Influence of haemosporidian infection status on structural and carotenoid‐based colouration in the blue tit<i>Cyanistes caeruleus</i>

Janas, Katarzyna; Podmokła, Edyta; Lutyk, Dorota; Dubiec, Anna; Gustafsson, Lars; Cichoń, Mariusz; Drobniak, Szymon M.

doi:10.1111/jav.01840

Cited by 12 publications

(9 citation statements)

References 51 publications

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“…In a Spanish blue tit population, infection with avian malaria was negatively correlated with metrics of yellow breast coloration in both females and malesbirds infected by multiple genera of parasites were paler (del Cerro et al, 2010). The opposite was true in a Swedish population -infected blue tits had higher levels of UV-blue crown coloration (greater brightness and UV chroma) and brighter yellow breast plumage (Janas et al, 2018). Experimental work is thus necessary to explore this question in greater depth.…”

Section: Evidence That Female Blue Tit Coloration Signals Resistance mentioning

confidence: 99%

Evolution of female coloration: What have we learned from birds in general and blue tits in particular

Doutrelant

Fargevieille

Grégoire

2020

Advances in the Study of Behavior

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Section: Evidence That Female Blue Tit Coloration Signals Resistance mentioning

confidence: 99%

Evolution of female coloration: What have we learned from birds in general and blue tits in particular

Doutrelant

Fargevieille

Grégoire

2020

Advances in the Study of Behavior

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“…Lack of the effect of the treatment on the body mass and PHA response's genetic parameters is interesting on its own: it emphasizes that different traits (even partially linked, like body weight and tarsus length) can exhibit very contrasting responses to early developmental conditions. Also, body weight in birds is often interpreted as describing more than just individual body size: usually large variation in residual body weights (when regressed against individual body sizes) emphasizes its complex nature and the fact that body weight should be regarded more as a body condition measure rather than simply body size proxy (Labocha and Hayes, 2012;Janas et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

Differential effects of steroid hormones on levels of genetic variance in a wild bird: possible mechanism of maternal-effects x genetic variance interaction?

Drobniak¹,

Sudyka²,

Cichoń³

et al. 2020

Preprint

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Genetic variation is one of the key concepts in evolutionary biology and an important prerequisite of evolutionary change. Still, we know very little about processes that modulate its levels in wild populations. In particular – we still are to understand why genetic variances often depend on environmental conditions. One of possible environment-sensitive modulators of observed levels of genetic variance are maternal effects. In this study we attempt to experimentally test the hypothesis that maternally-transmitted agents (e.g. hormones) may influence the expression of genetic variance in quantitative traits in the offspring. We manipulated the levels of steroid hormones (testosterone and corticosterone) in eggs laid by blue tits in a wild population. Our experimental setup allowed for full crossing of genetic and rearing effects with the experimental manipulation. We observed, that birds treated with corticosterone exhibited a significant decrease in genetic variance of tarsus length. We also observed less pronounced, marginally significant effects of hormonal administration on the patterns of genetic correlations between traits expressed under varying pre-hatching hormonal conditions. Our study indicates, that maternally transmitted substances such as hormones may have measurable impact on the levels of genetic variance – and hence, on the evolutionary potential of quantitative traits.

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“…We took 5 measurements of the white covert’s dot and 5 measurement of the blue part of outer vfane. Each crown feathers’ sample was measured 10 times (for more details on measurement see Janas et al. 2018 ).…”

Section: Methodsmentioning

confidence: 99%

Sexual dichromatism, size dimorphism, and microscale anatomy of white wing stripe in blue tits

et al. 2021

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Achromatic patches are a common element of plumage patterns in many bird species and there is growing body of evidence that in many avian taxa they can play a signalling role in mate choice. Although the blue tit Cyanistes caeruleus is a well-established model species in the studies on colouration, its white wing patch has never been examined in the context of sex-specific trait expression. In this exploratory study, we examined sexual size dimorphism and dichromatism of greater covert’s dots creating white wing patch and analysed its correlations with current body condition and crown colouration - a trait with established role in sexual selection. Further, we qualitatively analysed microstructural barb morphology underlying covert’s colouration. We found significant sexual dimorphism in the dot size independent of covert size, and sexual dichromatism in both white dot and blue outer covert’s vane spectral characteristics. Internal structure of covert barbs within the white dot was similar to the one found in barbs from the blue part, i.e. with a medullary area consisting of dead keratinocytes containing channel-type ß-keratin spongy nanostructure and centrally located air cavities. However, it lacked melanosomes which was the main observed difference. Importantly, UV chroma of covert’s blue vane was positively correlated with crown UV chroma and current condition (the latter only in males), which should be a premise for further research on the signal function of the wing stripe.

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Influence of haemosporidian infection status on structural and carotenoid‐based colouration in the blue titCyanistes caeruleus

Cited by 12 publications

References 51 publications

Evolution of female coloration: What have we learned from birds in general and blue tits in particular

Evolution of female coloration: What have we learned from birds in general and blue tits in particular

Differential effects of steroid hormones on levels of genetic variance in a wild bird: possible mechanism of maternal-effects x genetic variance interaction?

Sexual dichromatism, size dimorphism, and microscale anatomy of white wing stripe in blue tits

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