Testosterone has a long-term effect on primary sex ratio of first eggs in pigeons—in search of a mechanism

Abstract Despite accumulating evidence that birds, in which females are the heterogametic sex, are able to manipulate primary offspring sex ratio, the underlying mechanism remains elusive. Steroid hormones, which govern female reproduction and are also accumulated by the developing follicle could po...

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Veröffentlicht in:	General and comparative endocrinology 2009-09, Vol.163 (1), p.184-192
Hauptverfasser:	Goerlich, V.C, Dijkstra, C, Schaafsma, S.M, Groothuis, T.G.G
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Sprache:	eng
Schlagworte:	Androgens - pharmacology Animals Avian Columbidae - embryology Columbidae - physiology Egg Yolk - metabolism Endocrinology & Metabolism Female Follicle abortion Male Maternal hormones Mechanism Oviposition - drug effects Pigeon Primary sex ratio Sex Ratio Testosterone Testosterone - metabolism Testosterone - pharmacology Time Yolk hormones
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creator	Goerlich, V.C Dijkstra, C Schaafsma, S.M Groothuis, T.G.G
description	Abstract Despite accumulating evidence that birds, in which females are the heterogametic sex, are able to manipulate primary offspring sex ratio, the underlying mechanism remains elusive. Steroid hormones, which govern female reproduction and are also accumulated by the developing follicle could potentially affect primary sex ratio by differential follicle development in relation to future sex and meiotic drive, or by sex specific influence on oocyte abortion or fertilization. So far, experimental results on the involvement of maternal testosterone (T) in offspring sex manipulation are ambiguous. To investigate the effect of T on primary sex ratio and elucidate underlying mechanisms, we elevated circulating T levels in female homing pigeons ( Columba livia ). During the course of the experiment females produced three clutches—before and during T implantation, and one year after implant removal. Intriguingly, first eggs, but not second eggs of T females were significantly male biased relative to sham-implanted controls. One year after cessation of the treatment the male bias was still present, indicating long-term effects on female reproductive physiology. T treatment did not affect maternal body condition, nor was body condition correlated with offspring sex ratio. Our data on timing of oviposition, lack of infertile eggs, and yolk weight indicate a possible role for sex specific follicle abortion, perhaps in combination with meiotic drive. However, despite T treatment elevating maternal plasma levels, egg yolk T concentrations did not differ between treatment groups and did not vary with embryo sex, suggesting that yolk T is not involved in meiotic drive.
doi_str_mv	10.1016/j.ygcen.2009.01.004
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Steroid hormones, which govern female reproduction and are also accumulated by the developing follicle could potentially affect primary sex ratio by differential follicle development in relation to future sex and meiotic drive, or by sex specific influence on oocyte abortion or fertilization. So far, experimental results on the involvement of maternal testosterone (T) in offspring sex manipulation are ambiguous. To investigate the effect of T on primary sex ratio and elucidate underlying mechanisms, we elevated circulating T levels in female homing pigeons ( Columba livia ). During the course of the experiment females produced three clutches—before and during T implantation, and one year after implant removal. Intriguingly, first eggs, but not second eggs of T females were significantly male biased relative to sham-implanted controls. One year after cessation of the treatment the male bias was still present, indicating long-term effects on female reproductive physiology. T treatment did not affect maternal body condition, nor was body condition correlated with offspring sex ratio. Our data on timing of oviposition, lack of infertile eggs, and yolk weight indicate a possible role for sex specific follicle abortion, perhaps in combination with meiotic drive. 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Steroid hormones, which govern female reproduction and are also accumulated by the developing follicle could potentially affect primary sex ratio by differential follicle development in relation to future sex and meiotic drive, or by sex specific influence on oocyte abortion or fertilization. So far, experimental results on the involvement of maternal testosterone (T) in offspring sex manipulation are ambiguous. To investigate the effect of T on primary sex ratio and elucidate underlying mechanisms, we elevated circulating T levels in female homing pigeons ( Columba livia ). During the course of the experiment females produced three clutches—before and during T implantation, and one year after implant removal. Intriguingly, first eggs, but not second eggs of T females were significantly male biased relative to sham-implanted controls. One year after cessation of the treatment the male bias was still present, indicating long-term effects on female reproductive physiology. T treatment did not affect maternal body condition, nor was body condition correlated with offspring sex ratio. Our data on timing of oviposition, lack of infertile eggs, and yolk weight indicate a possible role for sex specific follicle abortion, perhaps in combination with meiotic drive. 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Steroid hormones, which govern female reproduction and are also accumulated by the developing follicle could potentially affect primary sex ratio by differential follicle development in relation to future sex and meiotic drive, or by sex specific influence on oocyte abortion or fertilization. So far, experimental results on the involvement of maternal testosterone (T) in offspring sex manipulation are ambiguous. To investigate the effect of T on primary sex ratio and elucidate underlying mechanisms, we elevated circulating T levels in female homing pigeons ( Columba livia ). During the course of the experiment females produced three clutches—before and during T implantation, and one year after implant removal. Intriguingly, first eggs, but not second eggs of T females were significantly male biased relative to sham-implanted controls. One year after cessation of the treatment the male bias was still present, indicating long-term effects on female reproductive physiology. T treatment did not affect maternal body condition, nor was body condition correlated with offspring sex ratio. Our data on timing of oviposition, lack of infertile eggs, and yolk weight indicate a possible role for sex specific follicle abortion, perhaps in combination with meiotic drive. However, despite T treatment elevating maternal plasma levels, egg yolk T concentrations did not differ between treatment groups and did not vary with embryo sex, suggesting that yolk T is not involved in meiotic drive.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>19344666</pmid><doi>10.1016/j.ygcen.2009.01.004</doi><tpages>9</tpages></addata></record>
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subjects	Androgens - pharmacology Animals Avian Columbidae - embryology Columbidae - physiology Egg Yolk - metabolism Endocrinology & Metabolism Female Follicle abortion Male Maternal hormones Mechanism Oviposition - drug effects Pigeon Primary sex ratio Sex Ratio Testosterone Testosterone - metabolism Testosterone - pharmacology Time Yolk hormones
title	Testosterone has a long-term effect on primary sex ratio of first eggs in pigeons—in search of a mechanism
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