The evolution of pattern camouflage strategies in waterfowl and game birds

Marshall, Kate L. A.; Gluckman, Thanh-Lan

doi:10.1002/ece3.1482

Cited by 13 publications

(13 citation statements)

References 75 publications

(233 reference statements)

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“…First, it could be due to the coarse scale at which we investigated the association between habitat and plumage patterns. Many of the empirical studies that demonstrate a camouflage function of patterns in non-colour changing animals show an association in one or a limited number of species (e.g., Lovell et al, 2013; Kang et al, 2014; Marshall, Philpot & Stevens, 2015b.; Wilson-Aggarwal et al, 2016) or were found via predator–prey computer simulations (e.g., Stevens, Yule & Ruxton, 2008; Stevens et al, 2011; Scott-Samuel et al, 2011; Troscianko et al, 2013; How & Zanker, 2014; Hughes, Troscianko & Stevens, 2014; reviewed in Marshall & Gluckman, 2015). At the level of microhabitats, some studies demonstrate that individual behaviours may facilitate camouflage, such as a behavioural choice to rest on backgrounds that enhance camouflage (Tsurui, Honma & Nishida, 2010; Lovell et al, 2013; Kang et al, 2014; Marshall, Philpot & Stevens, 2015b.; Troscianko et al, 2016; Wilson-Aggarwal et al, 2016).…”

Section: Discussionmentioning

confidence: 99%

“…Specifically, irregular patterns (mottled) tend to function in stationary camouflage while those that regularly repeat a pattern or motif (bars, spots) function in motion camouflage, which are in turn predicted to be more effective in closed and open habitats, respectively (Marshall & Gluckman, 2015). Birds are the most well described taxonomic group of animal and can be found in all types of habitats on all major landmasses (Gluckman & Cardoso, 2010; Jetz et al, 2012), making them particularly well suited for investigating sensory ecology hypotheses.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…1; Gluckman, 2014; Marshall & Gluckman, 2015; Gluckman & Mundy, 2016). Most studies of camouflage focus on single or few species (Marshall & Gluckman, 2015) that may not be representative of broad scale selection pressures. Here, we investigated whether sensory ecology theory could explain convergent evolution in the camouflage plumage patterns of birds at the global spatial and taxonomic scale, i.e., with a global spatial extent, using large spatial units, and data on most land bird species.…”

Section: Introductionmentioning

confidence: 99%

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A global analysis of bird plumage patterns reveals no association between habitat and camouflage

Somveille

Marshall

Gluckman

2016

PeerJ

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Evidence suggests that animal patterns (motifs) function in camouflage. Irregular mottled patterns can facilitate concealment when stationary in cluttered habitats, whereas regular patterns typically prevent capture during movement in open habitats. Bird plumage patterns have predominantly converged on just four types—mottled (irregular), scales, bars and spots (regular)—and habitat could be driving convergent evolution in avian patterning. Based on sensory ecology, we therefore predict that irregular patterns would be associated with visually noisy closed habitats and that regular patterns would be associated with open habitats. Regular patterns have also been shown to function in communication for sexually competing males to stand-out and attract females, so we predict that male breeding plumage patterns evolved in both open and closed habitats. Here, taking phylogenetic relatedness into account, we investigate ecological selection for bird plumage patterns across the class Aves. We surveyed plumage patterns in 80% of all avian species worldwide. Of these, 2,756 bird species have regular and irregular plumage patterns as well as habitat information. In this subset, we tested whether adult breeding/non-breeding plumages in each sex, and juvenile plumages, were associated with the habitat types found within the species’ geographical distributions. We found no evidence for an association between habitat and plumage patterns across the world’s birds and little phylogenetic signal. We also found that species with regular and irregular plumage patterns were distributed randomly across the world’s eco-regions without being affected by habitat type. These results indicate that at the global spatial and taxonomic scale, habitat does not predict convergent evolution in bird plumage patterns, contrary to the camouflage hypothesis.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A global analysis of bird plumage patterns reveals no association between habitat and camouflage

Somveille

Marshall

Gluckman

2016

PeerJ

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“…Crucially, visual modelling studies have shown that such local adaptation can prevent detection by the actual visual systems of predators, such as hunting birds (e.g. Marshall et al, 2015), thus indicating that camouflage tends to be optimised to local habitats under natural selection.…”

Section: Introductionmentioning

confidence: 99%

Peer Review #2 of "A global analysis of bird plumage patterns reveals no association between habitat and camouflage (v0.1)"

Price¹

2016

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Evidence suggests that animal patterns (motifs) function in camouflage. Irregular mottled patterns can facilitate concealment when stationary in cluttered habitats, whereas regular patterns typically prevent capture during movement in open habitats. Bird plumage patterns have predominantly converged on just four types-mottled (irregular), scales, bars and spots (regular)-and habitat could be driving convergent evolution in avian patterning. Based on sensory ecology, we therefore predict that irregular patterns would be associated with visually noisy closed habitats and that regular patterns would be associated with open habitats. Regular patterns have also been shown to function in communication for sexually competing males to stand-out and attract females, so we predict that male breeding plumage patterns evolved in both open and closed habitats. Here, taking phylogenetic relatedness into account, we investigate ecological selection for bird plumage patterns across the class Aves. We surveyed plumage patterns in 80% of all avian species worldwide. Of these, 2756 bird species have regular and irregular plumage patterns as well as habitat information. In this subset, we tested whether adult breeding/non-breeding plumages in each sex, and juvenile plumages, were associated with the habitat types found within the species' geographical distributions. We found no evidence for an association between habitat and plumage patterns across the world's birds and little phylogenetic signal. We also found that species with regular and irregular plumage patterns were distributed randomly across the world's eco-regions without being affected by habitat type. These results indicate that at the global spatial and taxonomic scale, habitat does not predict convergent evolution in bird plumage patterns, contrary to the camouflage hypothesis.

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Plumage pigmentation patterns of diurnal raptors in relation to colour ornamentation and ecology

Gomes¹,

Silva²,

Cardoso

2018

J Ornithol

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The evolution of pattern camouflage strategies in waterfowl and game birds

Cited by 13 publications

References 75 publications

A global analysis of bird plumage patterns reveals no association between habitat and camouflage

A global analysis of bird plumage patterns reveals no association between habitat and camouflage

Peer Review #2 of "A global analysis of bird plumage patterns reveals no association between habitat and camouflage (v0.1)"

Plumage pigmentation patterns of diurnal raptors in relation to colour ornamentation and ecology

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