期刊
JOURNAL OF DAIRY SCIENCE
卷 104, 期 1, 页码 1220-1231出版社
ELSEVIER SCIENCE INC
DOI: 10.3168/jds.2019-17893
关键词
activity monitors; estrus; dairy cow; precision dairy technologies
资金
- Dairy Research Cluster Initiative II [Dairy Farmers of Canada (Ottawa, Canada)]
- Agriculture and Agri-Food Canada (Ottawa, Canada)
- Lactanet (Guelph, Canada)
- Canadian Dairy Commission (Ottawa, Canada)
- Natural Sciences and Engineering Research Council of Canada (Ottawa, Canada)
- Mitacs (Ottawa, Canada)
- B.C. Dairy Association (Burnaby, Canada)
- Westgen Endowment Fund
The intensity of estrous expression is linked to ovulation, ovarian and uterine function, fertility, social hierarchy, and housing system. Studies have shown that longer and more intense estrus periods are associated with improved pregnancy rates and reduced pregnancy losses. Additionally, the behavior displayed near artificial insemination can impact gene expression related to the immune system and endometrium.
Several studies have demonstrated that the intensity of estrous expression is associated with ovulation, ovarian and uterine function, and fertility, and is dependent on social hierarchy and the housing system used. Data from recent studies involving spontaneous and induced estrus have shown that a greater relative increase and longer estrus (captured by different automated activity monitors; AAM) are both associated with improved pregnancy per artificial insemination (AI; around 10 to 14% increase) and decreased pregnancy losses. Intensity and duration of estrus were surprisingly weakly associated with preovulatory follicle diameter and concentrations of plasma estradiol at estrus, whereas ovulation failure was associated with low estrus intensity. Studies have also shown that the display of estrous behavior near AI was associated with the modification of expression of genes related to the immune system, adhesion molecules, and prostaglandin synthesis in the endometrium. Transcripts in leukocytes and in the conceptus tissue associated with maternal recognition of pregnancy as well as conceptus elongation were all associated with differences in the intensity of estrous expression. Most recently, studies from the United States and Canada have demonstrated that reproductive programs emphasizing detection of estrus using AAM can be successful and comparable to intensive timed AI protocol-based programs that incorporate GnRH and PGF(2 alpha) treatments. Further, one study concluded that the administration of GnRH at AI for spontaneous estrus events greatly improved pregnancy per AI, but only for cows with reduced intensity of estrous expression, showing the potential to use AAM data as a tool in targeted reproductive programs. Quantitative information from estrus events could be used to improve estrus detection and develop decision-making strategies at the farm level. Future studies in this field should aim to better understand ovarian, conceptus, and endometrial mechanisms associated with either the expression or the intensity of estrus, and to refine the identification of phenotypes related to estrus (relative increase, absolute increase, baseline levels, duration, and repeatability within cow) to improve data usage, estrus detection, and possibly genetic selection.
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