Reproductive Management of
Slusher, Equine Theriogenologist
A large portion of the equine industry is involved with the breeding and care of mares. Economic considerations of the equine breeding business make it necessary for owners to understand the reproductive cycle and how it can be managed. This knowledge is important for all mare owners, regardless of whetherthey are involved with breeding in their own operations, or whether they send their mares to a breeding facility.
The mare has a seasonally polyestrous type of estrous cycle (Figure 1). This means that she typically is receptive to the stallion and ovulates only during certain times of the year. During the anestrus period, most mares show no behavioral signs of sexual receptivity and fail to develop follicles that ovulate. In the northern hemisphere, the anestrus period of the mare occurs most frequently during the winter (mid-Nov. to mid-Feb.). There are exceptions in that some mares will show behavioral signs of sexual receptivity throughout the year, even though they usually do not ovulate in the winter. Also, there is a small percentage of mares that do not express a seasonal pattern in that they stay both behaviorally and physiologically receptive to stallions throughout the year.
The transition periods' hallmark is a longer than expected time of receptivity to the stallion (Figure 1). The mare's ovaries contain small follicles that as yet do not have the ability to ovulate. After a time, one of the follicles matures and ovulates, and the regularity of estrous cycles begins.
During the ovulatory season, the mare is cycling, thereby exhibiting sexual receptivity to the stallion on a regular basis and is producing follicles that ovulate. Generally, the ovulatory season starts in mid-April and continues through mid-September, unless the mare becomes pregnant. During this time, the mare undergoes a series of cycles, each approximately 22 days in length. The estrous cycle is divided into two physiological parts-estrus and diestrus. Estrus is typically referred to as the time the mare is in heat. This is the time of follicular maturation and ovulation. During diestrus, the mare is not receptive to the stallion.
Ovulation most frequently occurs 24 to 48 hours priorto the end of estrus. Estrus duration is usuallythree to seven days. The mare enters diestrus following ovulation and the end of estrus. The follicle that ovulated at the end of estrus develops into a structure call the corpus Iuteum (CL). If the mare is not pregnant, the corpus luteum will regress and follicular development will proceed at the end of diestrus. Diestrus usually lasts for 15 to 19 days. Some mares may ovulate two follicles during estrus or a second follicle during early diestrus. The occurrence of a second ovulation during or immediately following estrus may lead to twins, an undesirable event in the equine species. However, the mare's reproductive system (oviduct and uterus) usually eliminates embryos other than the primary one.
of the ovulatory season requires the mare owner to understand
some of the physiological controls of the mare's reproductive
status. Follicular development and ovulation are controlled by
various hormones. An understanding of normal hormonal patterns is
important, because many management practices used to increase
conception rates involve action upon these patterns. Normal
hormonal patterns are shown in
Blood levels of estrogen are highest when the mare is in estrus. Estrogen is responsible for causing the mare to show the behavioral signs of receptivity to a stallion. The primary hormone that is responsible for ovulation has been identified as luteinizing hormone (LH). Another hormone, termed follicle stimulating hormone (FSH), is mainly responsible for ovarian follicular development. Progesterone, which is produced by the corpus luteum, is the primary hormone that is responsible for the recognition and maintenance of early pregnancy up to about 150 days. From approximately 150 days until term, the source of progestins for pregnancy maintenance is the placenta. Figure 2 compares the normal circulating levels of these hormones with corresponding ovarian activity. Ovulation (day 0) occurs in response to increased levels of LH. If the mare is not pregnant, the CL begin to regress in response to prostaglandin (about day 13). This regression is complete by approximately day 18. Progesterone levels decrease when the CL regresses. At about the same time (day 13), FSH levels will increase causing the follicle to grow in preparation for ovulation of the following estrus (day 19 to 22).
As with the different phases of the estrous cycle, the transition from the anestrus period to the estrous period is due to the changes in hormonal patterns. Little research has been done concerning hormonal patterns during anestrus, but it is understood that the changes in hormonal patterns necessary for transition into the estrous period are in response to longer days. Mares are long-day breeders.
The percentage of ovulating mares increases significantly as the daily photoperiod increases above the 12-hour vernal equinox (March 21), and decreases when daylight decreases in the fall below the 12-hour autumnal equinox (Sept.21). Generally, the maximum number of naturally ovulating mares are during the maximum daylight periods of June.
Management of the Mare's Estrous Period
Breeding managers are generally concerned with four aspects of reproductive management during the ovulatory period-detection of estrus, mating management, pregnancy determination, and estrous cycle manipulation.
Detection of Estrus
Palpation and teasing are the two most common management tools used in the detection of heat. Rectal palpation and ultrasonography will help define the time of ovulation, and thus aid in mating management. Parameters of follicular size, follicular consistency, cervical size and consistency, and uterine tone can be monitored through rectal palpation. A mare with a large, very soft follicle that has an open cervix is a prime candidate for breeding. On the other hand, a mare that has no or very small turgid follicles and a closed cervix would be a poor candidate for breeding. Most managers use a combination of teasing and palpation for
estrus detection and breeding determination. Mares are teased and those showing signs of estrus are palpated to better define reproductive status. Mares can be individually teased or placed in teasing pens which are constructed to allow for group teasing. Most farms utilize some form of teasing code for record keeping which defines mare receptivity to a teaser stallion. The behavioral signs of estrus include winking of the vulva, urination, squatting, and seeking the stallion.
Increasingly, ultrasonography is being utilized for estrus detection and determination of ovulation. With real-time ultrasonography, veterinarians can determine follicular size, early ovulation, uterine changes characteristic of estrus, and abnormalities of the reproductive tract. Ultrasonography is a significant contributor to reduction of the number of breedings or inseminations required per estrus.
Each mare responds and acts differently during estrus. Thus, day to day monitoring of teasing status and reproductive tract parameters is essential.
Ovulation can be easily missed unless managers are precise in estrus detection and maintain accurate records. Managers often start breeding mares the second or third day of estrus (heat) and continue every other day until the mares goes out of estrus. However, palpation and ultrasonography can aid significantly in calculating the proper breeding time.
Several management techniques are used for pregnancy determination. One of the simplest ways is to watch for signs of heat. A mare may be pregnant if she exhibits no signs of heat 18 to 20 days after her last ovulation. However, some mares may not cycle because of follicular or corpora luteal abnormalities, or they may have silent heat periods in which external signs of estrus are not evident. These problem mares would not be bred again if absence of heat was the only factor used to determine pregnancy. Because of these situations, other methods for pregnancy determination are commonly used.
Mares are most often rectally palpated 18 to 45 days following the last day of insemination. In recent years, real-time ultrasonography has gained attention for use in pregnancy determination. Ultrasonography can be used to obtain a visual image of the mare's reproductive tract, and thus to detect pregnancy before palpation is normally performed. Ultrasonography is normally used following the 14th day post-breeding, but it can detect pregnancies as early as 10 days post- ovulation. As mentioned earlier, the ultrasound can also be used to detect estrus and follicular development, and it can be used with mares that have reproductive tract abnormalities or abnormal cycles (Figure 3).
Manipulation of the Estrous Cycle
There are several management tools used to bring about the onset of the breeding season or to alter the estrous cycle itself. The most reliable method used to induce the ovulatory season is the use of artificial lights to alterthe mare's perception of day length. The easiest light management program is to use lights at the end of the day to extend the perceived day length (or photopenod) to 16 hours. This practice entails turning on an artificial light source 30 minutes before sundown. The light source should be turned on to supply enough additional light to produce a total 16 hours of daylight (natural and artificial). There is a lag period of 60 to 90 days between the onset of daylight extension and first ovulation. Therefore, if February-March ovulations are desired, mares should be started on the lighting program before December 15.
Perception of day length must be constant from day to day; the use of automatic timers is of benefit. Also, using too much light can cause adverse effects. Mares that are exposed to continuous light will not cycle properly. Light intensity should be a minimum of two foot-candles, which is comparable to one 200-watt bulb for a 12 x 12-foot stall. Floodlights can be used on outside pens. A general rule is that lighting is sufficient if a newspaper can be easily read in any corner of the stall or pen. One side note is that mares in light inducement programs will also shed hair, so those housed outside will need protection from bad weather.
While the use of artificial lights has the greatest benefit on dry or open mares, recent studies have shown that early foaling mares will also respond to added light. Gestation lengths have been decreased by as much as 10 days when using lights for open mares, with no effect on foal weight and size. Artificial lighting enhances proper cycling in these mares after foaling.
Artificially advancing the ovulatory season in open and bred mares will help maintain a yearly foaling interval, produce older foals at the breed association's January 1 universal birth date, and make better use of available semen across the entire breeding season.
Several pharmaceutical products are used in the horse industry to maximize conception rates once mares are cycling. Prostaglandin is responsible for regression of the corpus luteum during normal cycles. Mares can be "short cycled by treatment with protaglandin F2a or one of its synthetic analogues, if there is a viable corpus luteum present. Prostaglandins are most effective when used on days 6 through 8 after ovulation, potentially reducing the interval from one heat to the next by as much as eight days. Prostaglandin treatment is most often used on mares that were not bred on the previous cycle and that have a viable corpus luteum suppressing the estrous cycle. Use of prostaglandin should be under the direct supervision of a licensed veterinarian, both for determination of usage and because of occasional adverse side effects. Pregnant women should avoid contact with the drug because it has been proven to cause abortions.
Progesterone can be used to suppress heat during transition into the ovulatory season in mares that have histories of long and erratic estrous cycles during this time. Progesterone has also been used with less consistent results to maintain pregnancy in mares with abortion history.
Another hormone that has been used with some success in breeding management is Human Chorionic Gonadotropin (HCG). HOG aids in stimulating ovulation in mares. It is most often given at the same time the mare is bred. HOG will normally lead to ovulation of a mature follicle within 48 hours, aiding in appointment breeding and helping mares that tend to develop a follicle and fail to ovulate. Estrogen, gonadotropin releasing hormone (GnRH), and FSH have been used to alter reproductive function. Results of the use of these three hormones, by themselves, are usually poor when compared to their use in other large animal species.
It is extremely important to keep accurate records of each mare's reproductive status. Breeding, teasing, palpation, and health records are examples of some of the essential record types necessary to assist in attaining maximum productivity. Breeding records should include mare identification, breeding dates, health comments, and expected and actual foaling dates. Health records should identify the date and description of health care, including the person who administered it. An example of a teasing and palpation record is given in Figure 4. The teasing record includes identification of the mare, teasing dates, teasing codes corresponding to the teasing dates, and other information, such as treatment records and dates bred.
Palpation records include dates and remarks of each palpation, teasing scores, and information describing follicular and reproductive tract condition. The following codes correspond to the record in Figure 4:
Mare is visibly resistant to stallion
Commonly sized as <20, 30, 40, 50 millimeters or greater in diameter.
1 - <10
Poor, fair, good, excellent, or pregnant
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