Plasticity in diurnal activity and temporal phenotype during parental care in European starlings, Sturnus vulgaris

Maury, Chloris; Serota, Mitchell W.; Williams, Tony

doi:10.1016/j.anbehav.2019.11.004

Cited by 20 publications

(31 citation statements)

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“…Neuroactive chemicals like hormones and neuromodulators can activate and deactivate behavioral pathways in the central nervous system to allow for quick responses to unpredictable alterations in an individual’s direct surroundings ( 85 ). Additionally, behavioral outputs of the biological clock regulate activity patterns to anticipate predictable biotic and abiotic daily changes in the environment, ( 86 , 87 ) but do so flexibly enough to give rise to interindividual variation within a population (i.e., chronotypes) ( 88 , 89 ) and adjust to sudden changes in environmental and social cues ( 90 – 92 ). While such behavioral plasticity is of utmost importance for survival, it also provides opportunities for parasites to hijack and coopt ( 93 , 94 ).…”

Section: The Evolution Of Commonly Encountered Manipulated Behaviorsmentioning

confidence: 99%

Mechanisms behind the Madness: How Do Zombie-Making Fungal Entomopathogens Affect Host Behavior To Increase Transmission?

Bekker

Beckerson

Elya

2021

mBio

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Section: The Evolution Of Commonly Encountered Manipulated Behaviorsmentioning

confidence: 99%

Mechanisms behind the Madness: How Do Zombie-Making Fungal Entomopathogens Affect Host Behavior To Increase Transmission?

Bekker

Beckerson

Elya

2021

mBio

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“…The only other study we are aware of that examined reproductive success relative to incubation chronotype did not find such an association (Maury et al . 2020).…”

Section: Discussionmentioning

confidence: 87%

“…Therefore, in this study, we leverage data from wild birds to i) disentangle particular factors that contribute to explain variation in chronotype, and ii) newly document links between chronotype and reproductive fitness. In a well-studied songbird, the great tit (Parus major), we inferred female chronotype through measuring behaviour during incubation, a critically important post-zygotic stage of avian reproduction, while monitoring reproductive success (Graham et al 2017;Capilla-Lasheras 2018;Gwinner et al 2018;Maury et al 2020). Because features of the environment can influence chronotype, we also included data from two habitat types, urban and forest, which often affect the diel rhythm of animals (Dominoni et al 2013;Gaynor et al 2018).…”

Section: Introductionmentioning

confidence: 99%

Reproductive fitness is associated with female chronotype in a songbird

Womack

Capilla‐Lasheras

McGlade

et al. 2022

Preprint

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Research on biological rhythms has revealed widespread variation in timing within populations. Repeatable individual chronotypes have been linked to performance in humans but, in free-living species, benefits of chronotype are poorly understood. To address this gap, we investigated fitness correlates of incubation patterns in female songbirds (great tit, Parus major) at urban and forest sites. We confirm repeatable chronotypes (r ≥ 0.31) and show novel links between chronotype and reproductive fitness. In both habitats, females that started activity earlier in the day raised more fledglings. We also observed that forest females started their day at similar times throughout the breeding season, whereas urban females tied their onset of activity closely to sunrise. Our study points to possible mechanisms that underlie chronotype variation and provides sought-after evidence for its relevance to fitness.

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“…In addition to being endogenous and entrainable, circadian clocks are also inherently plastic; the phase, amplitude and period length with which circadian processes oscillate can change with an organism's age or social environment [37][38][39][40][41][42]. Such changes give rise to phenotypes that differ in their exact timing of activity onset relative to sunset or sunrise, known as "chronotypes" [43][44][45][46].…”

Section: Introductionmentioning

confidence: 99%

Time-course RNASeq ofCamponotus floridanusforager and nurse ant brains indicate links between plasticity in the biological clock and behavioral division of labor

Das

Bekker

2021

Preprint

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Background: Circadian clocks allow organisms to anticipate daily fluctuations in their environment by driving rhythms in physiology and behavior. Inter-organismal differences in daily rhythms, called chronotypes, exist and can shift with age. In ants, age, caste-related behavior and chronotype appear to be linked. "Around-the-clock" active nurse ants are usually younger and, with age, transition into rhythmically active foragers. Moreover, ants can shift between these behavioral castes depending on social context. We investigated how changes in daily gene expression could be contributing to such behavioral plasticity in Camponotus floridanus carpenter ants by combining time-course behavioral assays and RNA-Sequencing of forager and nurse brains. Results: We found that nurse brains have three times fewer 24h oscillating genes than foragers. However, several hundred genes that oscillated every 24h in forager brains showed robust 8h oscillations in nurses, including the core clock genes Period and Shaggy. These differentially rhythmic genes consisted of several components of the circadian entrainment pathway, and showed enrichments for functions related to metabolism, cellular communication and protein modification. We additionally found that Vitellogenin, known to regulate division of labor in social insects, showed robust 24h oscillations in nurse brains but not in foragers. Furthermore, the protein products of several genes that were differentially expressed between the two ant castes were previously found in the trophallactic fluid of C. floridanus. This suggests a putative role for trophallaxis in regulating behavioral division of labor through caste-specific gene expression. Conclusion: We provide a first look at the chronobiological differences in gene expression between forager and nurse ant brains. This endeavor allowed us to identify putative molecular mechanisms underlying plastic timekeeping. Several components of the ant circadian clock and its output can seemingly oscillate at different harmonics of the circadian rhythm. We propose that such chronobiological plasticity has evolved to allow for distinct regulatory networks that underlie behavioral castes, while supporting swift caste transitions in response to colony demands. Behavioral division of labor is common among social insects. The links between chronobiological and behavioral plasticity that we found in C. floridanus, thus, likely represent a more general phenomenon that warrants further investigation.

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Plasticity in diurnal activity and temporal phenotype during parental care in European starlings, Sturnus vulgaris

Cited by 20 publications

References 50 publications

Mechanisms behind the Madness: How Do Zombie-Making Fungal Entomopathogens Affect Host Behavior To Increase Transmission?

Mechanisms behind the Madness: How Do Zombie-Making Fungal Entomopathogens Affect Host Behavior To Increase Transmission?

Reproductive fitness is associated with female chronotype in a songbird

Time-course RNASeq ofCamponotus floridanusforager and nurse ant brains indicate links between plasticity in the biological clock and behavioral division of labor

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