ABSTRACT.

The objective of this study was to characterize the reproductive cycle both endocrinologically and behaviorally in ewes. Blood samples were analyzed by EIA for progesterone (P₄), and RIA for estradiol in order to determine the breeding strategy of non-pregnant (n = 11) and pregnant (n = 9) White Karaman throughout the year in the Middle Anatolia (39.57⁰N, 32.53⁰W), Turkey. Estrous cycle lengths and estrous lengths were 18.36 ( 1.03 days and 35.16 ( 5.95 hours, respectively. The breeding season durations were 283 ( 63.36 days and 229.64 ( 63.74 days according to hormonal and behavioral data respectively (p ( 0.01). The highest and lowest data of estrous occurrence frequency was observed in October and June-July, respectively. P₄ levels ranged from 0.01 to 9.0 ng mL^-1 throughout the year and from 0.01 to 0.16 ng mL^-1 during anestrous. Mean plasma estradiol levels were 8.42 ( 2.51 pg mL^-1 during the estrous cycle. Postpartum anestrous durations were 134.8 ( 18.5 and 120.78 ( 29.89 days (n = 9) according to behavioral observation and hormonal data, respectively. P₄ concentration for the months 1 - 5 of the gestation period ranged from 4.54 to 15.08 ng mL^-1. P₄ concentrations in 4^th and 5^th months of gestation were higher than the other months (p ( 0.01). White Karaman reproductive activity is characterized by an extended breeding season and their relatively insensitivity to photoperiod stimulation allows for efficient out of season lamb production.

Keywords:
breeding season; estradiol; indigenous ewes; postpartum estrous; progesterone

RESUMO.

O objetivo deste estudo foi caracterizar o ciclo reprodutivo, endocrinológico e o comportamento de ovelhas Karaman. Análises de sangue foram analisadas pelo EIA para progesterona (P₄) e RIA para estradiol para determinar as estratégias de reprodução do Karaman Branca de não gestantes (n = 11) e de gestantes (n = 9) durante o todo o ano, em Anatólia, Turkia. O Ciclo estral e a duração do estro foram 18.36 ( 1.03 dias e 35.16 ( 5.95 horas, respectivamente. As durações da época de reprodução foram de 283 ( 63.36 e 229.64 ( 63.74 dias de acordo com os dados hormonais e comportamentais, respectivamente (p ( 0.01). Os maiores e menores dados de frequência do estro ocorreram em outubro e junho-julho, respectivamente. Os níveis de P₄ variaram de 0.01 para 9.0 ng ML^-1 ao longo do ano e 0.01 - 0.16 ng mL^-1 durante o cio. Níveis médios do plasma de estradiol foram 8.42 ( 2.51 pg mL^-1 durante o ciclo estral. As durações do pós-parto foram de 134.8 ( 18.5 dias e 120.78 ( 29.89 dias (n = 9) de acordo com a observação do comportamento e os dados hormonais, respectivamente. Concentrações de P₄ durante os meses 1 até o 5 do período de gestação variou de 4.54 para 15.08 ng mL^-1. Concentrações de P₄ no quarto e quinto mês de gestação foram maiores do que nos outros meses (p < 0.01). A atividade reprodutiva do White Karaman é caracterizada por um período de reprodução estendido e relativa insensibilidade à estimulação do fotoperíodo permite a produção eficiente de cordeiros fora de época.

Palavras-chave:
período de reprodução; estradiol; ovelhas nativas; pós-parto estro; progesterona

Introduction

The physiological aspects of sheep breeds have led researchers to identify that reproductive activity can be controlled using assisted reproductive technologies in both male and female sheep in order to improve their reproductive management. Hormone related factors that play a significant role in the reproductive biology of sheep breeds include: ovarian activity, estrous cycle, mating season length and the onset of postpartum estrous (Bartlewski, Baby, & Giffin, 2011Bartlewski, P. M., Baby, T. E., & Giffin, J. L. (2011). Reproductive cycles in sheep. Animal Reproduction Science, 124(3-4), 259-268. doi: 10.1016/j.anireprosci.2011.02.024
https://doi.org/10.1016/j.anireprosci.20... ; Basaran & Dellal, 1997Basaran, D. A., & Dellal, G. (1997). Synchronization of Oestrous and the Possibilities of Improving Reproductive Performance by Using Progestagen and PMSG in White Karaman Ewes. Turkish Journal of Veterinary & Animal Sciences, 21(3), 201-204. ; Pourlis, 2011Pourlis, A. F. (2011). A review of morphological characteristics relating to the production and reproduction of fat-tailed sheep breeds. Tropical Animal Health and Production, 43(7), 1267-1287. doi: 10.1007/s11250-011-9853-x
https://doi.org/10.1007/s11250-011-9853-... ).

In females, secretion of progesterone constantly plays a pivotal role on the effects of steroids and in the establishment of normal reproductive functions (Bartlewski et al., 2011Bartlewski, P. M., Baby, T. E., & Giffin, J. L. (2011). Reproductive cycles in sheep. Animal Reproduction Science, 124(3-4), 259-268. doi: 10.1016/j.anireprosci.2011.02.024
https://doi.org/10.1016/j.anireprosci.20... ). The regulation of the secretion and bioavailability of gonadotrophic hormones depend on a complex interaction between several internal and external factors (Rawlings & Bartlewski, 2006Rawlings, N. C., & Bartlewski, P. M. (2006). Clinical reproductive physiology of ewes. In R. S. Youngquist, & W. R. Threlfall (Eds.), Current Therapy in Large Animal Theriogenology (p. 642-649). Saint Louis, MO: Saunders Elsevier.). Research on progesterone and estradiol 17 β concentrations in prolific and cyclic sheep breeds discovered inter-breed differences (Bartlewski et al., 1999aBartlewski, P. M., Beard, A. P., Cook, S. J., Chandolia, R. K., Honaramooz, A., & Rawlings, N. C. (1999a). Ovarian antral follicular dynamics and their relationships with endocrine variables throughout the oestrous cycle in breeds of sheep differing in prolificacy. Journal of Reproduction and Fertility, 115(1), 111-124. doi: 10.1530/JRF.0.1150111
https://doi.org/10.1530/JRF.0.1150111... ; Bartlewski, Beard, Cook, & Rawlings, 1998Bartlewski, P. M., Beard, A. P., Cook, S. J., & Rawlings, N. C. (1998). Ovarian follicular dynamics during anoestrus in ewes. Journal of Reproduction and Fertility , 113(2), 275-285. doi: 10.1530/JRF.0.1130275
https://doi.org/10.1530/JRF.0.1130275... ; Bartlewski, Beard, & Rawlings, 1999bBartlewski, P. M., Beard, A. P., & Rawlings, N. C. (1999b). An ultrasonographic study of luteal function in breeds of sheep with different ovulation rates. Theriogenology , 52(1), 115-130. doi: 10.1016/S0093-691X(99)00114-4
https://doi.org/10.1016/S0093-691X(99)00... ; Ijabo, Jatfa, Oyedipe, Bawa, & Dawuda, 2014Ijabo, H. M., Jatfa, J. W., Oyedipe, E. O., Bawa, E. K., & Dawuda, P. M. (2014). Serum progesterone profiles during the estrous cycle, pregnancy and postpartum periods in Yankasa ewes. Nigerian Veterinary Journal, 35(1), 921-927. ; Souza, Campbell, & Baird, 1997Souza, C. J. H., Campbell, B. K., & Baird, D. T. (1997). Follicular dynamics and ovarian steroid secretion in sheep during the follicular and early luteal phases of the estrous cycle. Biology of Reproduction , 56(2), 483-488. doi: 10.1095/biolreprod56.2.483
https://doi.org/10.1095/biolreprod56.2.4... ).

The sheep population of Turkey is composed by 21 native multipurpose breeds and totals 31 million head. It is estimated that 40% of the population belong to the White Karaman (WK) breed which is an indigenous fat-tailed and seasonal sheep breed (Ertuğrul et al., 2009Ertuğrul, M., Dellal, G., Soysal, I., Elmacı, C., Akın, O., Arat, S., ... Yılmaz, O. (2009). Protection of native sheep breeds of Turkey. Ziraat Fakültesi Dergisi, Uludağ Üniversitesi, 23(2), 97-119. ). However, the patterns of reproductive activity for these animals have received little scientific consideration (Basaran & Dellal, 1997Basaran, D. A., & Dellal, G. (1997). Synchronization of Oestrous and the Possibilities of Improving Reproductive Performance by Using Progestagen and PMSG in White Karaman Ewes. Turkish Journal of Veterinary & Animal Sciences, 21(3), 201-204. ; Pourlis, 2011Pourlis, A. F. (2011). A review of morphological characteristics relating to the production and reproduction of fat-tailed sheep breeds. Tropical Animal Health and Production, 43(7), 1267-1287. doi: 10.1007/s11250-011-9853-x
https://doi.org/10.1007/s11250-011-9853-... ).

The objective of this study is to define optimum breeding strategy in WK by determining endocrinologically and behaviorally the reproductive cycle (estrous and anestrous) of this breed in case of pregnancy and non-pregnancy, together with the onset of the estrous period after postpartum.

Material and methods

Animals and location

Twenty WK ewes with the age of 2.5 years were randomly chosen from a flock of 500 animals once they had given a birth. Each animal was kept for one month before the onset of the study in order to allow for acclimatization and quarantine purposes. The mean body weight of twenty ewes was 74 ± 7.73 kg. The apron ram was 3.5 years of age (used before in mating). Eleven ewes were used for hormone analysis (1,144 data for P₄ assessment) and behavioral observation (8,030 data) without mating throughout the year. Nine ewes were mated and used for hormone analysis and behavioral observations for gestation and postpartum estrous intervals by using 936 and 1,935 data respectively.

The experiment was conducted in Middle Anatolia (39.57°N and, 32.53°’E) Saraykoy-Ankara-Turkey. Ankara has a hot Mediterranean/dry-summer subtropical climate that is mild with moderate seasonality. Vegetation is typically adapted to the arid summer conditions. Ewes were allowed to graze in daytime and return to their pens (200 m² for 20 ewes) at night in the semi-intensive conditions. During the strong winter climate, hay (ad libitum) and barley (200-300 gr) for each ewe were provided like small farmer conditions. The onset of estrous was detected with the aid of an apron ram for a 30-minute period, twice a day in 365 days. Nine ewes were mated and followed throughout their gestation, lactation and postpartum estrous period without ram effect.

Frequency of estrous occurrence (%): the number of monthly observations of estrous/monthly total number of progesterone and behavioral observations x 100.

Estrous as hormonal: progesterone concentration values below 0.5 ng mL^-1 was accepted as estrous.

Estrous as behaviorally: the ewe was accepted as being in estrous by standing still and allowing the ram to mount to her and displaying ram-seeking behavior or showing the lordosis reflex.

Estrous cycle lengths (days): extending from one period of estrous to the next, accompanied by behavioral changes and hormone levels.

Estrous lengths (hours): the period from the onset of estrous until the end of estrous.

Anestrous length (days): the period from the end of estrous cycle to the onset of estrous.

Breeding season (days): 365 days - anestrous length.

Four seasons were defined; 1. First season: June 21^th (the longest day) - September 21^th _; 2. Second season: September 21^th - December 21^th (The shortest day); 3. Third season: December 21^th - March 21; 4. Fourth season: March 21 - June 21^th _.

Serum progesterone (P₄) and estradiol 17 β (E₂) analysis

Blood samples were collected twice a week throughout the 12 month via a jugular vena puncture. Serum was separated by centrifugation in +4°C, 3,000 rpm, 15 minutes, divided into two parallel for one portion and stored at -20°C until Enzyme Immunoassay for P₄, Radio Immunoassay for estradiol analysis.

Blood samples were analyzed by Enzyme immunoassay for P₄ (Van de Wiel, Koops, & Vos, 1986Van de Wiel, D. F. M., Koops, W., & Vos, E. (1986). Enzyme-and radioimmunoassay techniques for hormone determination in livestock. International Atomic Energy Autority, 18(3), 243-253. ). Progesterone labeled with Horse Radish Peroxides and anti-progesterone-IgG produced in Nuclear Biotechnology Research laboratory of Turkish Atomic Energy. Sensitivity of the test was 1.25 pg mL^-1. The intra and inter assay coefficient variation of the test was 8.63 and 11.6%, respectively. Solvent (methanol) extractions were performed on serum samples for estradiol 17β analysis. Concentration of E₂ was determined by solid phase 125 I RIA method (ICN 17β-Estradiol 125 RIA Kit: ICN Pharmaceuticals, Inc. Diagnostics Division, Costa Mesa, California) in two cycles for 11 ewes (in duplicate aliquots for each sample). Assay methodology was described by Dieleman and Bevers (1987Dieleman, S. J., & Bevers, M. M. (1987). Effects of monoclonal antibody against PMSG administered shortly after the preovulatory LH surge on time and number of ovulations in PMSG/PG-treated cows. Journal of Reproduction and Fertility , 81(2), 533-542. ). Sensitivity of the test was 10 pg mL^-1. The intra and inter assay coefficient variation of the test was 9.6 and 10.95 %, respectively.

Statistical analysis

Chi square test was performed to investigate the statistical significance of categorical variables such as; occurrence and frequency of estrous detected by both hormonal and behavioral observations. For continuous data; such as plasma progesterone concentration; General linear model was performed to test the statistical significance between multiple groups such as season and months. In case of significance, Turkey post hoc test was applied for investigating pair wise differences. Inter-rater agreement statistic (Kappa) was used to evaluate the agreement between results of behavioral and hormonal parameters. Student t test was used to compare the days of breeding and anestrous seasons between hormonal and behavioral estrous observational categories. Data were represented as means ± SD in figures and text. For all statistical analyses a p value of ≤ 0.05 was considered significant.

Results

Behavioral observations for the lengths of estrous cycle and estrous

The overall mean of estrous cycle lengths (days) of 11 sheep was 18.36 ± 1.03, ranging from 16 to 20.5 days and estrous length was 35.13 ± 5.95 hours, ranging from 26.4 ± 10.0 to 47.25 ± 14.1 hours. One extreme value regarding the estrous cycle length (34 - 35 days) was observed in one animal during the transition to anestrous period and this was eliminated from the analysis.

Breeding season and anestrous lengths

The means of anestrous lengths (days) of 11 sheep obtained by hormonal measurements and behavioral observations were 81.81 ± 63.36 and 135.36 ± 63.49, respectively. Breeding seasonal lengths were also obtained from hormonal and behavioral analysis and the mean values were 283 ± 63.36 and 229.64 ± 63.70, respectively. Significant differences were found among hormonal and behavioral data (p ≤ 0.01) for both breeding season and anestrous length (Figure1a and b, respectively). According to progesterone levels, corpus luteum was active in 72.7% of the animals during the transition period to anestrous season.

Distribution of progesterone concentration throughout the year

Progesterone level range in estrous cycle varied from 0.01 to 9 ng mL^-1; while the overall mean value of progesterone in an estrous was 0.01 ± 0.16 ng mL^-1 in ewes (n = 11).

Progesterone levels of estrous cycles were between 0.02 - 6.17 ng mL^-1, in an example ewe (Figure 2). Hormonal activity continued throughout the year without anestrous.

Estradiol 17β profile during the estrous cycle

Estradiol 17β analysis showed that the highest level of the overall means of estradiol (8.42 ± 2.51 pg mL^-1) was accepted the onset of estrous (Figure 3). Estradiol concentration decreased towards day 8 of the cycle and increased during diestrous (day 11; 6.09 ± 2.87 pg mL^-1 a small peak thought to be non-ovulatory waves). It decreased to its minimum level at the end of the cycle (day 15; 3.50 ± 1.50 pg mL^-1).

Progesterone concentration in estrous cycle

Mean progesterone concentrations were 0.30±0.29 ng mL^-1 in estrous, which rise slowly towards to metestrous. After day 4, there was an accelerated rise to diestrous, with maximum levels reached on day 11 (mean 3.73±1.50 ng mL^-1). Between day 11and 15, progesterone levels remained high. After day 15, it fell suddenly to a basal level in prestrous (Figure 4).

Frequency of estrous occurrence within a year

Estrous was observed in every month of the year in White Karaman sheep. The highest frequency of estrous occurrence was seen during October in terms of P4 level and this level remained from August to March. The lowest frequency levels occurred in June and July. Monthly and seasonal comparison showed that there were differences (p ≤ 0.01) in frequency of estrous occurrence determined by P4 levels (Figure 5).

Monthly and seasonal comparison also show that there were differences (p ≤ 0.01) in frequency of estrous occurrence determined by behavioral assessment.

With shortening daylight hours, frequency of estrous occurrence in June (10.4%) began to increase during September (28.6%) and reached its maximum level (36.4%) in October. Levels gradually decreased until May where they reached similar levels observed in June, except an increase was seen in January.

In the months from August to February, the frequency of estrous occurrence levels provided by P₄ measurement and behavioral observations matched; while the results determined by P₄ measurement were higher than that of behavioral observation from February to the end of July. In spite of this difference, frequency of estrous occurrence was verified by Kappa test (p ≤ 0.01) considering the results of P₄ level and behavioral observation.

Gestation and post-partum periods

Plasma progesterone concentration for 1, 2, 3, 4 and 5^th months of gestation were 5.61 ( 3.46, 4.54 ( 0.53, 6.93 ( 1.05, 13.03 ( 2.70, 15.08 ( 3.09 ng mL^-1, respectively (Figure 6). Progesterone concentrations in the 4^th and 5^th months were higher than those in the other months (p ( 0.01).

The births were started to occur in the middle of the March. Postpartum estrous intervals were 134.8 ( 18.5 days and 120.78 ( 29.89 days (n = 9) according to behavioral observation and hormonal data including 2 months lactation period, respectively

Discussion

The estrous cycle length in White Karaman ewes obtained throughout the year resembles that of other fat tailed sheep breeds (Ali, Derar, & Hussein, 2006Ali, A., Derar, R., & Hussein, H. (2006). Seasonal variation of the ovarian follicular dynamics and luteal functions of sheep in the subtropics. Theriogenology, 66(2), 463-469. doi: 10.1016/j.theriogenology.2005.12.010
https://doi.org/10.1016/j.theriogenology... ). Results from previous research in White Karaman sheep (Kaymakçı, Aşkın, & Karaca, 1987Kaymakçı, M., Aşkın, Y., & Karaca, O. (1987). Akkaraman Koyunlarında Temel Dölerme Özellikleri. Cumhuriyet Üniv. Tokat Ziraat Faktesis Dergisi, 3(1), 1-6. ) showed slightly shorter estrous cycle lengths. The difference can be explained by the method used in that work depends on only behavioral observations. The studies about estrous cycle lengths showed that they looked similar for most other sheep breeds (Ali et al., 2006; Bartlewski et al., 1999aBartlewski, P. M., Beard, A. P., Cook, S. J., Chandolia, R. K., Honaramooz, A., & Rawlings, N. C. (1999a). Ovarian antral follicular dynamics and their relationships with endocrine variables throughout the oestrous cycle in breeds of sheep differing in prolificacy. Journal of Reproduction and Fertility, 115(1), 111-124. doi: 10.1530/JRF.0.1150111
https://doi.org/10.1530/JRF.0.1150111... ; Bartlewski et al., 1999bBartlewski, P. M., Beard, A. P., & Rawlings, N. C. (1999b). An ultrasonographic study of luteal function in breeds of sheep with different ovulation rates. Theriogenology , 52(1), 115-130. doi: 10.1016/S0093-691X(99)00114-4
https://doi.org/10.1016/S0093-691X(99)00... ; Evans, Duffy, Hynes, & Boland, 2000Evans, A. C. O., Duffy, P., Hynes, N., & Boland, M. P. (2000). Waves of follicle development during the estrous cycle in sheep. Theriogenology , 53(3), 699-715. doi: 10.1016/S0093-691X(99)00268-X
https://doi.org/10.1016/S0093-691X(99)00... ; Sulu, Özsar, Güven, & Bağcı, 1993Sulu, N., Özsar, S., Güven, B., & Bağcı, C. (1993). Sakız koyunlarında progesteron ve östron sülfat düzeyleri. Journal of Veterinary Science, 17, 9-17. ). However, year, season, individual and environmental factors can influence the cycle length in the same breed, although these differences are relatively small, usually not exceeding 1-day (Goodman, 1994Goodman, R. L. (1994). Neuroendocrine control of the ovine estrous cycle. In E. Knobil, & J. D. Neill (Eds.), The Physiology of Reproduction (2nd ed., p. 660-693). New York: Raven Press.). Estrous lengths obtained from behavioral observations made at 12 hours’ intervals were similar to others (Dağlıç, Awasi, Menemen and Karacabey merino) in Turkey (Kaymakçı, 1984Kaymakçı, M. (1984). Kimi yerli koyun ırklarında temel dölerme özelliklerinin değişimi üzerinde araştırmalar. Çayır-Mer’a ve Zootekni Araştırma Enstitüsü Yayın, 92, 1-6. ). Similar results were also reported from Awasi and Tabasco sheep in Israel (Sefidbakht, Mostafavi, & Farid, 1978Sefidbakht, N., Mostafavi, M. S., & Farid, A. (1978). Annual reproductive rhythm and ovulation rate in four fat-tailed sheep breeds. Animal Science, 26(2), 177-184. ).

Breeding season lengths according to endocrinological and behavioral data in WK were found noticeably longer than breeding season lengths for Ile de France and Gentile de Puglia breeds (Dell’Aquila, Varriale, & Alberico, 1988Dell’Aquila, S., Varriale, B., & Alberico, G. (1988). Pierantoni. seasonal fluctuations in plasma progesterone concentrations In Gentile-Di-Puglia and Ile-De-France ewes In Southern Italy. Journal of Reproduction and Fertility, 83, 825-828. ). White Karaman breeding season lengths from behavioral data were also longer than some Turkish sheep breed such as Dağlıç and Chios (Kaymakçı, 1984Kaymakçı, M. (1984). Kimi yerli koyun ırklarında temel dölerme özelliklerinin değişimi üzerinde araştırmalar. Çayır-Mer’a ve Zootekni Araştırma Enstitüsü Yayın, 92, 1-6. ; Kaymakçı et al., 1987Kaymakçı, M., Aşkın, Y., & Karaca, O. (1987). Akkaraman Koyunlarında Temel Dölerme Özellikleri. Cumhuriyet Üniv. Tokat Ziraat Faktesis Dergisi, 3(1), 1-6. ). These results confirm that White Karaman sheep has a relatively long mating season and short anestrous period compared to other sheep breeds in Turkey and also in the mid-latitude countries (35-40º N). The results regarding anestrous length in WK were similar to other sheep breeds from mid-latitudes (35-40º N), such as the Australian Merino, other Mediterranean breeds (Gómez-Brunet, Santiago-Moreno, Toledano-Diaz, & López-Sebastián, 2012Gómez-Brunet, A., Santiago-Moreno, J., Toledano-Diaz, A., & López-Sebastián, A. (2012). Reproductive seasonality and its control in Spanish sheep and goats. Tropical and Subtropical Agroecosystems, 15(1). ) and Spanish Manchega ewes (Gómez-Brunet et al., 2008Gómez-Brunet, A., Santiago-Moreno, J., Campo, A. d., Malpaux, B., Chemineau, P., Tortonese, D. J., ... López-Sebastián, A. (2008). Endogenous circannual cycles of ovarian activity and changes in prolactin and melatonin secretion in wild and domestic female sheep maintained under a long-day photoperiod. Biology of Reproduction, 78(3), 552-562. doi: 10.1095/biolreprod.107.064394
https://doi.org/10.1095/biolreprod.107.0... ). WK, like some sheep breeds present at the same latitude showed reduced seasonality, displaying a long breeding season (summer to winter) and a short anestrous period. In this study, cycling rate was relatively high throughout the year which is in agreements with the results of high cycling rate in the sheep of similar latitudes (Gómez-Brunet et al., 2012Gómez-Brunet, A., Santiago-Moreno, J., Toledano-Diaz, A., & López-Sebastián, A. (2012). Reproductive seasonality and its control in Spanish sheep and goats. Tropical and Subtropical Agroecosystems, 15(1). ).

At the end of breeding season, hormonal parameters showing estrous were not proved by behavioral observations in some ewes. This indicates the presence of behavioral silent estrous. This was not observed in Fin ewes (prolific breed) but was found in Merino ewes during the same period (Wheeler & Land, 1977Wheeler, A. G., & Land, R. B. (1977). Seasonal variation in oestrus and ovarian activity of Finnish Landrace, Tasmanian Merino and Scottish Blackface ewes. Animal Science , 24(3), 363-376. ). P4 analysis, 7 out of 11 animals showed the general pattern with regular peaks of hormone followed by a short period of anestrous while 4 out of them had a regular cycle throughout the year without the anestrous. It can be said that 36.4% of ewes show estrous regularly throughout the year. These results showed that WK has a comparatively long breeding season when compared with other northern hemisphere sheep breeds (Bartlewski et al., 1999aBartlewski, P. M., Beard, A. P., Cook, S. J., Chandolia, R. K., Honaramooz, A., & Rawlings, N. C. (1999a). Ovarian antral follicular dynamics and their relationships with endocrine variables throughout the oestrous cycle in breeds of sheep differing in prolificacy. Journal of Reproduction and Fertility, 115(1), 111-124. doi: 10.1530/JRF.0.1150111
https://doi.org/10.1530/JRF.0.1150111... ; Dell’Aquila et al., 1988Dell’Aquila, S., Varriale, B., & Alberico, G. (1988). Pierantoni. seasonal fluctuations in plasma progesterone concentrations In Gentile-Di-Puglia and Ile-De-France ewes In Southern Italy. Journal of Reproduction and Fertility, 83, 825-828. ; Gómez-Brunet et al., 2008Gómez-Brunet, A., Santiago-Moreno, J., Campo, A. d., Malpaux, B., Chemineau, P., Tortonese, D. J., ... López-Sebastián, A. (2008). Endogenous circannual cycles of ovarian activity and changes in prolactin and melatonin secretion in wild and domestic female sheep maintained under a long-day photoperiod. Biology of Reproduction, 78(3), 552-562. doi: 10.1095/biolreprod.107.064394
https://doi.org/10.1095/biolreprod.107.0... ). The results from our anestrous P4 levels were also similar with anestrous P4 levels from other sheep breed (Ferreira-Silva et al., 2017Ferreira-Silva, J. C., Burnett, T. A., Souto, P. F. M. P., Pereira, L. C., Araujo, M. V., Moura, M. T., & Oliveira, M. A. L. (2017). Progesterone (P4), luteinizing hormone (LH) levels and ovarian activity in postpartum Santa Inês ewes subject to a male effect. Archives Animal Breeding, 60(2), 95-100. doi: 10.5194/aab-60-95-2017
https://doi.org/10.5194/aab-60-95-2017... ; Sasa, Rodrigues, Nonaka, Balieiro, & Coelho, 2016Sasa, A., Rodrigues, P. A., Nonaka, K. O., Balieiro, J. C. C., & Coelho, L. A. (2016). Plasma melatonin and progesterone profiles of Suffolk and Romney Marsh ewes implanted with melatonin during anoestrus season at lower latitudes in southern hemisphere. Acta Scientiae Veterinariae, 44, 1-8. ).

The P4 values measured in estrous cycle of WK were not found to be different from the other sheep breeds such as Western White-Faced ewes and native Chios, Welsh Mountain (Bartlewski et al., 1999bBartlewski, P. M., Beard, A. P., & Rawlings, N. C. (1999b). An ultrasonographic study of luteal function in breeds of sheep with different ovulation rates. Theriogenology , 52(1), 115-130. doi: 10.1016/S0093-691X(99)00114-4
https://doi.org/10.1016/S0093-691X(99)00... ; Shackell et al., 1993Shackell, G. H., Hudson, N. L., Heath, D. A., Lun, S., Shaw, L., Condell, L., ... McNatty, K. P. (1993). Plasma gonadotropin concentrations and ovarian characteristics in Inverdale ewes that are heterozygous for a major gene (FecX1) on the X chromosome that influences ovulation rate. Biology of Reproduction , 48(5), 1150-1156. doi: 10.1095/biolreprod48.5.1150
https://doi.org/10.1095/biolreprod48.5.1... ; Sulu et al., 1993Sulu, N., Özsar, S., Güven, B., & Bağcı, C. (1993). Sakız koyunlarında progesteron ve östron sülfat düzeyleri. Journal of Veterinary Science, 17, 9-17. ) with the exception of Finn ewes. The difference of max P4 values in Finn ewes can be explained by their prolific characteristics of their estrous cycle (Bartlewski et al., 1999aBartlewski, P. M., Beard, A. P., Cook, S. J., Chandolia, R. K., Honaramooz, A., & Rawlings, N. C. (1999a). Ovarian antral follicular dynamics and their relationships with endocrine variables throughout the oestrous cycle in breeds of sheep differing in prolificacy. Journal of Reproduction and Fertility, 115(1), 111-124. doi: 10.1530/JRF.0.1150111
https://doi.org/10.1530/JRF.0.1150111... ). The regulation of the secretion and bioavailability of gonodotrophic hormones depend on complex interaction among internal and external factors (Rawlings & Bartlewski, 2006Rawlings, N. C., & Bartlewski, P. M. (2006). Clinical reproductive physiology of ewes. In R. S. Youngquist, & W. R. Threlfall (Eds.), Current Therapy in Large Animal Theriogenology (p. 642-649). Saint Louis, MO: Saunders Elsevier.), also breed and inter breed interactions are so important (Goodman, 1994Goodman, R. L. (1994). Neuroendocrine control of the ovine estrous cycle. In E. Knobil, & J. D. Neill (Eds.), The Physiology of Reproduction (2nd ed., p. 660-693). New York: Raven Press.; Mukasa-Mugerwa, Ezaz, & Viviani, 1990Mukasa-Mugerwa, E., Ezaz, Z., & Viviani, P. (1990). Plasma concentrations of progesterone during oestrous cycles of Ethiopian Menz sheep using enzyme immunoassay. Small Ruminant Research , 3(1), 57-62. doi: 10.1016/0921-4488(90)90031-Z
https://doi.org/10.1016/0921-4488(90)900... ). Consequently, non-prolific breeds of sheep may produce more progesterone during metestrous and diestrous compared with prolific animals (Bartlewski et al., 1999bBartlewski, P. M., Beard, A. P., & Rawlings, N. C. (1999b). An ultrasonographic study of luteal function in breeds of sheep with different ovulation rates. Theriogenology , 52(1), 115-130. doi: 10.1016/S0093-691X(99)00114-4
https://doi.org/10.1016/S0093-691X(99)00... ). P4 levels in the estrous cycle in WK show that it is a non-prolific breed (Basaran & Dellal, 1997Basaran, D. A., & Dellal, G. (1997). Synchronization of Oestrous and the Possibilities of Improving Reproductive Performance by Using Progestagen and PMSG in White Karaman Ewes. Turkish Journal of Veterinary & Animal Sciences, 21(3), 201-204. ) like White-faced ewes.

There are 3-4 major increases in circulating concentrations of estradiol during the estrous cycle in ewes. In non-prolific sheep breeds, the amplitude of estradiol fluctuations associated with all non-ovulatory waves during diestrous does not differ from that during the pre-ovulatory rise in estradiol secretion. Peak values for estradiol concentration during the pre-ovulatory period are typically higher than those in the luteal phase of the estrous cycle in prolific genotypes. On days 1-5, days 14-15 and day 17 of the cycle, the mean serum concentrations of estradiol were significantly higher in Finn sheep when compared with White-Faced ewes (Bartlewski et al., 1999aBartlewski, P. M., Beard, A. P., Cook, S. J., Chandolia, R. K., Honaramooz, A., & Rawlings, N. C. (1999a). Ovarian antral follicular dynamics and their relationships with endocrine variables throughout the oestrous cycle in breeds of sheep differing in prolificacy. Journal of Reproduction and Fertility, 115(1), 111-124. doi: 10.1530/JRF.0.1150111
https://doi.org/10.1530/JRF.0.1150111... ; Evans, 2003Evans, A. (2003). Ovarian follicle growth and consequences for fertility in sheep. Animal Reproduction Science , 78(3), 289-306. doi: 10.1016/S0378-4320(03)00096-4
https://doi.org/10.1016/S0378-4320(03)00... ). In WK, the maximum value of estradiol was obtained on day 0-2 and the second one on the day of 11. This was also similar to levels found in White Face ewes.

The annual rhythm of ovarian cyclicity is characterized by season-dependent cessation (anestrous) and restoration (breeding season) of ovarian ovulatory cycles. Ewes are seasonally polyestrous animals with normal ovulatory cycles occurring, in most northern hemisphere breed during the fall and winter months (Ali et al., 2006Ali, A., Derar, R., & Hussein, H. (2006). Seasonal variation of the ovarian follicular dynamics and luteal functions of sheep in the subtropics. Theriogenology, 66(2), 463-469. doi: 10.1016/j.theriogenology.2005.12.010
https://doi.org/10.1016/j.theriogenology... ; Bartlewski et al., 2011Bartlewski, P. M., Baby, T. E., & Giffin, J. L. (2011). Reproductive cycles in sheep. Animal Reproduction Science, 124(3-4), 259-268. doi: 10.1016/j.anireprosci.2011.02.024
https://doi.org/10.1016/j.anireprosci.20... ; Hayder & Ali, 2008Hayder, M., & Ali, A. (2008). Factors affecting the postpartum uterine involution and luteal function of sheep in the subtropics. Small Ruminant Research, 79(2-3), 174-178. doi: 10.1016/j.smallrumres.2008.07.023
https://doi.org/10.1016/j.smallrumres.20... ). This is also the case for WK with an extended breeding season which continues from August to April.

In postpartum period, the onset of ovarian activity detected through plasma P4 concentrations was earlier than the behavioral estrous signals (Hayder & Ali, 2008Hayder, M., & Ali, A. (2008). Factors affecting the postpartum uterine involution and luteal function of sheep in the subtropics. Small Ruminant Research, 79(2-3), 174-178. doi: 10.1016/j.smallrumres.2008.07.023
https://doi.org/10.1016/j.smallrumres.20... ). Most ewes had several silent ovulations before their first detected estrous. The postpartum estrous interval was a slightly shorter than the Rasa Aragonesa ewes and the reason for this difference can be explained by using ram effect in that study (Abecia et al., 2017Abecia, J. A., Chemineau, P., Gómez, A., Palacios, C., Keller, M., & Delgadillo, J. A. (2017). Exposure to photoperiod-melatonin-induced, sexually-activated rams after weaning advances the resumption of sexual activity in post-partum Mediterranean ewes lambing in January. Veterinary Sciences, 4(1), 4. doi: 10.3390/vetsci4010004
https://doi.org/10.3390/vetsci4010004... ). The onset of natural breeding season is affected by the lambing season (Forcada et al., 2006Forcada, F., Abecia, J. A., Cebrian-Perez, J. A., Muino-Blanco, T., Valares, J. A., Palacin, I., & Casao, A. (2006). The effect of melatonin implants during the seasonal anestrus on embryo production after superovulation in aged high-prolificacy Rasa Aragonesa ewes. Theriogenology , 65(2), 356-365. doi: 10.1016/j.theriogenology.2005.05.038
https://doi.org/10.1016/j.theriogenology... ). The births in many Anatolian breeds start in December-January. Although it was March for the beginning of birth in this study with a relative short postpartum estrous.

Conclusion

To our knowledge, this is going to be the first published study on the reproductive cycle patterns of WK and provides novel information on behavioral and endocrine response. The results show that WK ewes have an extended breeding season, short post-partum estrous interval and active ovarian activity compatible with estrous behavioral activity except two months under their natural environmental conditions. WK ewes due to their genetic selection are less sensitive to photoperiod changes. This allows for the manipulation of estrous cycle through the use of exogenous hormones, bio-stimulation techniques and natural methods leading to a more efficient out season lamb production.

Acknowledgements

Financial and technical support was provided by the The Scientific and Technological Research Council of Turkey (TUBİTAK) and Turkish Atomic Energy Autority

References

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