Reproductive Performance of Beef Cattle Raised Under SPR Program in Tegal Regency

https://doi.org/10.21059/buletinpeternak.v44i1.46127

Aji Gunawan(1*), Akhmad Sodiq(2), Krismiwati Muatip(3), Novie Andri Setianto(4)

(1) Vocational High School State 2 Slawi, Tegal Regency, 52412, Indonesia
(2) Faculty of Animal Science, University of Jenderal Soedirman, Purwokerto, 53123, Indonesia
(3) Faculty of Animal Science, University of Jenderal Soedirman, Purwokerto, 53123, Indonesia
(4) Faculty of Animal Science, University of Jenderal Soedirman, Purwokerto, 53123, Indonesia
(*) Corresponding Author

Abstract


The purpose of this research was to assess the reproductive performance of beef cattle based on different production systems. Survey research was carried out in Margasari Subdistrict, Tegal Regency, Central Java Province, in 13 farmer groups (a total of 188 breeders and 557 beef cattle) who took shelter in the SPR Program The qualitative and quantitative design framework is used to obtain comprehensive data. The questionnaire was used to get data and respondents determined by census method. SPSS software is used to analyze data. The results showed that 38.46% of farmer groups implemented a crop-livestock-system (CLS), 30.77% of farmer groups implemented a livestock-forestry system (LFS), and 30.77% of farmer groups implemented a crop-livestock-forestry-system (CLFS) in producing beef cattle. The results of the present study were significantly (P<0.05) there were differences in each reproductive performance parameter (BCS, S / C, CR, CI, and CC), which was observed in each beef production system (CLFS, CLS, and LFS). The results of this study also provide an overview of the simultaneous effects on the application of the production system to the reproductive performance of beef cattle. Although there has been certain variation between the production systems, the reproductive performance of the observed beef cattle has not been satisfactory. Improving nutrition management in cattle is needed to realize successful reproductive performance.


Keywords


Beef cattle production system; Reproductive performance; Smallholder beef cattle; The SPR program

Full Text:

PDF


References

Abdullah, M., T. K. Mohanty, T. K. Patbandha, M. Bhakat, A. R. Madkar, A. Kumaresan and A. K. Mohanty. 2017. Pregnancy diagnosis-positive rate and conception rate as indicator of farm reproductive performance. Indian J. Anim. Res. 51: 170–174.

Agus, A. and T. S. M. Widi. 2018. Current situation and future prospects for beef cattle production in Indonesia — A review. Asian-Australasian J. Anim. Sci. 31: 976–983.

Andreß, H. -J. 2015. Statistical Analysis Packages, in: International Encyclopedia of the Social and Behavioral Sciences. Elsevier Ltd, pp. 376–380.

Andreini, E., J. Finzel, D. Rao, S. Larson-Praplan and J. W. Oltjen. 2018. Estimation of the Requirement for Water and Ecosystem Benefits of Cow-Calf Production on California Rangeland. Rangelands 40: 24–31.

Antari, R., G. P. Ningrum, D. E. Mayberry, Marsetyo, D. Pamungkas, S. P. Quigley and D. P. Poppi. 2014. Rice straw, cassava by-products and tree legumes provide enough energy and nitrogen for liveweight maintenance of Brahman (Bos indicus) cows in Indonesia. Anim. Prod. Sci. 54: 1228–1232.

Central Bureau of Statistics Tegal Regency. 2018. Kabupaten Tegal Dalam Angka 2018. BPS Kabupaten Tegal, Slawi.

Dahlanuddin, L. A. Zaenuri, A. Sutaryono, Hermansyah, K. Puspadi, C. McDonald, L. J. Williams, J. P. Corfield and M. Van Wensveen. 2016. Scaling out integrated village management systems to improve Bali cattle productivity under small scale production systems in Lombok, Indonesia. Livest. Res. Rural Dev. 28: 1–13.

Díaz, R., C. S. Galina, I. Rubio, M. Corro, J. L. Pablos, A. Rodríguez and A. Orihuela. 2017. Resumption of ovarian function, the metabolic profile and body condition in Brahman cows (Bos indicus) is not affected by the combination of calf separation and progestogen treatment. Anim. Reprod. Sci. 185: 181–187.

Dickinson, S. E., M. F. Elmore, L. Kriese-anderson, J. B. Elmore, B. N. Walker, P. W. Dyce, S. P. Rodning and F. H. Biase. 2019. Evaluation of age, weaning weight, body condition score, and reproductive tract score in pre-selected beef heifers relative to reproductive potential. J. Anim. Sci. Biotechnol. 10: 1–7.

Directorate General of Livestock and Animal Health (DGLAH), Minister of Agriculture of Republik Indonesia. 2015. Pedoman Sentra Peternakan Rakyat (SPR). Direktorat Jenderal Peternakan dan Kesehatan Hewan, Kementerian Pertanian RI, Jakarta.

Diskin, M. G. 2018. Review: Semen handling, time of insemination and insemination technique in cattle. Animal 12: s75–s84.

Diskin, M. G. and D. A. Kenny. 2014. Optimising reproductive performance of beef cows and replacement heifers. Animal 8: 27–39.

Diskin, M. G. and D. A. Kenny. 2016. Managing the reproductive performance of beef cows. Theriogenology 1–9.

Ekowati, T., E. Prasetyo and M. Handayani. 2018. The factors influencing production and economic efficiency of beef cattle farm in Grobogan Region, Central Java. J. Indones. Trop. Anim. Agric. 43: 76–84.

El-tarabany, M. S. and K. M. El-bayoumi. 2015. Reproductive performance of backcross Holstein x Brown Swiss and their Holstein contemporaries under subtropical environmental conditions. Theriogenology 83: 444–448.

Gebrekidan, B., A. Tegegne and F. Regassa. 2016. Assessment of reproductive performance of Begait cattle in in-situ and ex-situ sites and in different production systems in northern Ethiopia. Anim. Reprod. Sci. 166: 1–8.

Gil, J., M. Siebold, and T. Berger. 2015. Adoption and development of integrated crop–livestock–forestry systems in Mato Grosso, Brazil. Agric. Ecosyst. Environ. 199: 394–406.

Gutierrez, K., R. Kasimanickam, A. Tibary, J. M. Gay, J. P. Kastelic, J. B. Hall and W. D. Whittier. 2014. Effect of reproductive tract scoring on reproductive efficiency in beef heifers bred by timed insemination and natural service versus only natural service. Theriogenology 81: 918–924.

Hassan, F. A. M., M. A. Ali and M. S. El-Tarabany. 2017. Economic impacts of calving season and parity on reproduction and production traits of buffaloes in the sub-tropics. Environ. Sci. Pollut. Res. 24: 10258–10266.

Ibrahim, N. and A. Seid. 2017. Review on reproductive performance of crossbred dairy cattle in Ethiopia. J. Reprod. Infertil. 8: 88–94.

Kannan, N., E. Osei, O. Gallego and A. Saleh. 2017. Estimation of green water footprint of animal feed for beef cattle production in Southern Great Plains. Water Resour. Ind. 17: 11–18.

Leppink, J. 2017. Revisiting the quantitative-qualitative-mixed methods labels: Research questions, developments, and the need for replication. J. Taibah Univ. Med. Sci. 1–5.

Manzi, M., L. Rydhmer, M. Ntawubizi, C. Karege, and E. Strandberg. 2018. Reproductive performance of Ankole cattle and its crossbreds in Rwanda. Trop. Anim. Health Prod. 1-6.

Manzoor, A., M. Untoo, B. Zaffar, I. Afzal, A. Fayaz, Z. A. Dar and S. Shafiq. 2018. Performance profile of dairy animals under compromise with dynamics in body condition score. A Review. J. Anim. Heal. Prod. 6: 80–85.

Mayberry, D. E., T. M. Syahniar, R. Antari, G. P. Ningrum, Marsetyo, D. Pamungkas and D. P. Poppi. 2014. Predicting feed intake and liveweight gain of Ongole (Bos indicus) cattle in Indonesia. Anim. Prod. Sci. 54: 2089–2096.

Muller, C. J. C., S. W. P. Cloete and J. A. Botha. 2018. Fertility in dairy cows and ways to improve it. S. Afr. J. Anim. Sci. 48: 858–868.

Neuman, W. L. 2014. Social Research Methods: Qualitative and Quantitative Approaches, Seventh. ed. Pearson Education Limited, London.

Panjono, M. S. Haq, C. Hanim, S. Andarwati, D. Maharani, D. T. Widayati and I. G. S. Budisatria. 2017. Reproductive Performance of Jabres Cow at Brebes, Central Java Province, Indonesia. In: Proceeding of the 1st International Conference on Tropical Agriculture. Springer, Cham, pp. 421–423.

Pribadi, L. W., S. Maylinda, M. Nasich and S. Suyadi. 2015. Reproductive efficiency of Bali cattle and it’s crosses with Simmental breed in the lowland and highland areas of West Nusa Tenggara Province, Indonesia. Livest. Res. Rural Dev.

Priyanti, A., R. Cramb, V. W. Hanifah and I. G. A. P. Mahendri. 2015. Small-scale cattle raising in East Java, Indonesia: A pathway out of poverty? Asia Pac. Viewp. 56: 335–350.

Richardson, B. N., S. L. Hill, J. S. Stevenson, G. D. Djira and G. A. Perry. 2016. Expression of estrus before fixed-time AI affects conception rates and factors that impact expression of estrus and the repeatability of expression of estrus in sequential breeding seasons. Anim. Reprod. Sci. 166: 133–140.

Rohyan, J., Sutopo and E. Kurnianto. 2016. Population dinamics on Ongole Grade cattle in Kebumen Regency - Central Java. J. Indones. Trop. Anim. Agric. 41: 224–232.

Siatka, K., A. Sawa, S. Krężel-Czopek, D. Piwczyński and M. Bogucki. 2017. Effect of some factors on number of services per conception in dairy cows. J. Vet. Sci. Technol. 8: 1–4.

Smith, S. B., T. Gotoh, and P. L. Greenwood. 2018. Current situation and future prospects for global beef production: overview of special issue. Asian-Australasian J. Anim. Sci. 31: 927–932.

Taguchi, N. 2018. Description and explanation of pragmatic development: Quantitative, qualitative, and mixed methods research. System 1–10.

Titterington, F. M., F. O. Lively, S. Dawson, A. W. Gordon and S. J. Morrison. 2017. The effects of breed, month of parturition and sex of progeny on beef cow fertility using calving interval as a measure. Adv. Anim. Biosci. 8: S67–S71.

Troxel, T. R., M. S. Gadberry, J. A. Jennings, S. M. Jones, K. J. Simon, D. S. Hubbell and J. D. Tucker. 2015. CASE STUDY: Demonstration of the feasibility of extending the grazing period of beef cow-calf herds beyond 300 days in Arkansas. Prof. Anim. Sci. 30: 657–673.

Vinothraj, S., A. Subramaniyan, R. Venkataramanan, C. Joseph and S. N. Sivaselvam. 2016. Genetic evaluation of reproduction performance of Jersey × Red Sindhi crossbred cows. Vet. World 9: 1012–1017.

Walmsley, B. J., S. J. Lee, P. F. Parnell and W. S. Pitchford. 2018. A review of factors influencing key biological components of maternal productivity in temperate beef cattle. Anim. Prod. Sci. 58: 1–19.

Wario, H. T., H. G. Roba, M. Aufderheide and B. Kaufmann. 2017. Reproductive performance and herd growth potentials of cattle in the Borana pastoral system, southern Ethiopia. Anim. Prod. Sci. 57: 161–169.

Widi, T. S. M., H. M. J. Udo, K. Oldenbroek, I. G. S. Budisatria, E. Baliarti, T. C. Viets and A. J. Van der Zijpp. 2015. Is cross-breeding of cattle beneficial for the environment? The case of mixed farming systems in Central Java, Indonesia. Anim. Genet. Resour. 57: 1–13.



DOI: https://doi.org/10.21059/buletinpeternak.v44i1.46127

Article Metrics

Abstract views : 13079 | views : 2719

Refbacks

  • There are currently no refbacks.




Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Buletin Peternakan (Bulletin of Animal Science) Indexed by:

   
 
Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.