Kate L. A. Marshall scite author profile

BackgroundCamouflage patterns that hinder detection and/or recognition by antagonists are widely studied in both human and animal contexts. Patterns of contrasting stripes that purportedly degrade an observer's ability to judge the speed and direction of moving prey ('motion dazzle') are, however, rarely investigated. This is despite motion dazzle having been fundamental to the appearance of warships in both world wars and often postulated as the selective agent leading to repeated patterns on many animals (such as zebra and many fish, snake, and invertebrate species). Such patterns often appear conspicuous, suggesting that protection while moving by motion dazzle might impair camouflage when stationary. However, the relationship between motion dazzle and camouflage is unclear because disruptive camouflage relies on high-contrast markings. In this study, we used a computer game with human subjects detecting and capturing either moving or stationary targets with different patterns, in order to provide the first empirical exploration of the interaction of these two protective coloration mechanisms.ResultsMoving targets with stripes were caught significantly less often and missed more often than targets with camouflage patterns. However, when stationary, targets with camouflage markings were captured less often and caused more false detections than those with striped patterns, which were readily detected.ConclusionsOur study provides the clearest evidence to date that some patterns inhibit the capture of moving targets, but that camouflage and motion dazzle are not complementary strategies. Therefore, the specific coloration that evolves in animals will depend on how the life history and ontogeny of each species influence the trade-off between the costs and benefits of motion dazzle and camouflage.

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Wall lizards display conspicuous signals to conspecifics and reduce detection by avian predators

Marshall

Stevens

2014

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Visual signals are often under conflicting selection to be hidden from predators while being conspicuous to mates and rivals. Here, we investigated whether 3 different island populations of Aegean wall lizards (Podarcis erhardii) with variable coloration among diverse island habitats exhibit simultaneous camouflage and sexual signals. We examined whether signals appear better tuned to conspecific vision as opposed to that of avian predators, and whether background-matching camouflage and sexual signals are partitioned to specific body regions. This could facilitate both covert sexual signaling and camouflage according to the viewing perspectives of predators and conspecifics. We found that lizards typically appeared twice as conspicuous to conspecifics than to avian predators against the same visual background, largely due to lizards’ enhanced sensitivity to ultraviolet, suggesting that P. erhardii signals are tuned to conspecific vision to reduce detection by predators. Males were more conspicuous than females to both predators and conspecifics. In 2 populations, male backs were relatively more camouflaged to predators compared to signaling flanks, whereas in females, exposed and concealed surfaces were camouflaged to predators and generally did not differ in background matching. These findings indicate that lizard coloration evolves under the competing demands of natural and sexual selection to promote signals that are visible to conspecifics while being less perceptible to avian predators. They also elucidate how interactions between natural and sexual selection influence signal detectability and partitioning to different body regions, highlighting the importance of considering receiver vision, viewing perspectives, and signaling environments in studies of signal evolution.

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Microhabitat choice in island lizards enhances camouflage against avian predators

Marshall

Philpot

Stevens

2016

Sci Rep

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Camouflage can often be enhanced by genetic adaptation to different local environments. However, it is less clear how individual behaviour improves camouflage effectiveness. We investigated whether individual Aegean wall lizards (Podarcis erhardii) inhabiting different islands rest on backgrounds that improve camouflage against avian predators. In free-ranging lizards, we found that dorsal regions were better matched against chosen backgrounds than against other backgrounds on the same island. This suggests that P. erhardii make background choices that heighten individual-specific concealment. In achromatic camouflage, this effect was more evident in females and was less distinct in an island population with lower predation risk. This suggests that behavioural enhancement of camouflage may be more important in females than in sexually competing males and related to predation risk. However, in an arena experiment, lizards did not choose the background that improved camouflage, most likely due to the artificial conditions. Overall, our results provide evidence that behavioural preferences for substrates can enhance individual camouflage of lizards in natural microhabitats, and that such adaptations may be sexually dimorphic and dependent on local environments. This research emphasizes the importance of considering links between ecology, behaviour, and appearance in studies of intraspecific colour variation and local adaptation.

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Revealed by conspicuousness: distractive markings reduce camouflage

Stevens

Marshall

Troscianko

et al. 2012

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Imperfectly Camouflaged Avian Eggs: Artefact or Adaptation?

Stoddard

Marshall

Kilner

2011

Avian Biology Research

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For many birds, the fight for survival begins at the egg stage: avoiding predation is paramount. At a broad phylogenetic level, selection by predators for egg camouflage appears to be the primary driver of variation in egg colouration and patterning. Despite this, experiments at fine-scale taxonomic levels have largely failed to find support for adaptively camouflaged egg appearance. How are we to resolve this baffling contradiction? Here we present and evaluate five explanations which are not mutually exclusive and which may explain why eggs appear imperfectly camouflaged at the genus or species level. First, imperfect camouflage may be an artefact of imperfect measurements. In studies of egg camouflage, researchers have consistently neglected to account for predator vision, and only rarely have egg appearance and camouflage been quantified carefully and objectively. Recalibrating our assessment of egg camouflage may answer many questions, but it is unlikely to wholly explain why many eggs do not appear seamlessly cryptic. Instead, imperfect camouflage may stem from mechanistic constraints on pigment production in some avian lineages or may be a consequence of selection for anti-microbial protection. Or perhaps the manifold demands of the egg and selection for functions other than protective concealment have tugged the egg phenotype away from an ideally cryptic appearance. Finally, imperfect egg camouflage may occur if other forms of defence are simply more effective, or if a diverse brigade of predators imposes different selective pressures on egg appearance. A combination of these factors is likely involved. Avian eggs provide an excellent model system for investigating animal camouflage, and recent advances in numerous fields make this area particularly ripe for future research.

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Kate L. A. Marshall

Motion dazzle and camouflage as distinct anti-predator defenses

Wall lizards display conspicuous signals to conspecifics and reduce detection by avian predators

Microhabitat choice in island lizards enhances camouflage against avian predators

Revealed by conspicuousness: distractive markings reduce camouflage

Imperfectly Camouflaged Avian Eggs: Artefact or Adaptation?

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