Estrual rise in body temperature in the bovine. II. The temporal relationship with ovulation.

Abstract Increases in internal body temperature have been observed near estrus in cattle. In our companion paper, an estrual rise in vaginal temperature occurred within a consistent interval from the LH surge. However, the relationship of this rise in temperature to ovulation was not determined. The objectives of this study were to: (1) characterize the temporal relationship between the estrual increase in body temperature and ovulation in the heifer, and (2) assess the consistency of this temporal relationship among individuals by comparing it to the consistency of intervals between other periovulatory events. Body temperature was monitored automatically and recorded every 15 min with intravaginal radiotransmitters in post-puberal heifers. Temperatures were averaged hourly. To monitor the demise of the corpus luteum and anticipate estrus, progesterone (P) concentrations were monitored. Blood samples were collected daily, beginning on day 16, until serum P fell to ≤ 0.5 ng/ml. Samples were then collected every 4 h until ovulation. Serum concentrations of estradiol-17β (E) and luteinizing hormone (LH) were measured in these samples. Serum concentrations of P, E and LH were determined by radioimmunoassay. Hourly temperature averages were compared to the previous 3 days' hourly temperature averages for each hour of the day. A significant ( P P > 0.10, F -test): E peak to onset of a TS (1.00 ± 5.90 h, mean ± s.d., n = 6), LH peak to onset of a TS (0.29 ± 5.22 h, n = 7), E peak to TO (22.30 ± 3.92 h, n = 6), LH peak to TO (21.43 ± 4.31 h, n = 7), and onset of a TS to TO (21.14 ± 6.07 h, n = 7). In conclusion, intervals between periovulatory events had similar variances among heifers. Since the interval between the LH peak to ovulation is considered a repeatable periovulatory relationship, all periovulatory intervals in the current study can be considered repeatable. As such, relative to other periovulatory intervals, the interval between the onset of a TS to TO is consistent. Therefore, the onset of a TS, as monitored by radiotelemetry, may be as reliable a predictor of ovulation as the LH surge or other periovulatory events.

[1]  G. Niswender,et al.  Serum luteinizing hormone and plasma progesterone levels during the estrous cycle and early pregnancy in cows. , 1970, Biology of reproduction.

[2]  I. Cumming,et al.  Constancy of interval between luteinizing hormone release and ovulation in the ewe. , 1973, Journal of Reproduction and Fertility.

[3]  T. Welsh,et al.  Stress-induced alterations in secretion of corticosteroids, progesterone, luteinizing hormone, and testosterone in bulls. , 1981, Endocrinology.

[4]  P S Kalra,et al.  Transitory changes in plasma progestins, estradiol, and luteinizing hormone approaching ovulation in the bovine. , 1975, Journal of dairy science.

[5]  D. Lindsay,et al.  Effect of stress due to laparoscopy on plasma cortisol levels, the preovulatory surge of LH, and ovulation in the ewe. , 1981, Theriogenology.

[6]  D. Schams,et al.  The oestrous cycle of the cow: hormonal parameters and time relationships concerning oestrus, ovulation, and electrical resistance of the vaginal mucus. , 1977, Acta endocrinologica.

[7]  P. Hughes,et al.  The influence of male contact on plasma cortisol concentrations in the prepubertal gilt. , 1987, Journal of reproduction and fertility.

[8]  J. Valet,et al.  Prediction of bovine ovulation by a rapid radioimmunoassay for plasma LH. , 1983, Journal of reproduction and fertility.

[9]  P. Malven,et al.  Effect of repeated sampling on concentrations of testosterone, LH and prolactin in blood of yearling Angus bulls. , 1977, Theriogenology.

[10]  D. Cole,et al.  Reproduction in the gilt 7. Exposure of young gilts to the same mature boar and relocation: effects on the attainment of puberty , 1987 .

[11]  J. Ottobre,et al.  Estrual rise in body temperature in the bovine I. Temporal relationships with serum patterns of reproductive hormones , 1990 .

[12]  J. Cameron,et al.  Gonadotropin receptors of the primate corpus luteum. II. Changes in available luteinizing hormone- and chorionic gonadotropin-binding sites in macaque luteal membranes during the nonfertile menstrual cycle. , 1982, Endocrinology.