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Evolutionary fine-tuning of background-matching camouflage among geographical populations in the sandy beach tiger beetle

Nayuta Yamamoto, Teiji Sota

2020Proceedings of the Royal Society B Biological Sciences21 citationsDOIOpen Access PDF

Abstract

exhibits pronounced variation in elytral colour pattern among sandy habitats of different colour in the Japanese Archipelago. In this study, we performed digital image analysis with avian vision modelling to demonstrate that elytral luminance, which is attributed to proportions of elytral colour components, is fine-tuned to match local backgrounds. Field predation experiments with model beetles showed that better luminance matching resulted in a lower attack rate and corresponding lower mortality. Using restriction site-associated DNA (RAD) sequence data, we analysed the dispersal and evolution of colour pattern across geographical locations. We found that sand colour matching occurred irrespective of genetic and geographical distances between populations, suggesting that locally adapted colour patterns evolved after the colonization of these habitats. Given that beetle elytral colour patterns presumably have a quantitative genetic basis, our findings demonstrate that fine-tuning of background-matching camouflage to local habitat conditions can be attained through selection by visual predators, as predicted by the earliest proponent of natural selection.

Topics & Concepts

CamouflageBiological dispersalHabitatPredationBiologyNatural selectionAdaptation (eye)Selection (genetic algorithm)EcologyLocal adaptationEvolutionary biologyPopulationArtificial intelligenceComputer scienceNeuroscienceSociologyDemographyInsect and Arachnid Ecology and BehaviorAnimal Behavior and ReproductionPlant and animal studies
Evolutionary fine-tuning of background-matching camouflage among geographical populations in the sandy beach tiger beetle | Litcius