Economic comparison of reproductive programs for dairy herds using estrus detection, timed artificial insemination, or a combination.

The objective of this study was to compare the economic outcome of reproductive programs using estrus detection (ED), timed artificial insemination (TAI), or a combination of both (TAI-ED) using a stochastic dynamic Monte-Carlo simulation model. Programs evaluated were (1) ED only; (2) TAI: Presynch-Ovsynch for first AI, and Ovsynch for resynchronization of open cows at 32 d after AI; (3) TAI-ED: Presynch-Ovsynch for first AI, but cows underwent ED and AI after first AI, and cows diagnosed open 32 d after AI were resynchronized using Ovsynch. Evaluated were the effect of ED rate (40 vs. 60%; ED40 or ED60), accuracy of estrus detection (85 vs. 95%), compliance with the timed AI protocol (85 vs. 95%), and milk price ($0.33 vs. 0.44/kg). Conception rate to first service was set at 33.9% and then decreased by 2.6% for every subsequent service. Abortion was set at 11.3%. Cows were not AI after 366 d in milk, and open cows were culled after 450 d in milk. Culled cows were immediately replaced. Herd size was maintained at 1,000 cows, and the model accounted for all incomes and costs. Simulation was performed until steady state was reached (3,000 d), and then average daily values for the subsequent 2,000 d were used to calculate profit/cow per year. Net daily value was calculated by subtracting the costs (replacement, feeding, breeding, and other costs) from the daily income (milk sales, cow sales, and calf sales). The ED40 models resulted in greater profits than the TAI-85 model but lower profits than the TAI-95 model. Both ED60 models resulted in greater profits than the TAI-95 model. Combining TAI and ED increased profits within each level of accuracy or compliance. Adding TAI to ED would increase overall profit/cow per year by $46.8 to $74.7 with 40% ED, and by $8.9 to $30.5 with 60% ED. Adding ED to TAI would increase profit/cow per year by $64.2 to $99.4 with 85% compliance and by $31.8 to $59.7 with 95% compliance. Although combining TAI and ED increased profits within each level of accuracy or compliance, when evaluated separately, ED60 with 95% accuracy or TAI with 95% compliance were as profitable as or more profitable than TAI-ED with low ED, accuracy, or compliance. Therefore, producers can improve their profits by combining TAI and ED as reproductive management; however, if a herd can achieve high ED with high accuracy or have high compliance with injections, using only ED or TAI might be more profitable than trying to do both.

[1]  Jorge Alberto Elizondo-Salazar,et al.  Estimación lineal de los requerimientos nutricionales del NRC para ganado de leche. , 2014 .

[2]  S. Bas,et al.  Dairy calving management: description and assessment of a training program for dairy personnel. , 2013, Journal of dairy science.

[3]  W. Thatcher,et al.  Fertility in dairy cows following presynchronization and administering twice the luteolytic dose of prostaglandin F2α as one or two injections in the 5-day timed artificial insemination protocol. , 2012, Theriogenology.

[4]  S. Bas,et al.  Effect of intrauterine dextrose or antibiotic therapy on reproductive performance of lactating dairy cows diagnosed with clinical endometritis. , 2012, Journal of dairy science.

[5]  P. Fricke,et al.  Changes in serum pregnancy-associated glycoprotein, pregnancy-specific protein B, and progesterone concentrations before and after induction of pregnancy loss in lactating dairy cows. , 2012, Journal of dairy science.

[6]  M. Wiltbank,et al.  Increased fertility in lactating dairy cows resynchronized with Double-Ovsynch compared with Ovsynch initiated 32 d after timed artificial insemination. , 2012, Journal of dairy science.

[7]  V E Cabrera,et al.  An economic decision-making support system for selection of reproductive management programs on dairy farms. , 2011, Journal of dairy science.

[8]  D. Pellerin,et al.  Complete-lactation milk and component yields following a short (35-d) or a conventional (60-d) dry period management strategy in commercial Holstein herds. , 2011, Journal of dairy science.

[9]  Henk Hogeveen,et al.  Economic consequences of reproductive performance in dairy cattle. , 2010, Theriogenology.

[10]  C. Risco,et al.  Economic comparison of natural service and timed artificial insemination breeding programs in dairy cattle. , 2010, Journal of dairy science.

[11]  R. Chebel,et al.  Effect of reducing the period of follicle dominance in a timed artificial insemination protocol on reproduction of dairy cows. , 2010, Journal of dairy science.

[12]  J. A. Arendonk,et al.  Studies on the replacement policies in dairy cattle , 2010 .

[13]  L. Tauer,et al.  Effects of clinical mastitis caused by gram-positive and gram-negative bacteria and other organisms on the probability of conception in New York State Holstein dairy cows. , 2010, Journal of dairy science.

[14]  P. Pinedo,et al.  Effect of days to conception in the previous lactation on the risk of death and live culling around calving. , 2010, Journal of dairy science.

[15]  R. Miller,et al.  Reproductive status of Holstein and Jersey cows in the United States. , 2009, Journal of dairy science.

[16]  M. Wiltbank,et al.  Effect of dry period length on reproduction during the subsequent lactation. , 2009, Journal of dairy science.

[17]  J. Santos,et al.  Factors affecting synchronization and conception rate after the Ovsynch protocol in lactating Holstein cows. , 2008, Reproduction in domestic animals = Zuchthygiene.

[18]  C. Dechow,et al.  Mortality, culling by sixty days in milk, and production profiles in high- and low-survival Pennsylvania herds. , 2008, Journal of dairy science.

[19]  P. Crump,et al.  Effects of dry period length on milk production and health of dairy cattle. , 2008, Journal of dairy science.

[20]  L. Warnick,et al.  Stillbirth parturition reduces milk production in Holstein cows. , 2008, Preventive veterinary medicine.

[21]  R. Chebel,et al.  Evaluation of methods of resynchronization for insemination in cows of unknown pregnancy status. , 2007, Journal of dairy science.

[22]  K. Weigel,et al.  Survey of management practices on reproductive performance of dairy cattle on large US commercial farms. , 2006, Journal of dairy science.

[23]  C. Risco,et al.  Economic comparison of timed artificial insemination and exogenous progesterone as treatments for ovarian cysts. , 2006, Journal of dairy science.

[24]  M. Overton Cost comparison of natural service sires and artificial insemination for dairy cattle reproductive management. , 2005, Theriogenology.

[25]  G. Frazer,et al.  A spreadsheet-based model demonstrating the nonuniform economic effects of varying reproductive performance in Ohio dairy herds. , 2005, Journal of dairy science.

[26]  K. Galvão,et al.  Effect of addition of a progesterone intravaginal insert to a timed insemination protocol using estradiol cypionate on ovulation rate, pregnancy rate, and late embryonic loss in lactating dairy cows. , 2004, Journal of animal science.

[27]  R. Chebel,et al.  Timed artificial insemination with estradiol cypionate or insemination at estrus in high-producing dairy cows. , 2004, Journal of dairy science.

[28]  J. Santos,et al.  The effect of embryonic death rates in cattle on the efficacy of estrus synchronization programs. , 2004, Animal reproduction science.

[29]  P. Fricke,et al.  A modified presynchronization protocol improves fertility to timed artificial insemination in lactating dairy cows. , 2004, Journal of dairy science.

[30]  J. Stevenson,et al.  Pregnancy in dairy cows after synchronized ovulation regimens with or without presynchronization and progesterone. , 2004, Journal of dairy science.

[31]  W. Heuwieser,et al.  Influence of stage of lactation and milk production on conception rates after timed artificial insemination following Ovsynch. , 2003, Theriogenology.

[32]  Jan Tind Sørensen,et al.  Economic consequences of postponed first insemination of cows in a dairy cattle herd , 2003 .

[33]  C. Risco,et al.  Effects of presynchronization and bovine somatotropin on pregnancy rates to a timed artificial insemination protocol in lactating dairy cows. , 2001, Journal of dairy science.

[34]  E. Ezra,et al.  The Effect of Extended Calving Intervals in High Lactating Cows on Milk Production and Profitability , 2001 .

[35]  J. Dekkers,et al.  Estimation of economic values of indices for reproductive performance in dairy herds using computer simulation. , 1997, Journal of dairy science.

[36]  M. Wiltbank,et al.  Pregnancy rates per artificial insemination for cows and heifers inseminated at a synchronized ovulation or synchronized estrus. , 1997, Journal of dairy science.

[37]  M. Kosorok,et al.  Reproductive management of lactating dairy cows using synchronization of ovulation. , 1997, Journal of dairy science.

[38]  J. Burke,et al.  Evaluation of timed insemination using a gonadotropin-releasing hormone agonist in lactating dairy cows. , 1996, Journal of dairy science.

[39]  M. Wiltbank,et al.  Synchronization of ovulation in dairy cows using PGF2α and GnRH , 1995 .

[40]  R L Nebel,et al.  Measuring efficiency and accuracy of detection of estrus. , 1994, Journal of dairy science.

[41]  Kastelic Jp,et al.  Fate of conceptus and corpus luteum after induced embryonic loss in heifers. , 1989 .

[42]  A. Dijkhuizen,et al.  An Economic Comparison of Four Culling Decision Rules for Reproductive Failure in United States Dairy Herds Using DairyORACLE , 1987 .

[43]  J. A. Arendonk,et al.  Studies on the replacement policies in dairy cattle. II. Optimum policy and influence of changes in production and prices , 1985 .

[44]  J. Britt Enhanced reproduction and its economic implications. , 1985, Journal of dairy science.

[45]  G. Seidel,et al.  Elective termination of pregnancy in cattle by manual abortion , 1978 .

[46]  P. D. P. WOOD,et al.  Algebraic Model of the Lactation Curve in Cattle , 1967, Nature.

[47]  A. Usa,et al.  Dairy 2007, part III: reference of dairy cattle health and management practices in the United States. , 2008 .

[48]  A De Vries,et al.  Economic value of pregnancy in dairy cattle. , 2006, Journal of dairy science.

[49]  W. Heuwieser,et al.  Comparison of timed AI after synchronized ovulation to AI at estrus: reproductive and economic considerations. , 2004, Journal of dairy science.

[50]  A. De Vries Economics of delayed replacement when cow performance is seasonal. , 2004, Journal of dairy science.

[51]  E. Ezra,et al.  The effect of extended calving intervals in high-yielding lactating cows on milk production and profitability. , 2001, Journal of dairy science.

[52]  Iver Thysen,et al.  A stochastic model simulating the dairy herd on a PC , 1992 .

[53]  J. Kastelic,et al.  Fate of conceptus and corpus luteum after induced embryonic loss in heifers. , 1989, Journal of the American Veterinary Medical Association.