SummaryAnimal egg coloration has long provided a valuable testing ground for evolutionary ideas. A new study shows that female stink bugs can flexibly control the colour of their eggs depending on the prevailing conditions, including for protection from ultraviolet light
Animal colouration generally evolves via natural or sexual selection, or some combination of the two...
Insect eggs are exposed to a plethora of abiotic and biotic threats. Their survival depends on both ...
Published online: 20 August 2015. Abstract in English and GermanEgg camouflage may explain the adapt...
Behavioural plasticity can drive the evolution of new traits in animals. In oviparous species, plast...
Behavioural plasticity can drive the evolution of new traits in animals. In oviparous species, plast...
Behavioural plasticity can drive the evolution of new traits in animals. In oviparous species, plast...
SummaryThe color and patterning of animal eggs has important consequences for offspring survival. Th...
Behavioural plasticity can drive the evolution of new traits in animals. In oviparous species, plast...
SummaryThe color and patterning of animal eggs has important consequences for offspring survival. Th...
The colourful surface of birds’ eggshells varies dramatically between species, but the selective pre...
All organisms live in environments that are variable across space and time. Variation in selection a...
environmental variability, temporal dispersal, maternal effects, storage hypothesis, diapause, emerg...
The colourful surface of birds’ eggshells varies dramatically between species, but the selective pre...
Many insects raise their offspring on organic substrates or in the soil where microorganisms are abu...
Recent work suggests that the evolution of egg coloration may have been constrained in three importa...
Animal colouration generally evolves via natural or sexual selection, or some combination of the two...
Insect eggs are exposed to a plethora of abiotic and biotic threats. Their survival depends on both ...
Published online: 20 August 2015. Abstract in English and GermanEgg camouflage may explain the adapt...
Behavioural plasticity can drive the evolution of new traits in animals. In oviparous species, plast...
Behavioural plasticity can drive the evolution of new traits in animals. In oviparous species, plast...
Behavioural plasticity can drive the evolution of new traits in animals. In oviparous species, plast...
SummaryThe color and patterning of animal eggs has important consequences for offspring survival. Th...
Behavioural plasticity can drive the evolution of new traits in animals. In oviparous species, plast...
SummaryThe color and patterning of animal eggs has important consequences for offspring survival. Th...
The colourful surface of birds’ eggshells varies dramatically between species, but the selective pre...
All organisms live in environments that are variable across space and time. Variation in selection a...
environmental variability, temporal dispersal, maternal effects, storage hypothesis, diapause, emerg...
The colourful surface of birds’ eggshells varies dramatically between species, but the selective pre...
Many insects raise their offspring on organic substrates or in the soil where microorganisms are abu...
Recent work suggests that the evolution of egg coloration may have been constrained in three importa...
Animal colouration generally evolves via natural or sexual selection, or some combination of the two...
Insect eggs are exposed to a plethora of abiotic and biotic threats. Their survival depends on both ...
Published online: 20 August 2015. Abstract in English and GermanEgg camouflage may explain the adapt...
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