Behavioral estrous signs can predict the time of ovulation in mithun (Bos frontalis)

The objective of this study was to investigate the relationship of different behavioral estrous signs and time of ovulation to identify if behavioral estrous sign(s) can be used as predictor of time of ovulation in mithuns. Data were collected for 54 ovulations from 16 mithuns. The animals were monitored for onset of estrus by observing different behavioral estrous signs at 2 h interval and bull parading thrice a day for 30 min and were further confirmed by plasma progesterone profile. All animals were also observed for any of the estrous signs at every 2 h interval for 30 min and mounting behavior was studied by bull parading at every 2 h for 30 min after onset of estrus. Time of ovulation was detected by rectal palpation at 2 h interval from onset of estrus till ovulation. Behavioral signs of estrus was more intense in primiparous than multiparous mithuns. Ovulation occurred at 26.1+/-1.1 h (ranging between 20 and 31 h) after the onset of estrus. As the method used to determine the onset of estrus is time consuming, labor intensive and no device is yet available to detect onset of estrus automatically, so this cannot be used practically as a predictor of time of ovulation. The mithun cow at estrus to be mounted by bull was recorded in all cases (100%). Ovulation occurred 23.5+/-1.5 h (ranging between 19 and 27 h) after first mounting. Although promising, mounting cannot be assessed automatically, which limits its practical use as a predictor of ovulation. Standing heat was recorded in 98.1% of total estrus studied in mithun cows and ovulation occurred 21.8+/-1.3 h (ranging between 19 and 25 h) after first observed standing heat. Standing heat can be detected automatically using mounting detectors. Hence, standing heat can be used practically as ovulation predictor in mithuns. In conclusion, cow to be mounted by mithun bull is the best predictor of ovulation, but non-availability of devices to detect it automatically restricts its practical application. Standing heat that recorded 98.1% estrus cases in mithun cows, can also be detected automatically using mounting detector, therefore be used widely as an ovulation predictor in field condition for mithun cows.     

Various behavioral signs of estrous and their relationship with time of ovulation in dairy cattle

The objective of this study was to investigate the relationship between various behavioral signs of estrous and time of ovulation and, determine which behavioral estrous sign(s) best predicted time of ovulation. In total, 94 ovulations were observed in 67 Holstein-Friesian dairy cows. Different behavioral estrous signs were observed at 3-h intervals and their relation with time of ovulation (ultrasound examinations at 3-h intervals) was investigated. In all estrous periods, sniffing and chin resting was displayed, while mounting was displayed in 90% and standing heat in 58% of estrous periods. Estrus was more intense in primiparous cows compared to multiparous cows and when more animals were in estrus at the same time. Although, these factors influenced intensity of estrous behavioral signs, they did not influence time of ovulation. Ovulation occurred 30.0 +/- 5.1 h after onset of estrus (ranging between 18.5 and 48.5 h) and 18.8 +/- 4.4 h after end of estrus (ranging between 9.5 and 33.5 h). Although informative, these predictors are highly variable between individuals and the method used to determine the onset and end of estrus is time consuming this, therefore limits in their use as a practical predictor of ovulation. Sniffing and chin resting were displayed during the non-estrous period and are therefore, not useful predictors of ovulation time. For animals that displayed standing heat, onset of standing heat was a good predictor for ovulation time (occurring 26.4 +/- 5.2 h before ovulation). However, standing heat was only displayed in a limited number of cows, especially when only one cow was in estrus at a time. Onset of mounting was the best predictor for time of ovulation (occurring 28.7 +/- 5.3 h before ovulation), and it was displayed in 90% of the estrous periods. However, mounting cannot yet be assessed automatically, which limits its practical use as ovulation predictor.     

The reproductive performance of East African (Bos Indicus) Zebu cattle in Ethiopia. 1. Estrous cycle length, duration, behavior and ovulation time

The average (+/- standard deviation) estrous cycle length of 28 East African Zebu cows over a 217-d period, was 22.6 +/- 6.5 d with no significant (P>0.05) difference between seasons. Estrus had a mean duration of 7.66 +/- 4.68 h (ranging from 1 to 24 h) followed by ovulation 25.82 +/- 5.25 h after the onset of estrus. A larger number of estruses started during the day (64 vs 36% P<0.001) and they were longer during the dry season (P<0.05). Proestrus and metaestrus had average duration of 3.46 +/- 3.57 and 3.65 +/- 2.87 h, respectively. Of the estruses recorded, 31% had no proestrus and 34% had no metaestrus. More mounting occurred during the day than night (59 vs 41%; P<0.001), and mounting activity had two peaks: 0600 to 0900 h and 1600 to 1900 h. The average number of mounts observed per estrus was 9.2 (ranging from 1 to 58), and the mounts were concentrated at the beginning and end of estrus, irrespective of their duration. Vaginal mucus discharge was detected in 64% of the cows in estrus.     

Use of a vaginal mucus impedance meter to detect estrus in the cow

Two experiments were conducted to investigate the efficacy of a vaginal mucus impedance meter for the detection of estrus in the dairy cow. In Experiment 1 the positioning of the probe within the vaginal tract was examined in dairy cows (n=6) by measuring mucus impedance at 5-cm intervals during probe withdrawal and comparing these fixed distance measurements with the depth within the vaginal tract at which the lowest impedance measurement was recorded. Measurements at 15 and 20 cm from the vulva were significantly lower than at other fixed depths, but did not show a reduction during estrus. The lowest recording upon withdrawal of the probe, which usually occurred between 15 and 20 cm from the vulva, was significantly lower than at any fixed depth recordings and was reduced proportionate during estrus to 0.14 of its non-estrus value. In Experiment 2 the accuracy of the probe to confirm estrus in cows exhibiting possible estrus signs was examined. Dairy cows (n=191) were inseminated either on the basis of herdsman observation of behavior alone (Treatment A) or on the basis of herdsman observation with cows exhibiting signs of estrous behaviour, but not standing to be mounted, being tested for vaginal mucus impedance (Treatment B). There were no significant treatment differences in the estrus detection rate, conception rate or other reproductive performance parameters. However, in 12% of cows in Treatment B, measurement of vaginal mucus impedance detected an extra estrous event, giving a theoretical increase in the estrus detection rate from 0.67 to 0.74 detected/predicted estrous events. It was concluded that when using a vaginal probe the lowest value in the vaginal tract should be sought, but that using the probe as an adjunct to herdsman's observation would not greatly increase estrus detection rate.     

Temporal relationships among estrus, body temperature, milk yield, progesterone and luteinizing hormone levels, and ovulation in dairy cows

Estrous cycles of 10 postpartum cyclic Holstein cows were synchronized using prostaglandin f(2alpha) (PGF(2alpha)) given twice 12 d apart to study the relationship of the onset of estrus, body temperature, milk yield, luteinizing hormone (LH) and progesterone concentration to ovulation. Blood samples and body temperatures (vaginal and rectal) were taken every 4 h until ovulation, starting 4 h prior to the second PGF(2alpha) treatment. All cows were observed for estrus following the second administration of PGF(2alpha). Ultrasound scanning of the ovaries commenced at standing estrus and thereafter every 2 h until the disappearance of the fluid filled preovulatory follicle (ovulation). Two cows failed to ovulate and became cystic following the second PGF(2alpha) treatment. The remaining eight cows exhibited a decline in progesterone to <1.0 ng/ml within 28 h, standing estrus and a measurable rise (> 1.0 degrees C) in vaginal but not rectal temperature, and ovulated 90 +/- 10 h after the second PGF(2alpha) treatment. Onset of standing estrus, LH peak and vaginal temperature were highly correlated (P<0.05) with time of ovulation (0.82, 0.81 and 0.74, respectively). Intervals to ovulation tended to depend upon parity. Pluriparous (n = 4) and biparous (n = 4) cows ovulated within 24 and 30 +/- 3 h from the onset of standing estrus; 22 and 31 +/- 2 h from the LH peak; and 22 and 27 +/- 3 h from peak vaginal temperature (mean +/- standard error of the mean), respectively. The results indicated that the onset of standing estrus and rise in vaginal temperature are good practical parameters for predicting ovulation time in dairy cattle.     

The effects of different PMSG doses on estrus behavior and pregnancy rate in Angora goats

Artificial insemination protocols depend on efficient behavioral estrus detection and insemination time in Angora goat. Therefore, we aim to determine the accuracy of an estrus scoring system in Angora goats with different PMSG doses during the breeding season. Does (n: 260) were randomly divided into three groups: group-1 (n: 93), group-2 (n: 85) and group-3 (n: 82). All animals received an intravaginal sponge on day 0 for 11 days, and on the day of sponge insertion 150 μg prostaglandin F2Α was administered. Pregnant mare’s serum gonadotropin was injected 300, 400 and 500 IU intramuscularly 24 h before sponge removal to groups 1, 2 and 3, respectively. Estrus signs were detected with a teaser buck, 24 h after sponge removal according to a visual scoring system. Artificial insemination was performed with 0.25 ml fresh diluted semen at 43 to 45 h after sponge removal. Differences were observed within PMSG groups in terms of standing, tail wagging, courtship behavior, vaginal discharge and vaginal hyperemia (P<0.001). Nevertheless, the most accurate indicators of estrus that result in pregnancy were tail wagging and courtship behavior followed by standing estrus (P<0.05). According to the results obtained, 300 IU PMSG dose is sufficient, both to inseminate at a fixed time (43 to 45 h after sponge removal) and to record the estrus behavior by teaser male 24 h after sponge removal. Higher PMSG doses (400 to 500 IU) altered the timing of ovulation; specifically, 500 IU dose shortened the duration of estrus behaviors. In conclusion, even though the different doses of PMSG displayed similar effects on estrus synchronization and pregnancy rates, we concluded that tail wagging, courtship behavior and standing heat are the most reliable estrus signs for artificial insemination in Angora goat.     

A comparison of the estrous behavior of Holstein-Friesian cows when cubicle-housed and at pasture

This study compared estrous behavior of dairy cows kept in cubicle housing and fed a total mixed ration diet (HOUSED treatment) with that of cows kept at pasture with concentrate supplementation (PASTURE treatment). Behavior was compared both in the 48 h around standing estrus and during the standing estrus period. The 23 spring-calving Holstein-Friesians in each treatment were observed directly three times per day for nine weeks. The occurrence of nine selected behaviors associated with estrus was recorded during 20 min observation sessions. Twelve standing estrus events from each treatment were selected for analysis of the frequency of these nine behaviours over the 48 h around standing estrus. Milk progesterone profiles were used to confirm the dates of standing estrus events. Attempting to mount other cows, sniffing the anogenital region of other cows, resting the chin on other cows, receiving chin rests and head-to-head butts all showed significant changes in frequency in the 48 h around standing estrus in both treatments, reaching a peak during standing estrus (P ≤ 0.05). Mounting other cows increased significantly in the PASTURE treatment around standing estrus (P < 0.001), but not in the HOUSED treatment. The frequency of ano-genital sniffs received by the animals in the PASTURE treatment also increased significantly around standing estrus (P < 0.01) but not in the HOUSED treatment. When the animals were in standing estrus there was a significantly higher frequency of standing to be mounted in PASTURE than in HOUSED cows (median (q1, q3) PASTURE = 2.5 (1.0, 3.0), HOUSED = 0.0 (0.0, 1.0)) (P < 0.01), but no difference in the frequency of the other eight sexual behaviors recorded. HOUSED cows did not exhibit the same increase in mounting during the standing estrus period as PASTURE cows and received fewer mounts in observation sessions during standing estrus. These results have implications for the use of estrus detection systems that rely solely on mounting behavior in cubicle-housed dairy cows.     

The time of ovulation in relation to estrus duration in gilts

The objective of this study was to determine time of ovulation, monitored by transcutaneous ultrasonography, relative to the duration of estrus in gilts. We exposed 92 cyclic gilts, Camborough x Canabrid terminal line, at Day 19 of their third estrous cycle to vasectomized boars every 6 h for the detection estrus. Transcutaneous ultrasonography was performed every 6 h, starting 24 h after the onset estrus, to determine time of ovulation. Estrus duration was, on average, 52.6 h (range: 30 to 72 h), and ovulation occurred between 30 and 60 h after the onset of estrus (mean: 44 h), about 85 % of the way through the estrus period. The time of ovulation during estrus was dependent on the duration of estrus (Time of ovulation = (duration of estrus) x 0.409 + 22.7; r = 0.57, P = 0.0001). Prediction of the time of ovulation in relation to duration of estrus is important for determining the optimal time for inseminating gilts. This knowledge would contribute to an improvement in the fertilization rate and in reproductive efficiency of the breeding herd.     

Endocrine pattern and external oestrous symptoms at second and fourth oestrus in gilts

The peripheral blood plasma levels of LH, oestradiol-17β and progesterone were recorded during the second and fourth pro-oestrous—oestrous periods in six crossbred (Swedish Landrace X Swedish Yorkshire) gilts. The relationships between hormonal levels, external heat signs and ovarian function were studied.Blood samples were taken every third hour during the pro-oestrous—oestrous periods and during this time the heat detection was performed when blood was collected, otherwise twice daily. The ovaries were inspected by laparoscopy after the first, second and fourth oestrus. The gilts were slaughtered after the fifth oestrus and the genital organs examined.In the five gilts showing five successive regular heats the duration of the second pro-oestrus (reddening and swelling of the vulva) was significantly longer (56.4 ± 5.3 h) than that of the fourth (23.4 ± 6.3 h). The oestrus (standing reflex) duration did not differ, being 51.6 ± 5.4 h for the second and 52.2 ± 9.3 h for the fourth oestrus. The mean oestradiol-17β level was significantly increased during the fourth pro-oestrous—oestrous period (43.9 ± 0.75 pmol) as compared to the second (37.8 ± 0.73 pmol). The LH level was also significantly higher during the fourth (1.61 ± 0.08 μg/l) than during the second pro-oestrous—oestrous period (1.25 ± 0.08 μg/l). There was, however, no difference in the duration of elevated oestradiol levels (> 30 pmol/l). In spite of the higher oestradiol-17β levels, the duration of the external heat signs was reduced during the fourth pro-oestrus when compared to the second. This phenomenon might be explained by a change in susceptibility of vulvar hormonal receptor mechanisms.The sixth gilt displayed three normal heats, but failed to show standing reflex and to ovulate thereafter. The hormonal patterns were normal during the second pro-oestrous—oestrous period. At the expected fourth heat there was a rise of oestradiol but no preovulatory LH peak occurred.     

Autoclaved, previously used intravaginal progesterone devices induces estrus and ovulation in anestrous Toggenburg goats

Intravaginal progesterone devices are used worldwide for estrus induction in goats. Reused devices are able to induce estrus; however, this can be a health risk within a flock. The objective was to compare new and previously used (and autoclaved) progesterone-releasing intravaginal devices for induction of estrus and ovulation in seasonally anestrous Toggenburg goats. Anestrous goats (n=42) received new intravaginal devices containing 0.3g progesterone (CONTROL), or similar devices previously used for either 6 (USED6) or 12d (USED12) and subsequently autoclaved. All goats received 5mg dinoprost at device insertion and 200 IU eCG 5d later, and all devices were removed after 6d. After device removal, estrus was monitored and females displaying signs of estrus were mated by fertile bucks. Transrectal ovarian ultrasonography was performed after device removal until detection of ovulation. Blood samples were collected for determination of plasma progesterone concentration at different times. There was no difference (P>0.05) among groups CONTROL, USED6 or USED12 for: estrus response (87, 100 or 100%, respectively); duration of estrus (32.3±2.3, 25.2±3.4 or 27.3±4.1h); ovulation rate (100, 88 or 100%); number of ovulations (1.5±0.2, 1.9±0.3 or 1.7±0.3); and pregnancy rate (60, 58 or 67%). Plasma progesterone (P4) concentrations were greater (P<0.05) in CONTROL than in USED6-treated and USED12-treated goats (7.2±1.2, 4.7±0.7 and 4.3±0.6 ng/mL, respectively) at 6h after device insertion; these differences were maintained until 4d after device insertion (3.4±0.4, 2.3±0.2, and 2.5±0.2 ng/mL). Overall, plasma progesterone concentrations were greater (P<0.05) in nulliparous than in lactating goats (3.1±0.8 compared to 2.4±0.6 ng/mL, respectively). In conclusion, autoclaved, previously used intravaginal progesterone-releasing devices resulted in significant lesser plasma progesterone concentrations than new devices, but were similarly effective in inducing estrus and ovulation in anestrous goats.     

Estrus response of indigenous Nigerian Zebu cows after prostaglandin F2 alpha analogue treatment under continuous observations for two seasons

The study was undertaken to determine the estrus response pattern of Zebu cows indigenous to Nigeria following treatment with prostaglandin F(2alpha) analogue and to determine the effect of season on the estrus parameters. Eighty cyclic Zebu cows were used in both the dry and wet seasons. Two single intramuscular injections of 25 mg of PGF(2alpha) analogue were given per cow 11 days apart regardless of the stage of the estrous cycle. The cows were then observed continuously for 168 h following each injection. The proportion of treated cows responding to PGF(2alpha) treatment in the wet season (90%) was significantly higher (P<0.005) than in the dry season (70.0%). The mean post-injection interval to onset of non-standing estrus (mucus discharge) was 30.6 h and 28.5 h in the dry and wet seasons, respectively. Similarly, the intervals to standing estrus were 69.7 h and 63.9 h in the two seasons, respectively. Seasonal effects were not significant. The duration of non-standing estrus was similar for the two seasons (164.2 h and 162.0 h) while the duration of standing estrus was significantly (P<0.01) longer in the wet season (19.2 h) than in the dry season (12.6 h). Also there was seasonal influence on the body condition score of cows, the palpability of corpora lutea (CL) and the intensity of estrus as determined by the number of mounts (17.9+/-2.0 and 51.2+/-3.4 mounts per cow per estrus period in the dry and wet seasons, respectively).     

Application of electronic estrus detection technologies to reproductive management of cattle.

Artificial insemination and embryo transfer programs are dependent on efficient and accurate detection of estrus. Visual observation is accurate at detecting animals in estrus, but efficiency ranges from approximately 50 to 70%. Electronic technologies have been developed in attempts to improve estrus detection efficiency. Commercially available electronic devices for estrus detection are based on changes in physical activity (pedometers), changes in electrical resistance of reproductive tract secretions (intravaginal resistance probes) or mounting activity (mount detectors). All of the commercially available electronic estrus detection devices can improve the efficiency of estrus detection in cattle. Pedometers are most applicable to lactating dairy cattle and have greater accuracy and efficiency when combined with visual observation. Intravaginal resistance measurement is perhaps the least practical method of estrus detection because of labor and animal handling requirements. Individual resistance measurement may have practical application for confirming other inconclusive signs of estrus. Mount monitors have the broadest application to beef and dairy cattle. HeatWatch, the only real-time radiotelometric system available, requires the least labor and animal handling and provides data on the time and duration of each mount. The less expensive stand-alone mount monitors also provide the necessary information for optimum timing of insemination and embryo transfer, but are more labor intensive.     

Effect of lameness on estrous behavior in crossbred cows

Lameness, a common disease in crossbred dairy cows, badly affects their fertility. To elucidate, if estrous behavior, comprising of duration and expression of certain estrous behavioral sign(s) (EBS), is involved, an estrous expression score system was applied to objectively compare estrous behavior during 27 and 58 estrous periods, respectively, in 17 normal and 37 lame cows kept in a group of 200 cows under loose housing system in tropical India. The cows were detected in estrus and were closely watched daily for 30 min at 0630, 1030, 1430 and 1830 h from the beginning to the end of estrus. The duration of estrus was similar in the normal and the lame cows (18.7+/-1.2 h versus 17.2+/-0.9 h) and almost similar EBS were shown by two types of cows, albeit with varying frequency. Standing to be mounted, the highest ranking EBS was shown by equal proportions of the cows in both the groups (76.4% versus 73.0%). A lower proportion of lame cows showed head side mounting (35% versus 53%; P<0.05). The frequency of standing to be mounted events was lower in the lame than in the normal cows (2.4+/-0.4 versus 8.0+/-2.5; P<0.05). The lame cows earned non-significantly lower than normal estrous behavior score (1100+/-179 versus 1610+/-357). Further, the presence of more than one cow simultaneously in estrus enhanced the estrous behavior score in the normal (406.4+/-63.0 for one cow in estrus versus 793.0+/-146.0 for three cows simultaneously in estrus; P<0.05), but not in the lame cows. Lameness appeared to have suppressed the playful behavior during estrus probably owing to pain related stress. It is concluded that mildly lame cows appear to have normal physiological estrus. However, some of the EBS remain subdued which prone them to remain undetected for timely breeding.     

Conference lecture: influence of stress on estrus, gametes and early embryo development in the sow

Systems with loose-housed sows have become common. Regrouping, which is commonly done after weaning and may coincide with many important reproductive events, causes stressful situations with elevated blood cortisol concentrations. Depending on group size, approximately 2-7 d are required for a new group of sows to become relatively stable. In a series of studies, the social stress after regrouping was simulated with repeated adrenocorticotrophic hormone (ACTH) treatments for approximately 48h. Sows were allocated into control and experimental groups, fitted with jugular catheters, and blood samples were collected every 2 or 4h. Follicular development and ovulation were monitored by transrectal ultrasonography every 4h. Simulated stress during pro-estrus prolonged estrus and disturbed the follicular growth and ovulation. Giving ACTH during estrus elevated concentrations of cortisol and progesterone, and changed the intraluminal environment, including exaggerated amounts of mucus in the UTJ and isthmus. Although ACTH had no effect on the time of ovulation (relative to onset of standing estrus), or on embryo development, fewer oocytes/embryos were retrieved from the ACTH group than from the control group (51% vs. 81%, P<0.05), and there was a tendency towards faster embryo transportation to the uterus. Short-term fasting after ovulation had an unfavourable effect on sperm numbers in UTJ/isthmus, cleavage rate of fertilized ova, as well as ova transport through the isthmic part of the oviduct. Treatment with ACTH after ovulation reduced numbers of spermatozoa at the zona pellucida and retarded cleavage rate of fertilized ova. Therefore, the timing of stress seemed to be an important factor regarding effects on reproductive events.     

Variations in the vulvar temperature of sows during proestrus and estrus as determined by infrared thermography and its relation to ovulation

The prediction of ovulation time is one of the most important and yet difficult processes in pig production, and it has a considerable impact on the fertility of the herd and litter size. The objective of this study was to assess the vulvar skin temperature of sows during proestrus and estrus using infrared thermography and to establish a possible relationship between the variations in vulvar temperature and ovulation. The experimental group comprised 36 crossbred Large White × Landrace females, of which 6 were gilts and 30 were multiparous sows. Estrus was detected twice daily and the temperature was obtained every 6 hours from the vulvar area and from two control points in the gluteal area (Gluteal skin temperature [GST]). A third variable, vulvar–gluteal temperature (VGT) was obtained from the difference between the vulvar skin temperature and the GST values. The animals were divided into two subgroups: group A consisting of 11 animals with estrus detected at 6:00 AM, Day 4 postweaning, and group B comprising seven animals with estrus detected at 6:00 AM, Day 5 post-weaning. Both groups showed a similar trend in the VGT. The VGT increased during the proestrus, reaching a peak 24 hours before estrus in group A and 48 hours before estrus in group B. The VGT then decreased markedly reaching the lowest value in groups A and B, respectively, 12 and 6 hours after estrus. Although the time of ovulation was only estimated on the basis of a literature review, the matching between the temporal variations of the VGT values and the predicted time of the peak of estradiol secretion that ultimately leads to the ovulation processes suggests that the VGT values represent a potential predictive marker of the ovulatory events.     

Effect of time of ovulation and sperm concentration on fertilization rate in gilts

In normal production practices, sows and gilts are inseminated at least twice during estrus because the timing of ovulation is variable relative to the onset of estrus. The objective of this study was to determine if a normal fertilization rate could be achieved with a single insemination of low sperm number given at a precise interval relative to ovulation. Gilts (n=59) were randomly assigned to one of three treatment groups: low dose (LD; one insemination, 0.5 x 10(9) spermatozoa), high dose (HD; one insemination, 3 x 10(9) spermatozoa) or multiple dose (MD; two inseminations, 3 x 10(9) spermatozoa per insemination). Twice daily estrus detection (06:00 and 18:00 h) was performed using fenceline boar contact and backpressure testing. Transrectal ultrasonography was performed every 6 h beginning at the detection of the onset of standing estrus and continuing until ovulation. Gilts in the LD and HD groups were inseminated 22 h after detection of estrus; MD gilts received inseminations at 10 and 22 h after detection of estrus. Inseminations were administered by using an insemination catheter and semen was deposited into the cervix. The uterus was flushed on Day 5 after the onset of estrus and the number of corpora lutea, oocytes, and embryos were counted. Time of insemination relative to ovulation was designated as 40 to >24 h, 24 to >12 h, and 12 to 0 h before ovulation and >0 h after ovulation. The LD gilts had fewer embryos (P<0.04), more unfertilized oocytes (P<0.05) and a lower fertilization rate (P<0.07) compared to MD gilts. The effects of time of insemination relative to ovulation and the treatment by time interaction were not significant. We conclude that a cervical insemination with low spermatozoa concentration may not result in acceptable fertility even when precisely timed relative to ovulation.     

Accuracy of predicting the LH surge and optimal insemination time in Holstein heifers using a vaginal resistance probe

Monitoring changes in vaginal electrical resistance in association with ovarian follicular development during proestrus may provide an alternative to visual estrus detection of cattle for properly timing insemination. In two experiments 94 Holstein heifers were synchronized into estrus with 2 injections of prostaglandin F(2) alpha (PG) 11 d apart. Beginning 12 h prior to the second PG treatment, blood samples and vaginal resistance measurements were taken every 12 h for 60 h, and then every 6 h for the following 48 h. In both Experiments I and II, the lowest resistance value was found to be highly correlated with the luteinizing hormone (LH) preovulatory surge (r = 0.67 P<0.001). The linear regression of time from PG to the LH surge (Y) on time from PG to the lowest resistance value (x) was defined by Y = 17.49 + 0.71 (x) (R(2) = 0.45). This suggests that the lowest resistance value can predict the LH surge and, therefore, the appropriate time to inseminate heifers relative to the expected time of ovulation. This concept was tested in Experiment II by assigning 50 heifers to be inseminated after PG treatment on the basis of their vaginal resistance pattern, by appointment 66 h after PG, or by visual observation of standing estrus. Conception rates were 58, 50 and 50% in these groups respectively, and did not differ significantly. Overall, these results suggest that measurement of vaginal resistance patterns reliably predict the LH surge and can be successfully utilized to inseminate cattle.     

Serum estradiol-17beta, vaginal cytology and vulval appearance as predictors of estrus cyclicity in the female collared peccary (Tayassu tajacu) from the eastern Amazon region

This report describes the characteristics of estrus in the female collared peccary (Tayassu tajacu) from the eastern Amazon. Two consecutive experiments were performed. The objective of the first experiment was to assess the efficacy of estrus diagnosis by serum estradiol-17beta measurements, vaginal cytology and vulval appearance. The second experiment was designed to evaluate the effectiveness of these features for predicting the period of mating acceptance. In Experiment 1, we monitored 56 presumptive estruses in 14 captive females. Estrus was characterized by the reddish and tumescent appearance of the vulva, the presence of vaginal mucus and vaginal opening, which persisted for 4, 4, 2, and 2 days, respectively. In vaginal smears, superficial plus intermediate cells became predominant (accounting for 60% of all cells) for a 4-day period, from 2 days before the estradiol-17beta peak. Superficial cells did not attain their maximum density (45% of all cells) until approximately 1 day before the serum estradiol-17beta peak. Following estrus, superficial and intermediate cells were notably reduced and the appearance of the vulval appearance was characterized by a pale, non-tumescent vulva and vaginal closure. A complete concordance in estrus diagnosis by the 3 methodologies was observed in 35 (62.5%) of the total 56 estrus predictions. In Experiment 2, mating was confirmed in 10 out of the 14 cyclic females. Sexual receptivity was observed in the last third of the period during which secondary estrus signs were shown. In conclusion, examining the vulval appearance and taking a vaginal smear constitutes a useful method of detecting estrus and predicting the period of male acceptance of the collared peccary female. Estrus was indicated by a predominance of superficial cells, and a proportion of superficial plus intermediate cells higher than 60% in the vaginal smear.     

Sexual characteristics of domestic queens kept in a natural equatorial photoperiod

The objective of this study was to describe the sexual characteristics of domestic queens kept under natural equatorial photoperiod conditions without mating. Estrous signs were detected in 25 pubertal queens by manual stimulation and by exposure to a tomcat twice daily for 6 months (January to June). The signs observed were tail deflection, spinal flexion, rubbing or rolling, vaginal discharge, vocalization, treading of the hind legs, body or tail tremor and rigidity, blow or scratches, and discomfort on manipulation. The queen was considered in estrous when neck grip, tail deflection and attempted penile intromission by the male were allowed after mounting. From 187 cycles, there were (mean +/- S.E.M.) 7.5 +/- 0.7 cycles detected per queen; the duration of the cycle, estrus and non-acceptance were 18.1 +/- 0.9, 7.9 +/- 0.5, and 10.3 +/- 0.9 d, respectively. Queens always maintained some signs of sexual behaviour; they remained ambivalent for no more than 24 h at a time. It was noted that 85.3% of the observations of body or tail tremor and rigidity were made during estrus; therefore, these signs were considered characteristic of sexual receptivity. There was no evidence of prolonged anestrus or of a circannual pattern to estrus cyclicity.     

Lack of an effect of prostaglandin injection at estrus onset on the time of ovulation and on reproductive performance in weaned sows

We evaluated the effects of a PGF2alpha analogue on time of ovulation and reproductive performance in multiparous Camborough sows (n=47). At onset of first post-weaning estrus, sows received either an intravulval injection of 3.75 mg of prostaglandin analogue (PGF) or, served as a non-injected control (CON). Beginning 24 h after the onset of estrus, transcutaneous ultrasonography was carried out every six h to determine time of ovulation. At 36, 54, and 72 h after the onset of estrus, blood samples were taken for progesterone analysis. Weaning-to-estrus (WEI), duration of estrus, ovulation rate and number of live embryos at d 28 of gestation were recorded. Treatment had no effect (P > 0.05) on any parameters measured. Duration of estrus classified as less or greater than the overall mean also had no effect (P > 0.05) on any of the parameters measured. Results indicate that treatment did not advance ovulation nor did it improve reproductive performance in sows. Overall, a negative correlation of WEI with the ovulation rate (P = 0.0005, r = -0.54) was established.