Analysis of the economically optimal voluntary waiting period for first insemination.

The voluntary waiting period (VWP) is defined as the time between parturition and the time at which the cow is first eligible for insemination. Determining the optimal VWP from field data is difficult and unlikely to happen. Therefore, a Monte-Carlo dynamic-stochastic simulation model was created to calculate the economic effects of different VWP. The model is dynamic and uses time steps of 1 wk to simulate the reproductive cycle (ovulation, estrous detection, and conception), the occurrence of postpartum disorders, and the lactation curve. Inputs of the model were chosen to reflect the situation of Dutch dairy cows. In the model, we initially created a cow of a randomly selected breed, parity, month of calving, calf status of last calving, and expected 305-d milk yield. The randomly varied variables were based upon relevant distributions and adjusted for cow statuses. The lactation curve was modeled by Wood's function. The economic input values in the analysis included: cost of milk production (€0.07 to €0.20 per kg), calf price (€35 to €150 per calf), AI cost (€7 to €24 per AI), calving management cost (€137 to €167 per calving), and culling cost, expressed as the retention pay-off (€118 to €1,117). A partial budget approach was used to calculate the economic effect of varying the VWP from 7 to 15 wk postpartum, using a VWP of 6 wk as reference. Per iteration, the VWP with either the lowest economic loss or the maximum profit was determined as the optimal VWP. The optimal VWP of most cows (90%) was less than 10 wk. On average, every VWP longer than 6 wk gave economic losses. Longer VWP were in particular optimal for the first parity of breeds other than Holstein-Friesian, cows calving in winter with low milk production, high milk persistency, delayed peak milk yield time, a delayed time of first ovulation, or occurrence of a postpartum disorder, and while costs of milk production are low and costs for AI are high.

[1]  M. Lucy,et al.  Reproductive loss in high-producing dairy cattle: where will it end? , 2001, Journal of dairy science.

[2]  A. Dijkhuizen,et al.  Economic aspects of reproductive failure in dairy cattle I. Financial loss at farm level , 1985 .

[3]  W R Butler,et al.  Interrelationships between energy balance and postpartum reproductive function in dairy cattle. , 1989, Journal of dairy science.

[4]  C. J. Callahan,et al.  Effect of progesterone on the expression of estrus at the first postpartum ovulation in dairy cattle. , 1992, Journal of dairy science.

[5]  Y. Schukken,et al.  Cystic ovarian disease in Dutch dairy cattle, I. Incidence, risk factors and consequences , 1994 .

[6]  D. Kelton,et al.  Association of cow and quarter-level factors at drying-off with new intramammary infections during the dry period. , 2004, Preventive veterinary medicine.

[7]  R. S. Emery,et al.  Influence of energy balance and body condition on estrus and estrous cycles in Holstein heifers. , 1990, Journal of dairy science.

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

[9]  J. Jensen,et al.  © American Dairy Science Association, 2007. Breed and Parity Effects on Energy Balance Profiles Through Lactation: Evidence of Genetically Driven Body Energy Change , 2007 .

[10]  A R Kristensen,et al.  Optimal replacement of mastitic cows determined by a hierarchic Markov process. , 1994, Journal of dairy science.

[11]  R. Everett,et al.  Management and economics of extended calving intervals with use of bovine somatotropin , 1997 .

[12]  F. van Eerdenburg,et al.  When is a cow in estrus? Clinical and practical aspects. , 2010, Theriogenology.

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

[14]  M. Wiltbank,et al.  Relationship between level of milk production and estrous behavior of lactating dairy cows. , 2004, Animal reproduction science.

[15]  A. Van Soom,et al.  The consequences of metabolic changes in high-yielding dairy cows on oocyte and embryo quality. , 2008, Animal : an international journal of animal bioscience.

[16]  A. Kruif,et al.  Measurement of Ovarian Cyclicity in the Post Partum Dairy Cow by Progesterone Analysis , 1999 .

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

[18]  R. S. Youngquist,et al.  Current therapy in large animal theriogenology , 2006 .

[19]  J. Young,et al.  Increased milk production versus reproductive and energy status of high producing dairy cows. , 1990, Journal of dairy science.

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

[21]  G. Hooijer,et al.  Treatment of cystic ovarian disease in dairy cows with gonadotrophin-releasing hormone: a field study. , 1999, Veterinary Quarterly.

[22]  P. Pinedo,et al.  The association between reproductive performance and milk yield in Chilean Holstein cattle. , 2007, Journal of dairy science.

[23]  J. Stevenson CHAPTER 35 – Clinical Reproductive Physiology of the Cow , 2007 .

[24]  H Hogeveen,et al.  Economic effects of bovine mastitis and mastitis management: A review , 2007, The Veterinary quarterly.

[25]  W. G. Hill,et al.  Effect of gestation stage on milk yield and composition in Holstein Friesian dairy cattle , 1997 .

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

[27]  M. Kinsel,et al.  Factors affecting reproductive performance in Ontario dairy herds. , 1998, Theriogenology.

[28]  J. Fetrow,et al.  Reproductive Health Programs for Dairy Herds: Analysis of Records for Assessment of Reproductive Performance , 2007 .

[29]  H. Allore,et al.  Simulated effects on dairy cattle health of extending the voluntary waiting period with recombinant bovine somatotropin. , 2000, Preventive veterinary medicine.

[30]  Y. Schukken,et al.  The effects of time of disease occurrence, milk yield, and body condition on fertility of dairy cows. , 1999, Journal of dairy science.

[31]  D T Galligan,et al.  An economic spreadsheet model to determine optimal breeding and replacement decisions for dairy cattle. , 2004, Journal of dairy science.

[32]  H Hogeveen,et al.  Effect of milk yield characteristics, breed, and parity on success of the first insemination in Dutch dairy cows. , 2010, Journal of dairy science.