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Aggressive behaviours track transitions in seasonal phenotypes of female Siberian hamsters
Author(s) -
Rendon Nikki M.,
Amez Andrea C.,
Proffitt Melissa R.,
Bauserman Elizabeth R.,
Demas Gregory E.
Publication year - 2017
Publication title -
functional ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.272
H-Index - 154
eISSN - 1365-2435
pISSN - 0269-8463
DOI - 10.1111/1365-2435.12816
Subject(s) - phodopus , aggression , biology , photoperiodism , reproduction , medicine , endocrinology , hormone , seasonal breeder , development of the gonads , physiology , zoology , ecology , gonad , hamster , developmental psychology , psychology , horticulture
Summary Seasonally breeding animals exhibit profound physiological and behavioural responses to changes in ambient day length (photoperiod), including changes in reproductive function and territorial aggression. Species where aggression persists when gonads are regressed and circulating levels of gonadal hormones are low, such as Siberian hamsters ( Phodopus sungorus ) and song sparrows ( Melospiza melodia ), challenge the well‐established framework that gonadal hormones are important mediators of aggression. A solution to this apparent paradox is that a season‐specific increase in sensitivity to hormones in brain areas associated with aggression offsets low gonadal hormone levels during periods of reproductive quiescence. To test this hypothesis, we manipulated photoperiod to induce natural fluctuations in seasonal phenotype across multiple stages of the annual reproductive cycle in female Siberian hamsters that display increased aggression during short‐day reproductive quiescence, suggesting that behaviour persists independent of gonadal steroids. Females were housed in long ‘summer’ days or short ‘winter’ days for 10, 24 or 30 weeks to capture gonadal regression, a transition back to a reproductively functional state and full gonadal recrudescence, respectively. Long‐day animals maintained reproductive functionality and displayed low aggression across all time points. By week 10, short‐day reproductively responsive females underwent gonadal regression and displayed increased aggression; non‐responsive animals showed no such changes. At week 24, animals were in a transitional period and displayed an intermediate phenotype with respect to reproduction and aggression. By week 30, short‐day females were fully recrudesced and returned to long‐day‐like levels of aggression. Consistent with our hypothesis, gonadally regressed females displayed decreases in 17β‐oestradiol (oestradiol) levels, but site‐specific increases in the abundance of brain oestrogen receptor‐alpha ( ER α) in regions associated with aggression, but not reproduction. Increased site‐specific ER α may function as a compensatory mechanism to allow increased responsiveness to oestradiol in regulating aggression in lieu of high circulating concentrations of hormones. Collectively, these results broaden our understanding of how breeding phenology maps onto social behaviour and the mechanisms that have evolved to coordinate behaviours that occur in non‐breeding contexts. A lay summary is available for this article.

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