China Dairy ›› 2025, Vol. 0 ›› Issue (8): 21-26.doi: 10.12377/1671-4393.25.08.04

• DAIRY CATTLE REPRODUCTIVE HEALTH MANAGEMENT • Previous Articles     Next Articles

Practical Application and Key Management Strategies of Estrus Synchronization Technology in Dairy Cows

ZHOU Changcheng   

  1. Dongying District Animal Husbandry Development Service Center,Dongying Shandong 257091
  • Online:2025-08-25 Published:2025-09-10

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Abstract: Estrus synchronization technology in dairy cows is a core method for modern dairy farms to enhance reproductive efficiency and economic benefits. By employing hormonal regulation and precise management, this technology concentrates the estrous cycle of dairy cows within the "golden breeding period" of 50~80 days postpartum, effectively reducing days open, improving conception rates, and minimizing the risk of missed breeding. This paper systematically elaborated on the stratified implementation of estrus synchronization technology on dairy farms, including treatment strategies for different groups such as postpartum unbred cows, open cows, heifers, and adult cows. It also analyzed key influencing factors such as animal mixing, headlock utilization, effectiveness of drug administration, and estrus detection. Furthermore, a data supervision system centered on the "TAI proportion" is proposed to promote the transition from experience-based management to data-driven decision-making, providing practical guidance for improving reproductive management on dairy farms.

Key words: dairy cow, estrus synchronization, reproductive efficiency, timed artificial insemination(TAI), days open, conception rate, hormonal regulation, dairy farm management, data supervision

[1] 汪志,刘连超,孙凤俊,等.诱导牛同期发情技术的应用研究进展[J].黑龙江动物繁殖,2009,17(3):13-14,19.
[2] 向辉,桂林森,杨迪,等.奶牛同期发情-定时输精技术研究进展[J].畜牧兽医学报,2024,55(4):1412-1422.
[3] Butler W R .Energy balance relationships with follicular development,ovulation and fertility in postpartum dairy cows[J].Livestock Production Science,2003,83(2-3):211-218.
[4] Vries A D.Economic value of pregnancy in dairy cattle.[J].Journal of Dairy Science,2006,89(10):3876-3885.
[5] Inchaisri C,Jorritsma R,Vos P L A M,et al.Economic consequences of reproductive performance in dairy cattle[J].Theriogenology,2010,74(5):835-846.
[6] Ribeiro E S,Monteiro A P A,Lima F S,et al.Effects of presynchronization and length of proestrus on fertility of grazing dairy cows subjected to a 5-day timed artificial insemination protocol[J].Journal of Dairy Science,2012,95(5):2513-2522.
[7] 赵明礼,张珅,郝海生,等.同期发情和同期排卵-定时输精技术在奶牛繁殖中的应用[J].中国畜牧杂志,2015,51(17):7.
[8] Pursley J R,Silcox R W,Wiltbank M C.Effect of time of artificial insemination on pregnancy rates,calving rates,pregnancy loss,and gender ratio after synchronization of ovulation in lactating dairy cows.[J].Journal of Dairy Science,1998,81(8):2139-2144.
[9] 郭煜,郭炜,斯琴格日勒,等.中小型奶牛场设施设备与器材配置[J].黑龙江动物繁殖,2006,14(3):2.
[10] 张振兴. 兽用生物制品的运输,贮存与使用[J].中国禽业导刊,2005,10(18):63-65.
[11] 现代牧业牧场繁育管理(下)[EB/OL]. https://mp.weixin.qq.com/s/6xMvqsShE1TSVFE6HLwcnw,2025-03-25.
[12] 李杰超,史记,刘顿成,等.奶牛智慧健康管理系统在个体病例早期诊断中的应用[J].中国乳业,2024(11):22-28.
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