Fertility responses of melatonin-treated gilts before and during the follicular and early luteal phases when there are different temperatures and lighting conditions in the housing area

•Melatonin given to gilts improved estrus duration and embryo survival.•Oral melatonin could help alleviate heat stress effects in gilts during summer.•Differing hours of light and heat exposure alone did not impact fertility in gilts.•Summer replicate reduced follicle development, estrus, and embry...

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Bibliographic Details
Published in:Animal reproduction science 2021-07, Vol.230, p.106769-106769, Article 106769
Main Authors: Arend, Lidia Sbaraini, Knox, Robert Victor
Format: Article
Language:English
Subjects:
Gilts
Heat stress
Melatonin
Photoperiod
Seasonal infertility
Swine reproduction
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Summary:•Melatonin given to gilts improved estrus duration and embryo survival.•Oral melatonin could help alleviate heat stress effects in gilts during summer.•Differing hours of light and heat exposure alone did not impact fertility in gilts.•Summer replicate reduced follicle development, estrus, and embryo survival. This study was conducted to determine whether exogenous melatonin affected gilt fertility when there were different housing temperature and lighting conditions. Prepubertal gilts (n = 72) were fed (MEL, 5 mg/day) or not fed (CON) melatonin while housed in rooms where temperatures (31.0 ± 1 °C) and daily lighting (240 lx) duration differed: 8 (8 H); 16 (16 H); or 24 (24 H) h in winter and summer replicates. Gilts were moved into rooms (day 1) and administered PG600 on day 6. Gilts detected in estrus were inseminated and slaughtered on day 33 of gestation to determine pregnancy and litter responses. There was no treatment x room effect on estrus (77.8 %), follicle sizes, or number of corpora lutea, but MEL-treated gilts had a longer (P = 0.02) estrous duration (2.0 d) than gilts of the CON (1.7 d) group. Pregnancy rate (92.6 %) and embryo number (13.5) were not affected by treatment or room conditions. There was a treatment x room effect, however, with embryo survival being less (P =  0.01) by ∼23 % in gilts of the CON-24H than CON-16H, MEL-8H, and MEL-24H groups. In the summer replicate, there were also fewer large follicles, a lesser estrous detection percentage, viable embryos, and embryo survival rate than during the winter (P < 0.05). Overall, MEL treatment had positive effects on estrous duration and embryo survival, especially in the summer when there were varying lighting regimens and room temperatures in which gilts were housed.
ISSN:0378-4320
1873-2232
DOI:10.1016/j.anireprosci.2021.106769