Mismatch in sexual dimorphism of developing song and song control system in blue-capped cordon-bleus, a songbird species with singing females and males

M, Lobato; Vellema, Michiel; Gahr, Christoph L.; Leitão, Albertine; Lima, Sônia Maria Rolim Rosa; Geberzahn, Nicole; Gahr, Manfred

doi:10.3389/fevo.2015.00117

Cited by 20 publications

(19 citation statements)

References 74 publications

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“…Males may have a longer sensory acquisition phase than females and acquire more element types over a longer timeframe, which is another explanation for why adult males have more complex song than females. Such a process has been proposed for Northern cardinals and bluecapped cordon-bleus (Yamaguchi, 2001;Geberzahn and Gahr, 2013;Lobato et al, 2015). All we can say at present is that we found no sex differences in fledgling song element repertoire, so therefore it is likely that sex differences emerge later in the superb fairy-wren.…”

Section: Song Element Repertoire In Sons and Daughterssupporting

confidence: 54%

“…It is possible that daughters lose element types with age, as we did not find sex differences in fledgling element repertoire size. Such a decrease in repertoire size with age has been found in female blue-capped cordon-bleus (Lobato et al, 2015). Males may have a longer sensory acquisition phase than females and acquire more element types over a longer timeframe, which is another explanation for why adult males have more complex song than females.…”

Section: Song Element Repertoire In Sons and Daughtersmentioning

confidence: 70%

“…Studies on captive birds show that young male and female songbirds learn primarily from same-sex vocal tutors in slate-colored boubous (Laniarius funebris; Wickler and Sonnenschein, 1989), stripebacked wrens (Campylorhynchus nuchalis; Price, 1998), and European starlings (Sturnus vulgaris; Hausberger et al, 1995). Young birds learn from both male and female song tutors in Indian Hill mynahs (Gracula religiosa; Bertram, 1970), Northern cardinals (Cardinalis cardinalis; Yamaguchi, 2001) and bluecapped cordon-bleus (Uraeginthus cyanocephalus; Geberzahn and Gahr, 2013;Lobato et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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Superb Fairy-Wren (Malurus cyaneus) Sons and Daughters Acquire Song Elements of Mothers and Social Fathers

Evans

Kleindorfer

2016

Front. Ecol. Evol.

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Birdsong is regarded as a classic example of a sexually-selected trait and has been primarily studied in systems with male song. Complex solo female song is emerging from the shadows of overlooked phenomena. In males, rearing conditions affect male song complexity, and males with complex songs are often more successful at mate attraction and territorial defense. Little is known about the ontogeny or function of complex female song. Here we examine song elements in fledgling superb fairy-wrens (Malurus cyaneus) in relation to the song elements of adult tutors. Male and female superb fairy-wrens produce solo song year-round to defend a territory. We ask if sons and daughters acquire song elements from sex-specific vocal tutors. We found that sons and daughters produced the song elements of their mothers and social fathers, and that sons and daughters had comparable song element repertoires at age 7-10 weeks. We conclude that sons and daughters increase their song element repertoire when vocally imitating elements from several vocal tutors, and that both sexes acquire elements from male and female vocal tutors in this system.

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Section: Song Element Repertoire In Sons and Daughterssupporting

confidence: 54%

Section: Song Element Repertoire In Sons and Daughtersmentioning

confidence: 70%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Superb Fairy-Wren (Malurus cyaneus) Sons and Daughters Acquire Song Elements of Mothers and Social Fathers

Evans

Kleindorfer

2016

Front. Ecol. Evol.

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“…This correlation, so they show, accounts for almost half of the observed variation in telencephalic size, more than any other behavioral specialization examined, including the ability to learn song. Moreover, female song is widespread and ancestral in birds [38][39][40][41]. In other words, as was recognized some time ago, relying on the zebra finch model in terms of broader questions of behavior could lead to ignoring the importance of social learning in non-reproductive contexts [42,43], the significance of variability in avian communication outside the breeding context and the possibility of different underlying mechanisms of brain activity [44][45][46] for hearing and vocal production, of which lateralization may be an important manifestation.…”

Section: Limitations: Species Investigatedmentioning

confidence: 99%

Audition and Hemispheric Specialization in Songbirds and New Evidence from Australian Magpies

Kaplan

2017

Symmetry

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Abstract:The neural processes of bird song and song development have become a model for research relevant to human acquisition of language, but in fact, very few avian species have been tested for lateralization of the way in which their audio-vocal system is engaged in perception, motor output and cognition. Moreover, the models that have been developed have been premised on birds with strong vocal dimorphism, with a tendency to species with complex social and/or monomorphic song systems. The Australian magpie (Gymnorhina tibicen) is an excellent model for the study of communication and vocal plasticity with a sophisticated behavioural repertoire, and some of its expression depends on functional asymmetry. This paper summarizes research on vocal mechanisms and presents field-work results of behavior in the Australian magpie. For the first time, evidence is presented and discussed about lateralized behaviour in one of the foremost songbirds in response to specific and specialized auditory and visual experiences under natural conditions. It presents the first example of auditory lateralization evident in the birds' natural environment by describing an extractive foraging event that has not been described previously in any avian species. It also discusses the first example of auditory behavioral asymmetry in a songbird tested under natural conditions.

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“…A via motora foi descrita no estudo inaugural de BOTTJER et al, 1985;WILLIAMS, 1985;NORDEEN e NORDEEN, 1988;NIXDORF-BERGWEILER, 1996;CAREW, 2000;LOBATO et al, 2015).…”

Section: Aprendizado Vocalunclassified

Identificação neuroanatômica de áreas cerebrais relacionadas à produção do canto em uma espécie de pássaro Suboscine da Amazônia (Myiozetetes cayanensis)

Brito¹

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Mismatch in sexual dimorphism of developing song and song control system in blue-capped cordon-bleus, a songbird species with singing females and males

Cited by 20 publications

References 74 publications

Superb Fairy-Wren (Malurus cyaneus) Sons and Daughters Acquire Song Elements of Mothers and Social Fathers

Superb Fairy-Wren (Malurus cyaneus) Sons and Daughters Acquire Song Elements of Mothers and Social Fathers

Audition and Hemispheric Specialization in Songbirds and New Evidence from Australian Magpies

Identificação neuroanatômica de áreas cerebrais relacionadas à produção do canto em uma espécie de pássaro Suboscine da Amazônia (Myiozetetes cayanensis)

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