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Performance of Kivircik Sheep under Three Lambing Systems in Two Years

PJZ_53_1_41-46

Performance of Kivircik Sheep under Three Lambing Systems in Two Years

Mikail Arslan1, Orhan Yilmaz2, Bahattin Cak2* and Ahmet Fatih Demirel2

1Balikesir University, Susurluk Vocational High School, Balikesir, Turkey

2Van Yuzuncu Yil University, Faculty of Veterinary Medicine, Department of Animal Husbandry, Van, Turkey

ABSTRACT

This study was carried out to investigate reproductive traits of Kivircik ewes under three lambing systems in two years and their lambs’ survival and growth performances. A total of 200 Kivircik ewes and 15 Kivircik rams were used. Ewes were subjected to a system of lambing every 8 months. Ewes were mated in August (summer), April (spring) and December (winter), respectively. Ewes were synchronized using FIS (intravaginal flourogestone sponges) for 14 days. Additionally, 600 IU eCG (equine chorionic gonadotropin) was administered intramuscularly at sponges withdrawal. Rams remained with the ewes for 3-day from the start of estrus. Estrus rate, lambing rate and litter size were 96.00, 87.50% and 1.70 lamb/doe; 92.35, 85.20 and 1.50 lamb/doe; 78.92, 58.38 and 1.43 lamb/doe for summer, spring and winter seasons, respectively. Survival rates at weaning, birth and weaning weights of lambs were 86.44%, 3.11kg and 17.85kg; 72.80%, 3.24kg and 16.38kg; 66.88%, 3.38kg and 18.97kg for summer, spring and winter, respectively. The effect of mating season on estrus rate was not significant (P>0.05). The effect of mating season on lambing rate and litter size was significant (P<0.01). The effects of mating season and birth type on survival rate at weaning were significant (P<0.05). Effect of mating season on body weights at birth and weaning was significant (P<0.01). The findings of the current study that the reproductivity of Kivircik ewes (in three lambing in two years) synchronized with combination of eCG and FIS tended to improve. Lambing rate and litter size were the highest in the first mating season and the lowest in the third mating season. Lambing rate in the second mating season was similar to that in the first mating season. Survival of lambs at weaning was the highest in the first lambing season and the lowest in the third lambing season. Weaning weight was the highest in the third lambing season and the lowest in the second lambing season. These results also indicate that three lambing system in two years could be utilized in Kivircik sheep.


Article Information

Received 20 March 2019

Revised 30 May 2019

Accepted 11 September 2019

Available online 27 November 2020

Authors’ Contribution

MA was in charge of organizing and supervising the course of the study. OY, BC and AFD were responsible for supervision and writing the manuscript.

Key words

Kivircik sheep, Accelerated lambing, Lamb productivity, Growth performance

DOI: https://dx.doi.org/10.17582/journal.pjz/20190320070315

* Corresponding author: [email protected]

0030-9923/2021/0001-0041 $ 9.00/0

Copyright 2021 Zoological Society of Pakistan



INTRODUCTION

Sheep and goats are major contributors to global livestock production in essentially all agro-ecological regions. In many parts of the world, sheep and goats are produced under extensive, arid or semi-arid conditions, with little or no supplemental feeding (Notter, 2012).

Sheep breeding have played an important role in the production characteristics of sheep breeds in Turkish agricultural economy and rural society. Although the sheep population in Turkey is high, the production performance of the sheep breeds is inadequate (Ceyhan et al., 2010). The sheep breeds in Turkey are believed to be seasonal breeders and seasonal reproduction in sheep without hormonal treatments is dependent on the breed. The normal breeding season of sheep in this research area is mostly restricted from July to August (Summer).

The effect of seasonal climatic changes on the reproductive activity of ewes results in a seasonality of reproduction in sheep (Vasques et al., 2006). The seasonal reproductive pattern of ruminants imposes specific challenges to production systems (Montes-Quiroza et al., 2018). Accelerated lambing systems in which ewes may lamb more than once per year, improvement in ewe productivity can also be attained by increasing frequency of lambing (Vanimisetti and Notter, 2012). However, many factors can influence the reproductive performance of ewes in an accelerated lambing system. These include breed and age of ewe, lactation, photoperiod and level of feeding (Sheehan and Quirke, 1984). Application of accelerated lambing systems requires a high management level and is hardly applicable at commercial farm levels under normal management. However, under intensive sheep production systems it is likely that extra inputs will result in additional output (Rawlings et al., 1987). Three lambing in two years an opposed to the normal single season production system, is designed to increase the number of lambs produced per ewe per year as a more economical alternative for the producer to market an even supply of lambs over the year (Sormunen-Cristian and Suvela,1999). Various hormones are administered to increase fertility and to obtain lambs of ewes twice in one year or three times in two years. Estrus synchronization results in an increase of offspring per year, as it reduces the lambing interval and can be used regardless of the season in the small ruminants. Estrus synchronization of ewes can be achieved by cycle with exogenous progesterone or its analogues to either extend the cycle or reducing the duration on the luteal phase of the estrus cycle (Wei et al., 2016). The most used protocol is based on intravaginal sponges impregnated with medroxyprogesterone acetate (MAP) and fluoroprogesterone acetate (FGA) during 12 or 14 days, followed by the administration of equine chorionic gonadotropin (eCG) at device withdrawal (Gardón et al., 2015).

The Kivircik sheep, which is a native Turkish sheep breed with a long lean tail, constitutes 6.8% of the total sheep population in Turkey. Kivircik is known for its meat quality. The Kivircik breed is found in Turkey, Greece, and Bulgaria. In Greece, it is known as Thraki. It is mainly bred in the Thrace, Marmara and Aegean regions in Turkey (Cerit et al., 2004).

This study was carried out to investigate reproductive traits of the Kivircik sheep breed under three lambing systems in two years and their lambs’ survival and growth performances.

 

MATERIALs AND METHODS

The study was carried out in a private enterprise located in Gobel town of Susurluk district, Balikesir province in Marmara region, Turkey. Location of Gobel town is at longitude 40° 1’ 10” N and latitude 28° 8’ 44”. In this area during 2007-2017, the average annual ambient temperature, relative humidity and rainfall were 15.3 °C, 79 % and 771.53 mm, respectively. Two hundred Kivircik ewes, aged 2-3 years, with an average body weight 55 ± 4.3 kg were used. Fifteen Kivircik rams, aged 3-5 years, with an average body weight 70 ± 6.8 kg were used. The Kivircik breed exhibit seasonal reproductive activity. The normal breeding season of the sheep in the research region is June-August (summer). In this study, Ewes were subjected to a system of lambing every 8 months. Ewes were mated in August (summer), April (spring) and December (winter), respectively. Ewes were synchronized using FIS [intravaginal flourogestone sponges (40 mg flourogestone acetate); Dogu Drug Company, Istanbul, Turkey] for 14 days. Additionally, 600 IU eCG (equine chorionic gonadotropin; Dogu Drug Company, Istanbul, Turkey) was administered intramuscularly at sponge’s withdrawal. During mating, estrus detection was performed daily by using teaser rams between 24th and 48th hours after injection of eCG. The rams remained with the ewes for 3-day from the start of estrus. Estrus rates, lambing rates, single-multiple lambing rates and litter size were recorded.

During the mating seasons, feeding programs were applied to the animals considering the vegetation of the pasture. Pasture consisted of meadow. In the first mating season (summer), ewes grazed on pasture in the first two months of pregnancy, and ewes were fed with concentrate feed (300 g per ewe per day) in addition to pasture during the other months of pregnancy. In the second mating season (spring), ewes grazed on pasture in the first four months of pregnancy, and ewes were fed with concentrate feed (300 g per ewe per day) in addition to pasture during the fifth month of pregnancy. In the third mating season (winter), ewes were housed indoors and fed with concentrate feed (500 g per ewe per day) and ad libitum alfalfa hay.

A total of 699 lambs obtained from the first, second and third mating seasons were used to determine of survival and growth performances. Within 24 h of birth, lambs were weighed, ear-tagged, dam, birth type and sex were recorded. Lamb mortality between birth and weaning was recorded. Lambs were weighed at biweekly interval till weaning (age at weaning=56 days). Lamb managements were similar for all seasons. Lambs remained with their dams for seven days after birth. Then, the lambs were separated from their dams and housed indoors until weaning, but the lambs were returned to their dams at night. After fifteen days of age, the lambs were offered alfalfa hay ad libitum and a lamb concentrate feed. The amount of concentrate feed was gradually increased and was 300 g for per lamb at weaning. Chemical compositions of diets used in the trial are given in Table I.

Estrus, lambing, multiple lambing rates of the ewes and survival rates of the lambs in different periods of growth were analyzed by chi-square test, and litter size was analyzed by kruskal wallis test. The effects of mating season, sex and birth type on the growth of the lambs were analyzed by analysis of variance (ANOVA), using general linear models (GLM) procedure of SAS (SAS, 1995).

 

Table I. Chemical compositions (%) of diets.

Sheep’s diet

Lambs’ diet

Crude protein

18.00

16.00

Crude fibre

11.20

8.10

Ether extract

3.00

4.40

Ash

9.00

8.50

 

Table II. Reproductive traits of the Kivircik ewes under three lambing systems in two years.

Mating season

Estrus rate

Lambing rate

Multiple lambing rate

Litter size

N

N%

%

N

%

N

%

August (Summer)

200

192

96.00

175

87.50a

98

56.00

1.70a

April (Spring)

196

181

92.35

167

85.20a

73

43.71

1.50b

December (Winter)

185

146

78.92

108

58.38b

44

40.74

1.43b

P

ns

**

ns

**

 

ns: Non significant (P > 0.05); a,bMeans within the same columns followed by different letters significantly differ (**P<0.01).

 

RESULTS AND DISCUSSION

Reproductive traits of Kivircik ewes under three lambing system in two years is summarized in Table II. The effect of mating season on estrus and multiple lambing rates was not significant (P > 0.05). The effect of mating season on lambing rate and litter size was significant (P < 0.01). The lowest lambing rate was in the third mating season (winter), and the highest litter size was in the first mating season (summer).

Survival rates of lambs are given in Table III. The effects of mating season and birth type on survival rate at weaning were significant (P<0.05). The lowest mortality at weaning was observed in the lambs obtained from the first mating season (summer). Survival rate at weaning was significant (P<0.01) with single-born lambs having less mortality. The effect of sex on mortality was not significant (P>0.05).

 

Table III. Survival rates of lambs (%).

Factors

At birth

28th days

56th days (weaning)

N

N

%

N

%

Mating season

August

295

261

88.47a

255

86.44a

April

250

198

79.20ab

182

72.80ab

December

154

104

67.50b

103

66.88b

P

*

*

Sex

Male

364

291

79.94

284

78.02

Female

335

272

81.19

256

76.42

P

ns

ns

Birth type

Single

235

210

89.36

207

88.09

Multiple

464

353

76.08

333

71.77

P

ns

*

 

ns: Non significant (P > 0.05); a,bMeans within the same columns followed by different letters significantly differ (*P<0.05).

 

Body weights of lambs are presented in Table IV. Effect of mating season on body weights at birth and weaning was significant (P<0.01). The lowest birth weight was observed in lambs obtained from the first mating season (summer), and the lowest weaning weight was observed in lambs obtained from the second mating season (spring). The male lambs were heavier (P<0.01) than female lambs at birth and weaning. Single lambs were heavier (P<0.01) than multiple lambs at birth and weaning.

 

Table IV. Least square means and standard errors (Mean±S.E) for body weights (kg) of lambs.

Factors

Periods

Birth weight

28th days

56th days

Mating period

August

3.11±0.04b

10.29±0.06a

17.85±0.10a

April

3.24±0.04ab

9.38±0.07b

16.38±0.11b

December

3.38±0.04a

10.78±0.09a

18.97±0.11a

P

**

*

**

Sex of lambs

Male

3.64±0.04

10.85±0.05

18.83±0.09

Female

2.84±0.04

9.45±0.05

16.63±0.09

P

**

**

**

Birth type

Single

4.43±0.04

11.34±0.05

19.25±0.09

Multiple

2.45±0.04

8.96±0.05

16.21±0.09

P

**

**

**

 

a,bMeans within the same columns followed by different letters significantly differ (*P<0.05; **P<0.01).

 

Reproductive performances of different sheep breeds are generally different. These traits are economically important for a sheep enterprise. Improving reproductive performance is an important objective for increasing the profitability of sheep production (Unal et al., 2006). In modern agriculture, technologies are being used for out of season estrus induction, enhancement of reproductive performance and genetic improvement (Amiridis and Cseh, 2012; De et al., 2016).

Gonadotropins have been used in synchronization protocols that aim to improve fertility, reduce the interval to ovulation and also increase prolificacy. Equine chorionic gonadotropin (eCG) has been used at the end of several protocols for its FSH activity to contribute to synchronizing ovulation (Cabrera et al., 2019). Wei et al. (2016) reported that fluorogestone or cloprostenol could improve estrus and fertility of ewes. However, which dose of eCG administration could achieve the best efficacy for estrus synchronization in ewes is still undetermined.

In the current study, eCG and FIS hormone protocol was used for induction and synchronization of estrus of Kivircik ewes. It was found that 96% ewes showed estrus signs in the first mating season (summer). This value is higher than those of previous studies (De et al., 2015; De et al., 2016). In the present study, the highest lambing rate were detected in the first mating season (summer). Similarly, De et al. (2016) reported higher lambing rate in breeding season as compared to out of breeding season following estrus synchronization. deNicolo et al. (2008) reported higher pregnancy rate in breeding season as compared to out of breeding season following estrus synchronization. Gul and Keskin (2010) reported that the onset of estrus, litter size, birth weight and weaning weight were affected by mating months. September and November were the most appropriate months for enhancing estrus ratio and litter size. Bulbul et al. (2014) reported that more fecundity and lamb productivity is achieved by accelerated lambing than once a year lambing. Synchronization methods were found to be effective on fecundity and lamb productivity in accelerated lambing applications. Also, Bulbul et al. (2014) reported that as a result of the economic analyzes performed by taking into account hormone and feed costs, synchronization was not profitable for single births in flocks synchronized with hormone.

De et al. (2016) reported that breeding season had significant effect on fertility of sheep following estrus synchronization and artificial insemination under field condition in semi-arid tropical region. The use of Institute-developed impregnated intra-vaginal sponge and eCG injection can be a useful technique to bring anestrus ewes into synchronized estrus in any season of the year as demonstrated in current study. Zarkawi (2011) reported that the good response of the Syrian Awassi ewes to the combined (FGA + eCG) treatment in terms of increased fecundity rate indicates the relevance of using such a treatment. The accelerated lambing system employed (three lambing in 2 years) increased the frequency of lambing and the number of lambs born/ewe/year, with no adverse effects on weaning weights of the lambs. Use of accelerated lambing program (in this case 3 times lambing in 2 years) with estrus synchronization and PMSG administration, was effective in increasing parturition mean, prolificacy rate, fecundity rate, lamb born crop and lamb weaned crop in Zandi ewes, while it hadn’t any negative significant effect on ewe’s survival rate, and this method can increase the economic performance of Zandi sheep herds.

Survival rates of Kivircik lambs in the present study were lower when compared to the result of previous similar study (Akcapinar et al., 2000) using different flock of Kivircik lambs. In our study, the survival rate of the Kivircik lambs obtained in the third mating season (winter) of accelerated lambing system was lower than those of the lambs obtained in the first and second mating seasons (summer and spring). The lower survival of lambs obtained in the winter breeding season may be the result of feeding system of their dams and seasonal weather. Male and lambs did not differ in terms of survival rate. This finding is consistent with the results of previous studies (Akcapinar et al., 2000; Unal et al., 2002; Unal et al., 2006). In the present study the total mortality of twin lambs was higher than single lambs. This is consistent with Berger et al. (1989).

Ekiz and Altinel (2006) reported that birth weight for Kivircik lambs was 3.85 kg. The birth weights in the present study were lower than the birth weight reported for Kivircik lambs by Ekiz and Altinel (2006). Kivircik lambs born in summer had the smallest birth weight due to larger litter size. Similar effect of litter size on lamb birth weight was observed by Sormunen-Cristianand and Suvela (1999). Ekiz and Altinel (2006) reported that and body weight for Kivircik lambs at the age of 60 days was 15.47 kg. The finding contradicts the value recorded for lambs at the age of 56 days in the present study. The effects of mating seasons on birth weight and weight at different periods till weaning were significant. These results were similar to the results of some previous studies (Yilmaz and Akmaz, 2000; Yilmaz et al., 2007), but were different from the results of some studies (Cetin and Akcapinar, 2005). Differences between the present results and those in literature might be due to genotype, lambing system, season, management and feeding programs.

 

CONCLUSIONS

The findings of the current study show that the reproductivity of Kivircik ewes (in three lambing in two years) synchronized with combination of eCG and FIS tended to improve. Lambing rate and litter size were the highest in the first mating season and the lowest in the third mating season. Lambing rate in the second mating season was similar to that in the first mating season. Survival of lambs at weaning was the highest in the first lambing season and the lowest in the third lambing season. Weaning weight was the highest in the third lambing season and the lowest in the second lambing season. These results also indicate that three lambing system in two years could be utilized in Kivircik sheep.

 

ACKNOWLEDGEMENTS

The authors are grateful to Dort Mevsim Meat Integrated Enterprise, for providing the experimental facilities.

Statement of conflict of interest

The authors declare no conflict of interest.

 

REFERENCES

Akcapinar, H., Ozbeyaz, C., Unal, N. and Avci, M., 2000. The Possibilities of developing dam and sire lines using Akkaraman, Sakiz and Kivircik sheep breeds for lamb production I. Fertility in Akkaraman sheep, survival rate and growth characteristics of Sakız x Akkaraman F1 and Kıvırcık x Akkaraman F1 Lambs. Turk J. Vet. Anim. Sci., 24: 71-79.

Amiridis, G.S. and Cseh, S., 2012. Assisted reproductive Technologies in reproductive management of small ruminants. Anim. Reprod. Sci., 130: 152-161. https://doi.org/10.1016/j.anireprosci.2012.01.009

Berger, Y.M., Bradford, G.E., Essaadi, A., Johnson, D.W., Bourfia, M. and Lahlou-Kassi, A., 1989. Performance of D’Man and Sardi sheep on accelerated lambing III. Lamb mortality, growth and production per ewe. Small Rumin. Res., 2: 307-321. https://doi.org/10.1016/0921-4488(89)90026-6

Bulbul, B., Kirbas, M., Aktas, A.H., Kose, M., Ataman, M.B., Coyan, K., Kan, M., Halici, I., Gok, B. and Akbulut, N.K., 2014. Investigation of accelerated lambing possibility of Anatolian Merino sheep. Kafkas Univ. Vet. Fak. Derg., 20: 19-26. https://doi.org/10.9775/kvfd.2013.9181

Cabrera, C., Maier, G.U., Cuneo, M. and McNabb, B.R., 2019. The use of progesterone intravaginal devices is superior to use of the ram effect at hastening the reproductive performance in transitional Targhee ewes. Theriogenology, 128: 17-22. https://doi.org/10.1016/j.theriogenology.2019.01.015

Cetin, H. and Akcapinar, H., 2005. The Effects of twice lambing in a year on the survival ability and growth of Merino lambs. Lalahan Hay. Arast. Enst. Derg., 45: 25-34 (in Turkish, English abstract).

Cerit, H., Altinel, A., Elmaz, O. and Avanus, K., 2004. Polymorphism evaluation of various genomic loci in the Kivircik sheep breed of Turkey. Turk J. Vet. Anim. Sci., 28: 415-425.

Ceyhan, A., Sezenler, T., Yildirir, M. and Erdogan, I., 2010. Reproductive performance and lamb growth characteristics of Ramlıç sheep. Kafkas Univ. Vet. Fak. Derg., 16: 213-216.

De, K., Kumar, D., Sethi, D., Gulyani, R. and Naqvi, S.M.K., 2015. Estrus synchronization and fixed-time artificial insemination in sheep under field conditions of a semi-arid tropical region. Trop. Anim. Hlth. Prod., 47: 469-472. https://doi.org/10.1007/s11250-014-0735-x

De, K., Kumar, D., Balaganur, K., Gulyani, R. and Naqvi, S.M.K., 2016. Effect of breeding season on fertility of sheep following estrus synchronization and fixed-time artificial insemination under field conditions in semi-arid tropical region. Biol. Rhythm Res., 47: 787-795. https://doi.org/10.1080/09291016.2016.1197497

deNicolo, G., Morris S.T., Kenyon, P.R. and Morel, P.C.H., Parkinson T.J., 2008. Induced seasonal reproductive performance in two breeds of sheep. Anim. Reprod. Sci., 103: 278–289. https://doi.org/10.1016/j.anireprosci.2007.01.009

Ekiz, B. and Altinel, A., 2006. The growth and survival characteristics of lambs producedby commercial crossbreeding Kivircik ewes with F2 rams with the German Black-Headed Mutton genotype. Turk J. Vet. Anim. Sci., 30: 507-512.

Gardón, J.C., Escribano, B., Astiz, S. and Ruiz, S., 2015. Synchronization protocols in Spanish Merino sheep: reduction in time to estrus by the addition of eCG to a progesterone-based estrus synchronization protocol. Annls Anim. Sci., 15: 409–418. https://doi.org/10.1515/aoas-2015-0003

Gul, S. and Keskin, M., 2010. Reproductive characteristics of Awassi ewes under cornel alternate month accelerated lambing system. Italian J. Anim. Sci., 9: 255-259. https://doi.org/10.4081/ijas.2010.e49

Montes-Quiroza, G.L., Sánchez-Dávilab, F., Grizeljc, J., Bernal-Barragánd, H., Vazquez-Armijoe, J.F., Bosque-González, A.S., Luna-Palomerag, C., Gómezh, A.G. and Ledezma-Torres, R.A., 2018. The reinsertion of controlled internal drug release devices in goats does not increase the pregnancy rate after short oestrus synchronization protocol at the beginning of the breeding season. J. appl. Anim. Res., 46: 714-719. https://doi.org/10.1080/09712119.2017.1386109

Notter, D.R., 2012. Genetic improvement of reproductive efficiency of sheep and goats. Anim. Reprod. Sci., 130: 147-151. https://doi.org/10.1016/j.anireprosci.2012.01.008

Rawlings, N.C., Jeffcoate, I.A. and Howell, W.E., 1987. Response of purebred and crossbred ewes to intensified management. J. Anim. Sci., 65: 651-657. https://doi.org/10.2527/jas1987.653651x

SAS.,1995. Statistical analysis system SAS/STATE user guide. Version 6.12, SAS Institute Inc Cary, NC, USA.

Sheehan, W. and Quirke, J.F., 1984. The reproductive performance of Fingalway ewes mated three times in two years. Ir. J. agric. Res., 23: 41-48.

Sormunen-Cristian, R. and Suvela, M., 1999. Out-of-season lambing of Finnish Landrace ewes. Small Rumin. Res., 31: 265-272. https://doi.org/10.1016/S0921-4488(98)00140-0

Unal, N., Atasoy, F., Akcapinar, H. and Erdoğan, M., 2002. Fertility traits, survival rate and growth characteristics of Karayaka and Bafra (Chios x Karayaka B1) genotypes. Turk J. Vet. Anim. Sci., 27: 265-272 (in Turkish, English abstract).

Unal, N., Akcapinar, H., Atasoy, F. and Aytac, M., 2006. Some reproductive and growth traits of Kivircik genotypes produced by crossing local sheep breeds of Kivircik x White Karaman and Chios x White Karaman in steppe conditions. Arch. Tierz. Dummerstorf., 49: 55-63. https://doi.org/10.5194/aab-49-55-2006

Vanimisetti, H.B. and Notter, D.R., 2012. Opportunities for genetic evaluation of reproductive performance in accelerated lambing systems. Livest. Sci., 148: 134-145. https://doi.org/10.1016/j.livsci.2012.05.022

Vasques, M.I., Cavaco-Gonçalves, S., Marques, C.C., Barbas, J.P., Baptista, M.C., Cunha, T.P. and Horta, A.E.M., 2006. The effect of ram exposure previous to progestagen oestrus synchronization on corpus luteum function and fertility in crossbred ewes. Publication-European Association for Animal Production, 119: 343.

Wei, S., Chen, S., Wei, B., Liu, Z., Bai, T. and Lin, J., 2016. Estrus synchronization schemes and application efficacies in anestrus lanzhou fat-tailed ewes. J. appl. Anim. Res., 44: 466-473. https://doi.org/10.1080/09712119.2015.1091350

Yilmaz, A. and Akmaz, A., 2000. The growth traits of Konya Merino lambs born in different seasons. Vet. Bil. Derg., 16: 145-151 (in Turkish, English abstract).

Yilmaz, O., Denk, H. and Bayram, D., 2007. Effects of lambing season, sex and birth type on growth performance in Norduz lambs. Small Rumin. Res., 68: 336-339. https://doi.org/10.1016/j.smallrumres.2005.11.013

Zarkawi, M., 2011. Response of fat-tailed Syrian Awassi ewes to accelerated lambing systems. Trop. Anim. Hlth. Prod., 43: 1311–1318. https://doi.org/10.1007/s11250-011-9861-x

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