2016
DOI: 10.1007/s10682-016-9851-6
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Parameterising a public good: how experiments on predation can be used to predict cheat frequencies

Abstract: Chemical defence is superficially easy to understand as a means for individuals to protect themselves from enemies. The evolution of chemical defence is however potentially complex because such defences may cause the generation of a public good, protecting members of the population as a whole as well as individuals that deploy toxins defensively. If a public good of protection exists, it may be exploited and degraded by ''cheats'' that do not invest in defence. This can in turn lead to complex frequency (and d… Show more

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Cited by 5 publications
(10 citation statements)
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“…A further complication in chemical defense evolution is the interplay between individual and public good (Jones et al, 2016). In this respect, our data demonstrating a broad-sense genetic component in the defense trait coupled with patterns of natural variation of cyanogen levels in Heliconius erato populations are consistent with balancing selection related to automimicry, in which automimic "cheaters" exploit the protection given by their warning coloration with investing less in chemical defenses themselves.…”
Section: Evolutionary Processes Shaping Chemical Defense Variation: Tsupporting
confidence: 70%
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“…A further complication in chemical defense evolution is the interplay between individual and public good (Jones et al, 2016). In this respect, our data demonstrating a broad-sense genetic component in the defense trait coupled with patterns of natural variation of cyanogen levels in Heliconius erato populations are consistent with balancing selection related to automimicry, in which automimic "cheaters" exploit the protection given by their warning coloration with investing less in chemical defenses themselves.…”
Section: Evolutionary Processes Shaping Chemical Defense Variation: Tsupporting
confidence: 70%
“…However, it is important to note that contrasting selective agents could be acting on the defense trait associated with the warning signal, both traits equally required for aposematism and mimicry. The selection pressures acting on chemical defense traits can be expected to be complex and dynamic (Briolat et al, 2019;Jones et al, 2016;Speed et al, 2012). The role of predators as the major selective agent is clearly a key component of possible adaptive evolutionary processes herein (Briolat et al, 2019;Ruxton et al, 2018).…”
Section: Discussionmentioning
confidence: 99%
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“…Insects and other small invertebrates are often sufficiently chemically defended to deter many predators (Eisner, Eisner, & Siegler, ), and this chemical defense is often correlated with aggregation and distinctive aposematic warning signals (Sillen‐Tullburg, ; Ruxton & Sherratt, ). Aggregation is considered to be an important aspect of chemical defense because there is considerable evidence of a “public good” element (Jones, Speed, & Mappes, ). Specifically, aggregation of chemically defended prey is often expected because a predator that experiences an adverse reaction to tasted or ingested chemicals after attacking one individual is less likely to attack similar‐looking neighbors (e.g., Sillén‐Tullberg & Leimar, ).…”
Section: Introductionmentioning
confidence: 99%