Dietary yolk supplements and rate of yolk deposition do not influence sex ratios in Japanese Quail

Kristen J. Navara; Mary T. Mendonça; Steven Gardner

doi:10.1002/jez.2724

Dietary yolk supplements and rate of yolk deposition do not influence sex ratios in Japanese Quail

Kristen J. Navara, Mary T. Mendonça, Steven Gardner

Research output: Contribution to journal › Article › peer-review

Abstract

Birds appear to have the ability to bias offspring sex ratios in response to environmental and social conditions. The mechanisms responsible remain unknown, however one previous study indicated a link between rates of ovarian follicle growth and the sexes of resulting eggs. This could indicate that either follicles destined to retain male or female follicles grow at different rates, or the rate of ovarian follicle growth determines the sex chromosome that will be retained to influence the sex of the resulting offspring. We tested for evidence of both possibilities by staining yolk rings that are indicative of daily growth. First, we tested for a correlation between the number of yolk rings and the sexes of the resulting germinal discs collected from each egg, and second, we tested whether experimentally decreasing follicle growth rates with a dietary yolk supplement impacts the sexes of the resulting germinal discs. There was no significant correlation between the number of yolk rings and the sexes of the resulting embryos, and decreasing follicle growth rates did not impact sexes of resulting germinal discs. These results indicate that offspring sex is not related to the rate of ovarian follicle growth in quail.

Original language	English
Pages (from-to)	749-754
Number of pages	6
Journal	Journal of Experimental Zoology Part A: Ecological and Integrative Physiology
Volume	339
Issue number	8
DOIs	https://doi.org/10.1002/jez.2724
State	Published - Oct 1 2023
Externally published	Yes

Funding

We would like to thank K. Graden, J. Curry, A. Davis, E. Martinez, and A. Cruz for assistance in with animal care and in the lab. We also appreciate the UGA Poultry Research Farm staff for help with animal husbandry and for allowing us access to the research animals. This work was funded by a National Science Foundation grant (award #1456442) awarded to K.J. Navara and M.T. Mendonca. We would like to thank K. Graden, J. Curry, A. Davis, E. Martinez, and A. Cruz for assistance in with animal care and in the lab. We also appreciate the UGA Poultry Research Farm staff for help with animal husbandry and for allowing us access to the research animals. This work was funded by a National Science Foundation grant (award #1456442) awarded to K.J. Navara and M.T. Mendonca.

Keywords

avian
bird
poultry
sex chromosome segregation
yolk deposition

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10.1002/jez.2724

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title = "Dietary yolk supplements and rate of yolk deposition do not influence sex ratios in Japanese Quail",

abstract = "Birds appear to have the ability to bias offspring sex ratios in response to environmental and social conditions. The mechanisms responsible remain unknown, however one previous study indicated a link between rates of ovarian follicle growth and the sexes of resulting eggs. This could indicate that either follicles destined to retain male or female follicles grow at different rates, or the rate of ovarian follicle growth determines the sex chromosome that will be retained to influence the sex of the resulting offspring. We tested for evidence of both possibilities by staining yolk rings that are indicative of daily growth. First, we tested for a correlation between the number of yolk rings and the sexes of the resulting germinal discs collected from each egg, and second, we tested whether experimentally decreasing follicle growth rates with a dietary yolk supplement impacts the sexes of the resulting germinal discs. There was no significant correlation between the number of yolk rings and the sexes of the resulting embryos, and decreasing follicle growth rates did not impact sexes of resulting germinal discs. These results indicate that offspring sex is not related to the rate of ovarian follicle growth in quail.",

keywords = "avian, bird, poultry, sex chromosome segregation, yolk deposition",

author = "Navara, \{Kristen J.\} and Mendon{\c c}a, \{Mary T.\} and Steven Gardner",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Journal of Experimental Zoology Part A: Ecological and Integrative Physiology published by Wiley Periodicals LLC.",

year = "2023",

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AU - Navara, Kristen J.

AU - Mendonça, Mary T.

AU - Gardner, Steven

PY - 2023/10/1

Y1 - 2023/10/1

N2 - Birds appear to have the ability to bias offspring sex ratios in response to environmental and social conditions. The mechanisms responsible remain unknown, however one previous study indicated a link between rates of ovarian follicle growth and the sexes of resulting eggs. This could indicate that either follicles destined to retain male or female follicles grow at different rates, or the rate of ovarian follicle growth determines the sex chromosome that will be retained to influence the sex of the resulting offspring. We tested for evidence of both possibilities by staining yolk rings that are indicative of daily growth. First, we tested for a correlation between the number of yolk rings and the sexes of the resulting germinal discs collected from each egg, and second, we tested whether experimentally decreasing follicle growth rates with a dietary yolk supplement impacts the sexes of the resulting germinal discs. There was no significant correlation between the number of yolk rings and the sexes of the resulting embryos, and decreasing follicle growth rates did not impact sexes of resulting germinal discs. These results indicate that offspring sex is not related to the rate of ovarian follicle growth in quail.

AB - Birds appear to have the ability to bias offspring sex ratios in response to environmental and social conditions. The mechanisms responsible remain unknown, however one previous study indicated a link between rates of ovarian follicle growth and the sexes of resulting eggs. This could indicate that either follicles destined to retain male or female follicles grow at different rates, or the rate of ovarian follicle growth determines the sex chromosome that will be retained to influence the sex of the resulting offspring. We tested for evidence of both possibilities by staining yolk rings that are indicative of daily growth. First, we tested for a correlation between the number of yolk rings and the sexes of the resulting germinal discs collected from each egg, and second, we tested whether experimentally decreasing follicle growth rates with a dietary yolk supplement impacts the sexes of the resulting germinal discs. There was no significant correlation between the number of yolk rings and the sexes of the resulting embryos, and decreasing follicle growth rates did not impact sexes of resulting germinal discs. These results indicate that offspring sex is not related to the rate of ovarian follicle growth in quail.

KW - avian

KW - bird

KW - poultry

KW - sex chromosome segregation

KW - yolk deposition

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ER -

Dietary yolk supplements and rate of yolk deposition do not influence sex ratios in Japanese Quail

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