On the relationship between nest concealment and the conspicuous coloration of female passerines: a test of Wallace’s hypothesis
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Published:
Nov 26, 2021
Keywords:
social selection, macroevolution, behavior, breeding site
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Abstract
Alfred Russel Wallace hypothesized that the use of cavity or dome nests releases incubating birds from predation risk, and that this allows the evolution of conspicuous coloration in females. By this hypothesis, females that use open nests are subject to strong selection for crypsis. Here, we test the validity of Wallace’s proposed evolutionary correlation between nest type and conspicuous coloration in females across the largest avian radiation, the Passeriformes, using phylogenetic comparative methods. We also test an alternate hypothesis that cavitynesting results in greater conspicuousness because competition for cavities is stronger than for other nest sites, and such competition can drive social selection on female plumage. By this
hypothesis, dome-nesting females should generally be less conspicuous than cavity-nesting species. We found no support for Wallace’s hypothesis that concealed nests yield conspicuous plumage while open nests yield dull plumage, and some support for the social selection hypothesis in smaller-bodied, gregarious species. While our analyses do not support the core part of Wallace’s hypothesis, they corroborate his contention that evolutionary transitions in nest type are rare, indicating that nest types may influence macroevolutionary selective regimes for other traits.
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McEntee JP, Zelazny Z, Burleigh JG. On the relationship between nest concealment and the conspicuous coloration of female passerines: a test of Wallace’s hypothesis. REMCB [Internet]. 2021Nov.26 [cited 2024Jul.3];42(2). Available from: https://remcb-puce.edu.ec/remcb/article/view/906
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Artículos Científicos
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References
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Amundsen T, Pärn H. 2006. Female coloration: review of functional and nonfunctional hypotheses. Bird Coloration 2: 280-345.
Armenta JK, Dunn PO, Whittingham LA. 2008. Quantifying avian sexual dichromatism: a comparison of methods. The Journal of Experimental Biology 211: 2423-2430.
Baiser B, Valle D, Zelazny Z, and Burleigh JG. 2018. Non-random patterns of invasion and extinction reduce phylogenetic diversity in island bird assemblages. Ecography 41: 361-374.
Baker RR, Parker G. 1979. The evolution of bird coloration. Philosophical Transactions of the Royal Society of London B: Biological Sciences 287: 63-130.
Blomberg SP, Garland T, Ives AR. 2003. Testing for phylogenetic signal in comparative data: behavioral traits are more labile. Evolution 57: 717-745.
Burleigh JG, Kimball RT, Braun EL. 2015. Building the avian tree of life using a large-scale, sparse supermatrix. Molecular Phylogenetics and Evolution 84: 53-63.
Butcher GS, Rohwer S. 1989. The evolution of conspicuous and distinctive coloration for communication in birds. Current Ornithology 6: 51-108.
Clements JF, T. S. Schulenberg TS, Iliff MJ, Sullivan BL, Wood CL, Roberson D. 2011. The Clements checklist of birds of the world, Version 6.6. .
Cockle KL, Martin K, Drever MC. 2010. Supply of tree-holes limits nest density of cavity-nesting birds in primary and logged subtropical Atlantic forest. Biological Conservation 143: 2851-2857.
Cockle K, Martin K, Wiebe K. 2008. Availability of cavities for nesting birds in the Atlantic forest, Argentina. Ornitologia Neotropical 19: 269-278.
Collias NE. 1997. On the origin and evolution of nest building by passerine birds. Condor 99: 253-270.
Collias NE, Collias EC. 1984. Nest building and bird behavior. Princeton University Press.
Dale J, Dey CJ, Delhey K, Kempenaers B, Valcu M. 2015. The effects of life history and sexual selection on male and female plumage colouration. Nature 527: 367-370.
Darwin C. 1874. The descent of man. Prometheus Books, New York, ed 2:1874.
del Hoyo J, Elliott A, Christie DA. 2003-2011. Handbook of the Birds of the World Vols 8 – 16. Lynx Edicions, Barcelona.
del Hoyo J, Elliott A, Sargatal J, Christie DA, de Juana E. 2015. Handbook of the Birds of the World Alive.
Drury JP, Burroughs N. 2016. Nest shape explains variation in sexual dichromatism in New World blackbirds. Journal of Avian Biology 47: 312-320.
Dumbacher JP, Fleischer RC. 2001. Phylogenetic evidence for colour pattern convergence in toxic pitohuis: Mullerian mimicry in birds? Proceedings of the Royal Society B: Biological Sciences 268: 1971-1976.
Dunning JB. 2008. Body masses of birds of the world. Taylor and Francis Group, Boca Raton, Florida.
Dunning JB. 2015. https://ag.purdue.edu/fnr/Documents/WeightBookUpdate.pdf. .
Gomes ACR, Sorenson MD, Cardoso GC. 2016. Speciation is associated with changing ornamentation rather than stronger sexual selection. Evolution 70: 2823-2838.
Grzybowski JA, Pease CM, Brittingham M. 2005. Renesting determines seasonal fecundity in songbirds: What do we know? What should we assume? The Auk 122: 280-291.
Hackett SJ, Kimball RT, Reddy S, Bowie RCK, Braun EL, Braun MJ, Chojnowski JL, Cox WA, Han K, Harshman J, et al. 2008. A phylogenomic study of birds reveals their evolutionary history. Science 320: 1763-1768.
Hansell M. 2000. Bird nests and construction behaviour. Cambridge University Press.
Hansen TF. 1997. Stabilizing selection and the comparative analysis of adaptation. Evolution 51: 1341-1351.
Heinsohn R, Legge S, Endler JA. 2005. Extreme reversed sexual dichromatism in a bird without sex role reversal. Science 309: 617-619.
Ho LST, C. Ané, Lachlan R, Tarpinian K, R. Feldman R, and Ho, Maintainer Lam Si Tung. 2016. Package ‘phylolm’.
Ho L, Ané C. 2014. A linear-time algorithm for Gaussian and non-Gaussian trait evolution models. Systematic Biology 63: 397-408.
Hofmann CM, Cronin TW, Omland KE. 2008. Evolution of sexual dichromatism. 1. Convergent losses of elaborate female coloration in New World orioles (Icterus spp.). The Auk 125: 778-789.
Ives AR, Garland T. 2010. Phylogenetic logistic regression for binary dependent variables. Systematic Biology 59:9-26.
Jacobs GH. 2009. Evolution of colour vision in mammals. Transactions of the Royal Society B: Biological Sciences 364: 2957-2967.
Jarvis ED, Mirarab S, Aberer AJ, Li B, Houde P, Li C, Ho SY, Faircloth BC, Nabholz B, Howard JT, et al. 2014. Whole-genome analyses resolve early branches in the tree of life of modern birds. Science 346: 1320-1331.
Jennions MD, Moller AP, Petrie M. 2001. Sexually selected traits and adult survival: a meta-analysis. Quarterly Review of Biology 76: 3-36.
Johnson AE, Price J, Pruett-Jones S. 2013. Different modes of evolution in males and females generate dichromatism in fairy-wrens (Maluridae). Ecology and Evolution 3: 3030-3046.
Lack D. 1954. The natural regulation of animal numbers. Clarendon Press, Oxford.
Lima SL. 1998. Stress and decision making under the risk of predation: recent developments from behavioral, reproductive, and ecological perspectives. Advances in the Study of Behavior 27:215-290.
Lima SL. 2009. Predators and the breeding bird: behavioral and reproductive flexibility under the risk of predation. Biological Reviews 84: 485-513.
Lima SL, Dill LM. 1990. Behavioral decisions made under the risk of predation: a review and prospectus. Canadian Journal of Zoology 68: 619-640.
Lyon BE, Montgomerie R. 2012. Sexual selection is a form of social selection. Philosophical transactions of the Royal Society of London Series B, Biological Sciences 367: 2266-2273.
Martin TE. 1993. Nest predation and nest sites: New perspectives on old patterns. Bioscience 43: 523-532.
Martin TE. 1995. Avian life history evolution in relation to nest sites, nest predation, and food. Ecological Monographs 65: 101-127.
Martin TE, Li P. 1992. Life history traits of open- vs. cavity-nesting birds. Ecology 73: 579-592.
McEntee JP, Tobias JA, Sheard C, Burleigh JG. 2018. Tempo and timing of ecological trait divergence in bird speciation. Nature Ecology and Evolution 2: 1120-1127.
Newton I. 1994. The role of nest sites in limiting the numbers of hole-nesting birds: a review. Biological Conservation 70: 265-276.
Paradis E, Claude J, Strimmer K. 2004. APE: Analyses of Phylogenetics and Evolution in R language. Bioinformatics 20: 289-290.
Price T, Birch GL. 1996. Repeated evolution of sexual color dimorphism in passerine birds. The Auk 113: 842-848.
Price JJ, Eaton MD. 2014. Reconstructing the evolution of sexual dichromatism: current color diversity does not reflect past rates of male and female change. Evolution 68: 2026-2037.
Prum RO, Berv JS, Dornburg A, Field DJ, Townsend JP, Lemmon EM, Lemmon AR. 2015. A comprehensive phylogeny of birds (Aves) using targeted next-generation DNA sequencing. Nature 526: 569-573.
Sanderson MJ. 2003. R8s: Inferring absolute rates of molecular evolution and divergence times in the absence of a molecular clock. Bioinformatics 19: 301-302.
Seddon N, Tobias JA, Eaton M, Ödeen A. 2010. Human vision can provide a valid proxy for avian perception of sexual dichromatism. The Auk 127: 283-292.
Short LL. 1979. Burdens of the picid hole-excavating habit. The Wilson Bulletin 91: 16-28.
Sih A, Bell A, Johnson JC. 2004. Behavioral syndromes: an ecological and evolutionary overview. Trends in Ecology & Evolution 19: 372-378.
Skutch AF. 1985. Clutch size, nesting success, and predation on nests of Neotropical birds, reviewed. Ornithological Monographs 36: 575-594.
Soler J, Moreno J. 2012. Evolution of sexual dichromatism in relation to nesting habits in European passerines: a test of Wallace’s hypothesis. Journal of Evolutionary Biology 25: 1614-1622.
Stevens M, Troscianko J, Wilson-Aggarwal JK, Spottiswoode CN. 2017. Improvement of individual camouflage through background choice in ground-nesting birds. Nature Ecology and Evolution 1: 1325-1333.
Surridge AK, Osorio D, Mundy NI. 2003. Evolution and selection of trichromatic vision in primates. Trends in Ecology and Evolution 18: 198-205.
Tobias JA, Montgomerie R, Lyon BE. 2012. The evolution of female ornaments and weaponry: social selection, sexual selection and ecological competition. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences 367: 2274-2293.
von Haartman L. 1971. Population dynamics. Avian Biology 1: 391-459.
Wallace AR. 1868. A theory of birds’ nests: showing the relation of certain sexual differences of colour in birds to their mode of nidification. Journal of Travel and Natural History 1: 73-89.
Wallace AR. 1871. Contributions to the theory of natural selection: a series of essays. Macmillan.
Wcislo WT. 1989. Behavioral environments and evolutionary change. Annual Review of Ecology and Systematics 20: 137-169.
West-Eberhard MJ. 1979. Sexual Selection, Social Competition, and Evolution. Proceedings of the American Philosophical Society 123: 222-234.
West-Eberhard MJ. 1983. Sexual Selection, Social Competition, and Speciation. Quarterly Review of Biology 58: 155-183.
West-Eberhard MJ. 2014. Darwin's forgotten idea: The social essence of sexual selection. Neuroscience and Biobehavioral Reviews 46: 501-508.
Zuk M, Kolluru GR. 1998. Exploitation of sexual signals by predators and parasitoids. Quarterly Review of Biology 73: 415-438
Amundsen T, Pärn H. 2006. Female coloration: review of functional and nonfunctional hypotheses. Bird Coloration 2: 280-345.
Armenta JK, Dunn PO, Whittingham LA. 2008. Quantifying avian sexual dichromatism: a comparison of methods. The Journal of Experimental Biology 211: 2423-2430.
Baiser B, Valle D, Zelazny Z, and Burleigh JG. 2018. Non-random patterns of invasion and extinction reduce phylogenetic diversity in island bird assemblages. Ecography 41: 361-374.
Baker RR, Parker G. 1979. The evolution of bird coloration. Philosophical Transactions of the Royal Society of London B: Biological Sciences 287: 63-130.
Blomberg SP, Garland T, Ives AR. 2003. Testing for phylogenetic signal in comparative data: behavioral traits are more labile. Evolution 57: 717-745.
Burleigh JG, Kimball RT, Braun EL. 2015. Building the avian tree of life using a large-scale, sparse supermatrix. Molecular Phylogenetics and Evolution 84: 53-63.
Butcher GS, Rohwer S. 1989. The evolution of conspicuous and distinctive coloration for communication in birds. Current Ornithology 6: 51-108.
Clements JF, T. S. Schulenberg TS, Iliff MJ, Sullivan BL, Wood CL, Roberson D. 2011. The Clements checklist of birds of the world, Version 6.6. .
Cockle KL, Martin K, Drever MC. 2010. Supply of tree-holes limits nest density of cavity-nesting birds in primary and logged subtropical Atlantic forest. Biological Conservation 143: 2851-2857.
Cockle K, Martin K, Wiebe K. 2008. Availability of cavities for nesting birds in the Atlantic forest, Argentina. Ornitologia Neotropical 19: 269-278.
Collias NE. 1997. On the origin and evolution of nest building by passerine birds. Condor 99: 253-270.
Collias NE, Collias EC. 1984. Nest building and bird behavior. Princeton University Press.
Dale J, Dey CJ, Delhey K, Kempenaers B, Valcu M. 2015. The effects of life history and sexual selection on male and female plumage colouration. Nature 527: 367-370.
Darwin C. 1874. The descent of man. Prometheus Books, New York, ed 2:1874.
del Hoyo J, Elliott A, Christie DA. 2003-2011. Handbook of the Birds of the World Vols 8 – 16. Lynx Edicions, Barcelona.
del Hoyo J, Elliott A, Sargatal J, Christie DA, de Juana E. 2015. Handbook of the Birds of the World Alive.
Drury JP, Burroughs N. 2016. Nest shape explains variation in sexual dichromatism in New World blackbirds. Journal of Avian Biology 47: 312-320.
Dumbacher JP, Fleischer RC. 2001. Phylogenetic evidence for colour pattern convergence in toxic pitohuis: Mullerian mimicry in birds? Proceedings of the Royal Society B: Biological Sciences 268: 1971-1976.
Dunning JB. 2008. Body masses of birds of the world. Taylor and Francis Group, Boca Raton, Florida.
Dunning JB. 2015. https://ag.purdue.edu/fnr/Documents/WeightBookUpdate.pdf. .
Gomes ACR, Sorenson MD, Cardoso GC. 2016. Speciation is associated with changing ornamentation rather than stronger sexual selection. Evolution 70: 2823-2838.
Grzybowski JA, Pease CM, Brittingham M. 2005. Renesting determines seasonal fecundity in songbirds: What do we know? What should we assume? The Auk 122: 280-291.
Hackett SJ, Kimball RT, Reddy S, Bowie RCK, Braun EL, Braun MJ, Chojnowski JL, Cox WA, Han K, Harshman J, et al. 2008. A phylogenomic study of birds reveals their evolutionary history. Science 320: 1763-1768.
Hansell M. 2000. Bird nests and construction behaviour. Cambridge University Press.
Hansen TF. 1997. Stabilizing selection and the comparative analysis of adaptation. Evolution 51: 1341-1351.
Heinsohn R, Legge S, Endler JA. 2005. Extreme reversed sexual dichromatism in a bird without sex role reversal. Science 309: 617-619.
Ho LST, C. Ané, Lachlan R, Tarpinian K, R. Feldman R, and Ho, Maintainer Lam Si Tung. 2016. Package ‘phylolm’.
Ho L, Ané C. 2014. A linear-time algorithm for Gaussian and non-Gaussian trait evolution models. Systematic Biology 63: 397-408.
Hofmann CM, Cronin TW, Omland KE. 2008. Evolution of sexual dichromatism. 1. Convergent losses of elaborate female coloration in New World orioles (Icterus spp.). The Auk 125: 778-789.
Ives AR, Garland T. 2010. Phylogenetic logistic regression for binary dependent variables. Systematic Biology 59:9-26.
Jacobs GH. 2009. Evolution of colour vision in mammals. Transactions of the Royal Society B: Biological Sciences 364: 2957-2967.
Jarvis ED, Mirarab S, Aberer AJ, Li B, Houde P, Li C, Ho SY, Faircloth BC, Nabholz B, Howard JT, et al. 2014. Whole-genome analyses resolve early branches in the tree of life of modern birds. Science 346: 1320-1331.
Jennions MD, Moller AP, Petrie M. 2001. Sexually selected traits and adult survival: a meta-analysis. Quarterly Review of Biology 76: 3-36.
Johnson AE, Price J, Pruett-Jones S. 2013. Different modes of evolution in males and females generate dichromatism in fairy-wrens (Maluridae). Ecology and Evolution 3: 3030-3046.
Lack D. 1954. The natural regulation of animal numbers. Clarendon Press, Oxford.
Lima SL. 1998. Stress and decision making under the risk of predation: recent developments from behavioral, reproductive, and ecological perspectives. Advances in the Study of Behavior 27:215-290.
Lima SL. 2009. Predators and the breeding bird: behavioral and reproductive flexibility under the risk of predation. Biological Reviews 84: 485-513.
Lima SL, Dill LM. 1990. Behavioral decisions made under the risk of predation: a review and prospectus. Canadian Journal of Zoology 68: 619-640.
Lyon BE, Montgomerie R. 2012. Sexual selection is a form of social selection. Philosophical transactions of the Royal Society of London Series B, Biological Sciences 367: 2266-2273.
Martin TE. 1993. Nest predation and nest sites: New perspectives on old patterns. Bioscience 43: 523-532.
Martin TE. 1995. Avian life history evolution in relation to nest sites, nest predation, and food. Ecological Monographs 65: 101-127.
Martin TE, Li P. 1992. Life history traits of open- vs. cavity-nesting birds. Ecology 73: 579-592.
McEntee JP, Tobias JA, Sheard C, Burleigh JG. 2018. Tempo and timing of ecological trait divergence in bird speciation. Nature Ecology and Evolution 2: 1120-1127.
Newton I. 1994. The role of nest sites in limiting the numbers of hole-nesting birds: a review. Biological Conservation 70: 265-276.
Paradis E, Claude J, Strimmer K. 2004. APE: Analyses of Phylogenetics and Evolution in R language. Bioinformatics 20: 289-290.
Price T, Birch GL. 1996. Repeated evolution of sexual color dimorphism in passerine birds. The Auk 113: 842-848.
Price JJ, Eaton MD. 2014. Reconstructing the evolution of sexual dichromatism: current color diversity does not reflect past rates of male and female change. Evolution 68: 2026-2037.
Prum RO, Berv JS, Dornburg A, Field DJ, Townsend JP, Lemmon EM, Lemmon AR. 2015. A comprehensive phylogeny of birds (Aves) using targeted next-generation DNA sequencing. Nature 526: 569-573.
Sanderson MJ. 2003. R8s: Inferring absolute rates of molecular evolution and divergence times in the absence of a molecular clock. Bioinformatics 19: 301-302.
Seddon N, Tobias JA, Eaton M, Ödeen A. 2010. Human vision can provide a valid proxy for avian perception of sexual dichromatism. The Auk 127: 283-292.
Short LL. 1979. Burdens of the picid hole-excavating habit. The Wilson Bulletin 91: 16-28.
Sih A, Bell A, Johnson JC. 2004. Behavioral syndromes: an ecological and evolutionary overview. Trends in Ecology & Evolution 19: 372-378.
Skutch AF. 1985. Clutch size, nesting success, and predation on nests of Neotropical birds, reviewed. Ornithological Monographs 36: 575-594.
Soler J, Moreno J. 2012. Evolution of sexual dichromatism in relation to nesting habits in European passerines: a test of Wallace’s hypothesis. Journal of Evolutionary Biology 25: 1614-1622.
Stevens M, Troscianko J, Wilson-Aggarwal JK, Spottiswoode CN. 2017. Improvement of individual camouflage through background choice in ground-nesting birds. Nature Ecology and Evolution 1: 1325-1333.
Surridge AK, Osorio D, Mundy NI. 2003. Evolution and selection of trichromatic vision in primates. Trends in Ecology and Evolution 18: 198-205.
Tobias JA, Montgomerie R, Lyon BE. 2012. The evolution of female ornaments and weaponry: social selection, sexual selection and ecological competition. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences 367: 2274-2293.
von Haartman L. 1971. Population dynamics. Avian Biology 1: 391-459.
Wallace AR. 1868. A theory of birds’ nests: showing the relation of certain sexual differences of colour in birds to their mode of nidification. Journal of Travel and Natural History 1: 73-89.
Wallace AR. 1871. Contributions to the theory of natural selection: a series of essays. Macmillan.
Wcislo WT. 1989. Behavioral environments and evolutionary change. Annual Review of Ecology and Systematics 20: 137-169.
West-Eberhard MJ. 1979. Sexual Selection, Social Competition, and Evolution. Proceedings of the American Philosophical Society 123: 222-234.
West-Eberhard MJ. 1983. Sexual Selection, Social Competition, and Speciation. Quarterly Review of Biology 58: 155-183.
West-Eberhard MJ. 2014. Darwin's forgotten idea: The social essence of sexual selection. Neuroscience and Biobehavioral Reviews 46: 501-508.
Zuk M, Kolluru GR. 1998. Exploitation of sexual signals by predators and parasitoids. Quarterly Review of Biology 73: 415-438