Evolutionary drivers of seasonal plumage colours: colour change by moult correlates with sexual selection, predation risk and seasonality across passerines

McQueen, Alexandra; Kempenaers, Bart; Dale, James; Vâlcu, Mihai; Emery, Zachary Taylor; Dey, Cody J.; Peters, Anne; Delhey, Kaspar

doi:10.1111/ele.13375

Cited by 36 publications

(69 citation statements)

References 94 publications

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“…Prereproductive females can avoid mating harassment by staying away from the breeding area (Hinnekint 1987;Corbet 1999), displaying refusal behavior (Chan et al 2009), signaling unwillingness via pheromones (Ferrero et al 2013), mimicking male coloration (Hammers et al 2009;Huang and Reinhard 2012;Willink et al 2019), or avoiding male detection by inconspicuous coloration (Baldauf et al 2011;Fincke 2015;Vilela et al 2017). Dull coloration further reduces predator and prey detection, which in turn increases survival and foraging (Outomuro et al 2017;McQueen et al 2019). Dull coloration of sexually immature females therefore has evolved via natural and sexual selection and is predominant in nature (Corbet 1999;McQueen et al 2019).…”

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confidence: 99%

“…Dull coloration further reduces predator and prey detection, which in turn increases survival and foraging (Outomuro et al 2017;McQueen et al 2019). Dull coloration of sexually immature females therefore has evolved via natural and sexual selection and is predominant in nature (Corbet 1999;McQueen et al 2019). Yet surprisingly, conspicuous female coloration occurs in some prereproductive females, especially in damselflies (Corbet 1999;Hammers et al 2009), with this phenomenon remains an evolutionary enigma.…”

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confidence: 99%

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Female prereproductive coloration reduces mating harassment in damselflies

Khan

2020

Evolution

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Conspicuous female coloration can evolve through male mate choice or via female-female competition thereby increasing female mating success. However, when mating is not beneficial, such as in pre-reproductive females, selection should favor cryptic rather than conspicuous coloration to avoid male detection and the associated harassment. Nevertheless, conspicuous female coloration occurs in many prereproductive animals, and its evolution remains an enigma. Here, I studied conspicuous female coloration in Agriocnemis femina damselflies, in which the conspicuous red color of the immature females changes to a less conspicuous green approximately a week after their emergence. I measured body size, weight, and egg numbers of the female morphs and found that red females are smaller and lighter and do not carry developed eggs. Finally, I calculated the occurrence frequency and mating frequency of red and green females in several populations over a three-year period. The results demonstrate that red females mated less frequently than green females even when red females were the abundant morph in the populations. I concluded that conspicuous female coloration is likely to function as a warning signal of sexual unprofitability, thereby reducing sexual harassment for females and unprofitable mating for males.

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confidence: 99%

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Female prereproductive coloration reduces mating harassment in damselflies

Khan

2020

Evolution

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“…One straightforward overarching prediction that can already be made is that differences in conspicuousness between exposed and hidden body parts should be more marked for species exposed to higher predation risk, such as smaller species that inhabit open habitats (McQueen et al 2019). Future work should therefore move beyond the identification of general patterns (as was the intention here) and try to make sense of variation between species or clades.…”

Section: Resultsmentioning

confidence: 99%

“…These should spell out why different ecological conditions should lead to the evolution of different kinds of spatial arrangements of conspicuously coloured body parts. One straightforward overarching prediction that can already be made is that differences in conspicuousness between exposed and hidden body parts should be more marked for species exposed to higher predation risk, such as smaller species that inhabit open habitats (McQueen et al 2019). However, whether and how conspicuousness translates into higher predation risk across species can vary substantially (Götmark 1994, Götmark and Hohlfält 1995, Götmark 1997, Huhta et al 2003, Post and Götmark 2006, McQueen et al 2017, Cain et al 2019) and this may further obscure any general patterns.…”

Section: Resultsmentioning

confidence: 99%

Revealing the colourful side of birds: spatial distribution of conspicuous plumage colours on the body of Australian birds

Delhey

2020

Journal of Avian Biology

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In many species of birds, different body parts often display very different colours. This spatial distribution of coloured plumage patches may be determined, among other factors, by the balance between being cryptic to predators, and conspicuous to intended receivers. If this is the case, ventral and anterior body parts in birds -which are less visible to predators but more prominent to conspecifics -should present more conspicuous and sexually dichromatic plumage colours. Here, I test these predictions using reflectance spectrometric measurements of standardised plumage patches across males and females for nearly an entire avifauna (Australian landbirds, n = 538 species). My data show that, as predicted, conspicuous and sexually dichromatic colours are mainly located near the head, while the plumage of the back is the most cryptic. One clear exception to this pattern is the conspicuous rump coloration. In many species, this patch can be concealed by wings, and therefore exposed only when necessary. In addition, conspicuous rump coloration could deflect or confuse predators in case of attack. However, there is considerable variation across species, and this makes position on the body a very poor predictor of plumage elaboration (R 2 < 0.02). Future studies should try to determine whether differences between species in the distribution of colours across the plumage are due to variation in ecological factors (predation risk, habitat, etc.).

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“…(a) Body mass (log 10 -transformed, N = 1,287 species) was obtained mainly from Dunning et al (Dunning, 2008) and Wilman et al (2014) as collated by Mcqueen et al (2019). (b) Migration distance (in km, data for N = 1,315 species) was obtained from Dufour et al (2020) (variable called 'distance_quanti_ALL' in their dataset).…”

Section: Other Explanatory Variablesmentioning

confidence: 99%