Eggshell pigment composition covaries with phylogeny but not with life history or with nesting ecology traits of British passerines

Kaat Brulez, Ivan Mikšík, Christopher R. Cooney, Mark E. Hauber, P. George Lovell, Golo Maurer, Steven J. Portugal, Douglas Russell, Silas J. Reynolds, Phillip Cassey

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Abstract

No single hypothesis is likely to explain the diversity in eggshell coloration and patterning across birds, suggesting that eggshell appearance is most likely to have evolved to fulfill many nonexclusive functions. By controlling for nonindependent phylogenetic associations between related species, we describe this diversity using museum eggshells of 71 British breeding passerine species to examine how eggshell pigment composition and concentrations vary with phylogeny and with life-history and nesting ecology traits. Across species, concentrations of biliverdin and protoporphyrin, the two main pigments found in eggshells, were strongly and positively correlated, and both pigments strongly covaried with phylogenetic relatedness. Controlling for phylogeny, cavity-nesting species laid eggs with lower protoporphyrin concentrations in the shell, while higher biliverdin concentrations were associated with thicker eggshells for species of all nest types. Overall, these relationships between eggshell pigment concentrations and the biology of passerines are similar to those previously found in nonpasserine eggs, and imply that phylogenetic dependence must be considered across the class in further explanations of the functional significance of avian eggshell coloration.
Original languageEnglish
Pages (from-to)1637–1645
Number of pages9
JournalEcology and Evolution
Volume6
Issue number6
DOIs
Publication statusPublished - 12 Feb 2016

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eggshell
passerine
egg shell
pigment
phylogeny
life history
pigments
ecology
protoporphyrin
phylogenetics
egg
color
relatedness
museum
nest
cavity
breeding
nests
shell
bird

Cite this

Brulez, Kaat ; Mikšík, Ivan ; Cooney, Christopher R. ; Hauber, Mark E. ; Lovell, P. George ; Maurer, Golo ; Portugal, Steven J. ; Russell, Douglas ; Reynolds, Silas J. ; Cassey, Phillip. / Eggshell pigment composition covaries with phylogeny but not with life history or with nesting ecology traits of British passerines. In: Ecology and Evolution. 2016 ; Vol. 6, No. 6. pp. 1637–1645.
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Brulez, K, Mikšík, I, Cooney, CR, Hauber, ME, Lovell, PG, Maurer, G, Portugal, SJ, Russell, D, Reynolds, SJ & Cassey, P 2016, 'Eggshell pigment composition covaries with phylogeny but not with life history or with nesting ecology traits of British passerines', Ecology and Evolution, vol. 6, no. 6, pp. 1637–1645. https://doi.org/10.1002/ece3.1960

Eggshell pigment composition covaries with phylogeny but not with life history or with nesting ecology traits of British passerines. / Brulez, Kaat; Mikšík, Ivan; Cooney, Christopher R.; Hauber, Mark E.; Lovell, P. George; Maurer, Golo; Portugal, Steven J.; Russell, Douglas; Reynolds, Silas J.; Cassey, Phillip.

In: Ecology and Evolution, Vol. 6, No. 6, 12.02.2016, p. 1637–1645.

Research output: Contribution to journalArticle

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AU - Brulez, Kaat

AU - Mikšík, Ivan

AU - Cooney, Christopher R.

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AU - Lovell, P. George

AU - Maurer, Golo

AU - Portugal, Steven J.

AU - Russell, Douglas

AU - Reynolds, Silas J.

AU - Cassey, Phillip

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AB - No single hypothesis is likely to explain the diversity in eggshell coloration and patterning across birds, suggesting that eggshell appearance is most likely to have evolved to fulfill many nonexclusive functions. By controlling for nonindependent phylogenetic associations between related species, we describe this diversity using museum eggshells of 71 British breeding passerine species to examine how eggshell pigment composition and concentrations vary with phylogeny and with life-history and nesting ecology traits. Across species, concentrations of biliverdin and protoporphyrin, the two main pigments found in eggshells, were strongly and positively correlated, and both pigments strongly covaried with phylogenetic relatedness. Controlling for phylogeny, cavity-nesting species laid eggs with lower protoporphyrin concentrations in the shell, while higher biliverdin concentrations were associated with thicker eggshells for species of all nest types. Overall, these relationships between eggshell pigment concentrations and the biology of passerines are similar to those previously found in nonpasserine eggs, and imply that phylogenetic dependence must be considered across the class in further explanations of the functional significance of avian eggshell coloration.

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