolution & development 2008-05, Vol.10 (3), p.350-359
Main Authors: Hochkirch, Axel, Deppermann, Jana, Gröning, Julia
Format: Article
Language:English
Subjects:
Adaptation, Physiological - physiology
Analysis of Variance
Animal populations
Animals
Body Temperature Regulation - physiology
Color
Ecosystem
Evolutionary biology
Genotype & phenotype
Germany
Insects
Orthoptera - physiology
Phenotype
Pigmentation - physiology
Species Specificity
Substrates
Temperature
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Summary:The question of how phenotypic variation is maintained within populations has long been a central issue in evolutionary biology. Most of these studies focused on the maintenance of genetic variability, but the phenotype of organisms may also be influenced by environmental cues experienced during ontogeny. Color polymorphism has received particular attention in evolutionary studies as it has strong fitness consequences. However, if body coloration is influenced by the environment, any conclusions on evolutionary consequences of fitness trade-offs can be misleading. Here we present data from a laboratory experiment on the influence of substrate color on three aspects of the coloration of two ground-hopper species, Tetrix subulata and Tetrix ceperoi. We reared hatchlings either on dark or on light substrates, using a split-brood design. Although the type of pronotal pattern changed mainly in response to nymphal development, the basic color was strongly influenced by the substrate color. In both species, black and dark olive color morphs were found more frequently on the dark substrate, whereas the gray color morph dominated on the light substrate. These findings have considerable implications for our understanding of color morph evolution as they show that color polymorphism may not only be maintained by natural selection acting on discrete color morphs, but also by phenotypic plasticity, which enables organisms to adjust to the environmental conditions experienced during ontogeny. This facultative morphology is opposing to the prevailing view of color morph adaptation, which assumes a purely genetic determination and co-evolution of discrete color morphs with life history traits.
ISSN:1520-541X
1525-142X
DOI:10.1111/j.1525-142X.2008.00243.x