Timing of insemination for dairy cows identified in estrus by a radiotelemetric estrus detection system.

The optimal time of artificial insemination (AI) was determined from data for 2661 AI in 17 herds utilizing a radiotelemetric system for estrus detection that has the potential for continuous 24-h surveillance to monitor behavioral events associated with estrus. The system consisted of pressure-sensitive radio frequency transmitters affixed over the sacrum region of cows. The activation of the sensor sent a radiotelemetric signal to a microcomputer via a fixed antenna. Cow identification, date, time, and duration of each standing event were recorded in the software program provided with the system. Each farm selected a 3-h interval to AI for cows that were identified in estrus during the previous 24 h. Pregnancy status was determined from data for return to estrus and palpation of the uterus 35 to 75 d following AI. Standing events during estrus averaged (+/- SD) 8.5 +/- 6.6 per cow, and the number of events per estrus across herds averaged from 6.2 +/- 5.1 to 12.8 +/- 9.9 per cow. The duration of estrus ranged from 5.1 +/- 3.8 to 10.6 +/- 6.8 h across herds; the mean was 7.1 +/- 5.4 h. The interval from the first standing event to AI affected the probability of pregnancy; the highest conception rates for AI occurred between 4 and 12 h after the onset of standing activity. The probability of pregnancy was higher for cows > 100 d in milk, exhibiting > 2 standing events during estrus, and inseminated during March, April or May.

[1]  H W Hawk,et al.  Transport and fate of spermatozoa after insemination of cattle. , 1987, Journal of dairy science.

[2]  F. Gwazdauskas Effects of climate on reproduction in cattle. , 1985, Journal of dairy science.

[3]  M. Diskin,et al.  Fertilization and embryonic mortality rates in beef heifers after artificial insemination. , 1980, Journal of reproduction and fertility.

[4]  C Thibault,et al.  Sperm transport and storage in vertebrates. , 1973, Journal of reproduction and fertility. Supplement.

[5]  F. A. Fonseca,et al.  Reproductive traits of Holsteins and Jerseys. Effects of age, milk yield, and clinical abnormalities on involution of cervix and uterus, ovulation, estrous cycles, detection of estrus, conception rate, and days open. , 1983, Journal of dairy science.

[6]  R. Allrich,et al.  Endocrine and neural control of estrus in dairy cows. , 1994, Journal of dairy science.

[7]  W. R. Butler,et al.  The relationships between energy balance, milk production and ovulation in postpartum Holstein cows. , 1981, Journal of animal science.

[8]  T. Reimers,et al.  Management factors affecting reproductive performance of dairy cows in the northeastern United States. , 1985, Journal of dairy science.

[9]  P. L. Senger,et al.  The estrus detection problem: new concepts, technologies, and possibilities. , 1994, Journal of dairy science.

[10]  J. F. Hurnik,et al.  Estrous and related behaviour in postpartum Holstein cows , 1975 .

[11]  R. Foote,et al.  Estrus detection and estrus detection aids. , 1975, Journal of dairy science.

[12]  W. E. Vinson,et al.  Rates of conception by artificial insemination of dairy cattle. , 1981, Journal of dairy science.

[13]  J. Britt,et al.  Mounting behavior as affected by stage of estrous cycle in Holstein heifers. , 1985, Journal of dairy science.

[14]  J. Stevenson,et al.  Detection of estrus by visual observation and radiotelemetry in peripubertal, estrus-synchronized beef heifers. , 1996, Journal of animal science.

[15]  J. D. Armstrong,et al.  Determinants of estrous behavior in lactating Holstein cows. , 1986, Journal of dairy science.

[16]  B. Engel,et al.  Predicting optimal time of insemination in cows that show visual signs of estrus by estimating onset of estrus with pedometers. , 1997, Journal of dairy science.

[17]  R. Foote Time of Artificial Insemination and Fertility in Dairy Cattle , 1979 .

[18]  R L Nebel,et al.  Timing of artificial insemination of dairy cows: fixed time once daily versus morning and afternoon. , 1994, Journal of dairy science.

[19]  R L Nebel,et al.  Time of ovulation relative to mounting activity in dairy cattle. , 1996, Journal of dairy science.

[20]  B. Brackett,et al.  Fertilization and early development of cow ova. , 1980, Biology of reproduction.

[21]  C. McCulloch Maximum Likelihood Algorithms for Generalized Linear Mixed Models , 1997 .

[22]  G. W. Trimberger,et al.  Breeding Efficiency in Dairy Cattle from Artificial Insemination at Various Intervals Before and After Ovulation , 1948 .

[23]  H. Morgenstern,et al.  Epidemiologic Research: Principles and Quantitative Methods. , 1983 .

[24]  M L McGilliard,et al.  Environmental and management factors affecting estrous activity in dairy cattle. , 1983, Journal of dairy science.

[25]  G. Rowlands,et al.  The association between lameness and fertility in dairy cows , 1986, Veterinary Record.

[26]  I Wilmut,et al.  Sperm transport into the oviducts of heifers mated early in oestrus. , 1984, Reproduction, nutrition, developpement.

[27]  W. E. Vinson,et al.  Evaluation of Reproductive Efficiency of Dairy Cattle with Emphasis on Timing of Breeding , 1986 .

[28]  J. Walton,et al.  Relationships between time of day, estrous behavior, and the preovulatory luteinizing hormone surge in Holstein cows after treatment with cloprostenol. , 1987, Journal of dairy science.