Automated activity monitoring and visual observation of estrus in a herd of loose housed Hereford cattle: Diagnostic accuracy and time to ovulation.

A prospective cohort study was performed in the purebred Hereford herd at Götala Beef and Lamb Research Centre, Sweden. The study's first objective was to assess the ability of an automatic activity monitoring system (AAMS) to detect estrus in beef suckler cows, and its second objective was to estimate the time from estrus to ovulation. The study sample (n = 38) consisted of 14 Hereford heifers and 24 Hereford cows. Standardized visual observation of estrus was performed for 20 minutes thrice daily, and animal activity was recorded with an AAMS system, Heatime (SCR Engineers Ltd., Israel). Cows in estrus underwent transrectal ultrasonography every 8 hours, to estimate the time of ovulation. Blood samples for progesterone analysis were collected thrice weekly throughout the study period. A cutoff value of 1-ng progesterone/mL of serum was used to define luteal activity. The AAMS had a 90% (95% confidence interval [CI] 77%-97%) sensitivity and 100% specificity (95% CI 94%-100%), and visual detection of estrus had a 77% sensitivity (95% CI 62%-88%) and a 89% specificity (95% CI 79%-95%) for identifying estrus when compared to the gold standard defined by temporal pattern of serum progesterone concentration. When both methods were used in parallel, the sensitivity increased to 96% (95% CI 86%-99%), and the specificity increased to 90% (95% CI 80%-96%). The time of ovulation after estrus was determined on 50 occasions. The median estrus (AAMS detected) to ovulation interval was 25 hours for heifers and 23 hours for cows (interquartile range 11-29 hours and 19-25 hours, respectively). The median estrus (visually detected) to ovulation interval was 28 hours for heifers and 21 hours for cows (interquartile range 13-29 hours for both categories). In conclusion, the AAMS had both a higher sensitivity and specificity for estrus detection than thrice-daily visual observation. The time from detection of estrus to ovulation observed in this study indicates that reproductive performance might be improved if Hereford cattle are inseminated sooner after detection of estrus than is currently recommended.

[1]  F. V. Eerdenburg,et al.  Detection of oestrus in dairy cows: a new approach to an old problem. , 1996, The Veterinary quarterly.

[2]  S. Martin,et al.  Veterinary Epidemiologic Research , 2009 .

[3]  J. Routly,et al.  Why is it getting more difficult to successfully artificially inseminate dairy cows? , 2008, Animal : an international journal of animal bioscience.

[4]  G. H. Arthur Veterinary Reproduction and Obstetrics , 1996 .

[5]  R L Nebel,et al.  Ovulation timing and conception risk after automated activity monitoring in lactating dairy cows. , 2014, Journal of dairy science.

[6]  A. Chanvallon,et al.  Comparison of three devices for the automated detection of estrus in dairy cows. , 2014, Theriogenology.

[7]  I. Bossis,et al.  Nutritionally Induced Anovulation in Beef Heifers: Ovarian and Endocrine Function During Realimentation and Resumption of Ovulation1 , 2000, Biology of reproduction.

[8]  M. Crowe Resumption of ovarian cyclicity in post-partum beef and dairy cows. , 2008, Reproduction in domestic animals = Zuchthygiene.

[9]  C Kamphuis,et al.  Field evaluation of 2 collar-mounted activity meters for detecting cows in estrus on a large pasture-grazed dairy farm. , 2012, Journal of dairy science.

[10]  M. Diskin,et al.  Effect of calf isolation on follicular wave dynamics, gonadotropin and metabolic hormone changes, and interval to first ovulation in beef cows fed either of two energy levels postpartum. , 1998, Biology of reproduction.

[11]  C. Morris,et al.  Some genetic factors affecting temperament in Bos taurus cattle , 1994 .

[12]  M. Crowe,et al.  Effects of management and health on the use of activity monitoring for estrus detection in dairy cows. , 2012, Journal of dairy science.

[13]  D. Herd,et al.  Body Condition, Nutrition and Reproduction of Beef Cows , 1998 .

[14]  J. N. Sales,et al.  Timing of insemination and fertility in dairy and beef cattle receiving timed artificial insemination using sex-sorted sperm. , 2011, Theriogenology.

[15]  J. Routly,et al.  Influence of lameness on follicular growth, ovulation, reproductive hormone concentrations and estrus behavior in dairy cows , 2011, Theriogenology.

[16]  L. Dutil,et al.  A questionnaire on the health, management, and performance of cow-calf herds in Québec. , 1999, The Canadian veterinary journal = La revue veterinaire canadienne.

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

[18]  R L Nebel,et al.  Relationship of seminal traits and insemination time to fertilization rate and embryo quality. , 2000, Animal reproduction science.

[19]  D. Kenny,et al.  The relationship between periovulatory endocrine and follicular activity on corpus luteum size, function, and subsequent embryo survival. , 2010, Theriogenology.

[20]  M. Looper,et al.  Seasonal effects on estrous behavior and time of ovulation in nonlactating beef cows. , 2002, Journal of animal science.

[21]  R Vishwanath,et al.  Estrus detection using radiotelemetry or visual observation and tail painting for dairy cows on pasture. , 1998, Journal of dairy science.

[22]  J. Roelofs,et al.  Estrus detection tools and their applicability in cattle: recent and perspectival situation , 2015 .

[23]  E. Ropstad,et al.  Assessment of progesterone profiles and postpartum onset of luteal activity in spring calving Hereford beef suckler cattle , 2010, Acta veterinaria Scandinavica.

[24]  F.J.C.M. van Eerdenburg,et al.  Sexual activities and oestrus detection in lactating Holstein cows , 1996 .

[25]  Orihuela Some factors affecting the behavioural manifestation of oestrus in cattle: a review. , 2000, Applied animal behaviour science.

[26]  E. J. Stone,et al.  Estrus, Estrous Cycles, Ovulation Time, Time of Service, and Fertility of Dairy Cattle in Louisiana , 1959 .

[27]  J. Hurnik,et al.  Estrous behavior in confined beef cows. , 1987, Journal of animal science.

[28]  F. White,et al.  Effect of number of cows in estrus and confinement area on estrous behavior of beef cows. , 2009, Journal of animal science.

[29]  M. Boland,et al.  Pattern of follicular growth and resumption of ovarian activity in post-partum beef suckler cows. , 1990, Journal of reproduction and fertility.

[30]  G. Adams,et al.  Repeatability of 2-wave and 3-wave patterns of ovarian follicular development during the bovine estrous cycle. , 2009, Theriogenology.

[31]  R. Nebel,et al.  Effect of time of insemination on number of accessory sperm, fertilization rate, and embryo quality in nonlactating dairy cattle. , 2001, Journal of dairy science.

[32]  C. Hockey,et al.  Evaluation of a neck mounted 2-hourly activity meter system for detecting cows about to ovulate in two paddock-based Australian dairy herds. , 2009, Reproduction in domestic animals = Zuchthygiene.

[33]  E. Mullaart,et al.  Effects of insemination-ovulation interval on fertilization rates and embryo characteristics in dairy cattle. , 2006, Theriogenology.

[34]  R W Rorie,et al.  Application of electronic estrus detection technologies to reproductive management of cattle. , 2002, Theriogenology.

[35]  P. Fricke,et al.  Assessment of an accelerometer system for detection of estrus and treatment with gonadotropin-releasing hormone at the time of insemination in lactating dairy cows. , 2012, Journal of dairy science.

[36]  P. Sood,et al.  Effect of lameness on estrous behavior in crossbred cows. , 2006, Theriogenology.

[37]  Bas Kemp,et al.  Pedometer readings for estrous detection and as predictor for time of ovulation in dairy cattle. , 2005, Theriogenology.

[38]  V. Mercadante,et al.  Synchronization and Artificial Insemination Strategies in Beef Cattle. , 2016, The Veterinary clinics of North America. Food animal practice.

[39]  Tom Vanholder,et al.  OPTIMIZING DAIRY COW REPRODUCTIVE PERFORMANCES BESIDES THE USE OF HORMONES , 2006 .

[40]  M. Diskin,et al.  Follicular development in long-term anoestrous suckler beef cows fed two levels of energy postpartum , 1995 .

[41]  N. Dilorenzo,et al.  Invited Review: Advantages of current and future reproductive technologies for beef cattle production1,2 , 2016 .

[42]  B Kemp,et al.  Various behavioral signs of estrous and their relationship with time of ovulation in dairy cattle. , 2005, Theriogenology.