1. Does Exposure to Summer Season at Different Stages of Intrauterine Development and Maternal Parity Affect Health and First-Lactation Milk Production of Female Offspring of Holstein Cows? †.
- Author
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Beiranvand, Hamed, Mahnani, Abolfazl, Kahyani, Ali, Dunshea, Frank R., and Ahmadi, Farhad
- Subjects
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PRODUCTION losses , *FETAL development , *SUMMER , *MILK yield , *DISEASE incidence , *LACTATION in cattle - Abstract
Simple Summary: Heat stress during pregnancy can negatively affect the intrauterine environment, compromising fetal development and resulting in long-term physiological and structural changes that impact the postnatal outcomes of the offspring. The aim of this retrospective longitudinal study was to identify how exposure to summer season at different trimesters of intrauterine development and dam parity affect postpartum disease incidence, milk production, and herd lifespan of the offspring (F1 generation) of Holstein cows. Our preliminary findings confirmed less milk production capacity and greater culling risk in offspring experiencing the summer season during the first trimester of their intrauterine development than those during later stages. Daughters born to nulliparous dams had a lower risk of dystocia and metritis, a higher risk of retained placenta, and were more likely to remain in the herd than those born to parous dams. Minimizing summer heat exposure during the early intrauterine development of offspring through implementing heat-abatement strategies may help alleviate the risk of future production losses. A suboptimal intrauterine environment during gestation may result in the programming of long-lasting structural and physiological alterations in the developing fetus, leading to health and production complications in adulthood. This observational study aimed to identify the impact of exposure to the summer season at different trimesters of gestation, dam parity, and their interaction on the postpartum disease incidence, first-lactation milk production, and herd lifespan of the offspring (F1 generation). Using a dataset collected from two commercial herds, the female offspring were categorized into three groups based on the trimester their dams experienced summer season during pregnancy: (1) first trimester (n = 2345), (2) second trimester (n = 3513), and (3) final trimester (n = 4988). The estimated 305-day milk production was lower in daughters (as a first-lactation cow) born to dams exposed to summer season during the first vs. third trimester. Summer season exposure during the first vs. third trimester resulted in the offspring that were less likely to remain in the herd (hazard ratio = 0.90; 95% CI = 0.84–0.95). Daughters of parous vs. nulliparous dams were more likely to experience dystocia and metritis but less likely to experience retained placenta. The risk of culling was higher in daughters of parous vs. nulliparous dams. Our preliminary findings suggest that the first trimester is a critical determinant of the female progeny's future productive performance and survivability. Dam parity was also identified as an influential factor affecting offspring health, as dystocia and metritis were more prevalent, and the culling risk was greater in daughters born to parous dams. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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