An experimental test of the relationship between yolk testosterone and the social environment in a colonial passerine

Bentz, Alexandra B.; Andreasen, Victoria A.; Navara, Kristen J.

doi:10.1111/jav.01635

Cited by 3 publications

(2 citation statements)

References 74 publications

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“…2013), no effect (Bentz et al . 2018) or effects on other androgens (i.e. androstenedione) instead of testosterone (Remeš 2011).…”

Section: Discussionmentioning

confidence: 99%

“…Results of studies assessing the effect of competition on the deposition of yolk testosterone concentration are inconsistent among species (Smiseth et al 2011), showing an increment (Mazuc et al 2003, Pilz & Smith 2004, Hargitai et al 2009, Bentz et al 2013, no effect (Bentz et al 2018) or effects on other androgens (i.e. androstenedione) instead of testosterone (Remeš 2011).…”

Section: Discussionmentioning

confidence: 99%

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Competitive events during nest‐building influence offspring growth and behaviour, but not testosterone deposition in the egg yolk in Western Bluebirds (Sialia mexicana)

Hernández

Hernandez-Martínez

Nicolás

et al. 2022

Ibis

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The environmental stressors that females face before egg‐laying, such as competition for resources, can impact the fitness prospects of the female as well as her offspring through hormone‐mediated maternal effects. In obligate secondary cavity‐nesting species, suitable nest‐holes are a limited resource, so gaining access to nest‐sites may require competition with other individuals. In the Western Bluebird Sialia mexicana, we experimentally evaluated whether female exposure to increased competition for nest cavities (reduced available nest‐holes plus exposure to a competitor's decoy and vocalizations) during the period of nest construction affects her offspring's developmental trajectory, survival probability and behaviour through an increase in the concentration of testosterone in the egg yolk. Chicks from experimental females had a lower body mass at age 3 days, followed by a faster growth rate during the rapid growth phase, a slower growth rate during the slow growth phase and larger tarsus at age 15 days (only male offspring). Additionally, experimental chicks exhibited a lower breathing rate. However, female exposure to stronger competition for nest cavities during nest construction did not affect testosterone concentration in the egg yolk. Differential testosterone deposition in yolk is therefore apparently not the underlying mechanism of the effects observed, which may be attributed to changes in females' parental behaviour triggered by competition for breeding sites.

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“…2013), no effect (Bentz et al . 2018) or effects on other androgens (i.e. androstenedione) instead of testosterone (Remeš 2011).…”

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Competitive events during nest‐building influence offspring growth and behaviour, but not testosterone deposition in the egg yolk in Western Bluebirds (Sialia mexicana)

Hernández

Hernandez-Martínez

Nicolás

et al. 2022

Ibis

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Predicting yolk testosterone allocation using ecological contexts and species‐specific traits

James,

Bentz

2024

Journal of Animal Ecology

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The prenatal transfer of testosterone (T) from mother to offspring is an important source of phenotypic plasticity. In birds, exposure to ecologically relevant stimuli, such as social competition or an attractive mate, can cause females to deposit more T into their egg yolks. Exposure to elevated yolk T can modify the expression of several fitness‐related traits in offspring (e.g. growth, immune function, secondary sex traits and behaviour). Despite some of these changes being potentially adaptive, not all studies find that yolk T levels change in response to ecologically relevant stimuli. This heterogeneity is currently unexplained, limiting our ability to predict inter‐generational responses to ecological change. Here, we performed a systematic literature search and found 119 observations across 39 wild species that measured inter‐female variation in yolk T allocation in response to various stimuli. We used boosted regression trees, a form of machine learning, to examine whether species‐specific traits or variation in study‐level variables could explain variation in yolk T allocation (i.e. statistically significant vs. non‐significant responses). We found that both species‐specific traits and study‐level variables are important predictors of significant changes in yolk T levels. Geographic range (latitude and longitude), evolutionary distinctiveness, longevity, egg mass relative to female mass, sociality, migration status and time to fledge were among the top 10 most influential predictors of the 48 examined. We also found that studies measuring or manipulating social stimuli (e.g. competition and breeding density) or breeding date were more likely to detect changes in yolk T allocation compared with studies examining other ecological contexts. Overall, these data provide several testable hypotheses concerning yolk T allocation and its adaptive value across species and contexts. Additionally, these findings can help us predict how ecological changes will affect hormonal responses in females that can shape future generations.

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Data from: An experimental test of the relationship between yolk testosterone and the social environment in a colonial passerine

Bentz,

Andreasen,

Navara

2018

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An experimental test of the relationship between yolk testosterone and the social environment in a colonial passerine

Cited by 3 publications

References 74 publications

Competitive events during nest‐building influence offspring growth and behaviour, but not testosterone deposition in the egg yolk in Western Bluebirds (Sialia mexicana)

Competitive events during nest‐building influence offspring growth and behaviour, but not testosterone deposition in the egg yolk in Western Bluebirds (Sialia mexicana)

Predicting yolk testosterone allocation using ecological contexts and species‐specific traits

Data from: An experimental test of the relationship between yolk testosterone and the social environment in a colonial passerine

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