Pattern of Integrated System of Smallholder Beef Cattle Central in Tegal Regency

https://doi.org/10.21059/buletinpeternak.v43i1.38378

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

(1) Vocational High School State 2 Slawi, Tegal, 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


Purpose of this research is to focus on importance of knowing the activities of smallholder enterprise systems, types and trends in the patterns of integrated systems adopted, the impact of implementing integrated systems and the implications for sustainability of livestock systems. This research also emphasize the importance of opportunities in enhancing and increasing livestock productivity and increasing production in smallholder farms and developing the easiest formulation of strategies for sustainable livestock systems. A qualitative method using Soft System Methodology (SSM) from System Thinking was chosen to visualize the activities of smallholder enterprise systems and the pattern of integrated systems are presented descriptively. The next study method of quantitative is used to determine the impact of livestock productivity on each applied integrated systems presented comparatively. Soft System Methodology succeed to visualize smallholder enterprise systems at the level of individual and community level of farmer. Farmer’s group activity  influence the pattern of integrated systems that impacted on beef cattle’s productivity. The ICLFS pattern promotes a way of optimally utilizing agroecosystems and it has potential and become candidate system that be able in enhancing and increasing productivity, increasing livestock production and farmer's income, and realize beef self-sufficiency.

 

 

Keywords


Enhancing and incerasing productivity; Pattern of integrated system; Self-sufficiency; System impact

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References

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

Devendra, C. 2010. Food Production from Animals in Asia : Priority for Expanding the Development Frontiers. ASM Sci. J. 4: 173-184.

Directorate General Livestock and Veterinary Services. 2017. Statistik Peternakan dan Kesehatan Hewan (Livestock and Animal Health Statistics 2017). Directorate General Livestock and Veterinary Services, Minister of Agriclture Republic of Indonesia, Jakarta.

Directorate General Livestock and Veterinary Services. 2015. Pedoman Sentra peternakan rakyat (SPR) (Guide for Smallholder Central). Directorate General Livestock and Veterinary Services, Minister of Agriclture Republic of Indonesia, Jakarta.

Dossa, L. H., M. Sangaré, A. Buerkert, and E. Schlecht. 2015. Intra-urban and peri-urban differences in cattle farming systems of Burkina Faso. Land use policy 48: 401-411.

Eversole, D. E., M. F. Browne, J. B. Hall, and R. E. Dietz. 2009. Body Condition Scoring Beef Cows. Virginia, USA.

Fountas, S., C. G. Sorensen, Z. Tsiropoulos, C. Cavalaris, V. Liakos, and T. Gemtos. 2015. Farm machinery management information system. Comput. Electron. Agric. 110: 131–138.

Fust, P. and E. Schlecht. 2018. Integrating spatio-temporal variation in resource availability and herbivore movements into rangeland management : RaMDry — An agent-based model on livestock feeding ecology in a dynamic, heterogeneous, semi-arid environment. Ecol. Modell. 369: 13-41.

Gayatri, S., V. Gasso-tortajada, and M. Vaarst. 2016. Assessing Sustainability of Smallholder Beef Cattle Farming in Indonesia : A Case Study Using the FAO SAFA Framework. J. Sustain. Dev. 9: 236-247.

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.

Herrero, M., P. K. Thornton, A. Bernue´s, I. Baltenweck, J. Vervoort, J. van de. Steeg, S. Makokha, M. T. van. Wijk, S. Karanja, M. C. Rufino, and S. J. Staal. 2014. Exploring future changes in smallholder farming systems by linking socio-economic scenarios with regional and household models. Glob. Environ. Chang. 24: 165-182.

Kipling, R. P., A. Bannink, G. Bellocchi, T. Dalgaard, N. J. Fox, N. J. Hutchings, C. Kjeldsen, N. Lacetera, F. Sinabell, C. F. E. Topp, M. Van. Oijen, P. Virkajärvi, and N. D. Scollan. 2016. Modeling European ruminant production systems : Facing the challenges of climate change. Agric. Syst. 147: 24-37.

Leppink, J. 2017. Revisiting the quantitative e qualitative-mixed methods labels : Research questions, developments, and the need for replication. J. Taibah Univ. Med. Sci. 12: 97-101.

Marx, T. 2008. The Beef Cow-calf Manual. Alberta Agriculture and Food, Canada.

Mogensen, L., T. Kristensen, T. L. T. Nguyen, M. T. Knudsen, and J. E. Hermansen. 2014. Method for calculating carbon footprint of cattle feeds - including contribution from soil carbon changes and use of cattle manure. J. Clean. Prod. 73: 40-51.

Neuman, W. L. 2014. Social Research Methods: Qualitative and Quantitative Approaches, 7th edn. Pearson Education Limited, London.

Peyraud, J., M. Taboada, and L. Delaby. 2014. Integrated crop and livestock systems in Western Europe and South America : A review. Eur. J. Agron. 57: 31-42.

Riedel, S., A. Schiborra, C. Hülsebusch, and E. Schlecht. 2014. The productivity of traditional smallholder pig production and possible improvement strategies in Xishuangbanna , South Western China. Livest. Sci. 160: 151-162.

Rittichainuwat, B. and S. Rattanaphinanchai. 2015. Applying a mixed method of quantitative and qualitative design in explaining the travel motivation of fi lm tourists in visiting a film-shooting destination. Tour. Manag. 46: 136-147.

Rusdiana, S. and Soeharsono. 2018. Analysis of Business Efficiency Level of Beef Cattle in Banggai District of Central Sulawesi. Buletin Peternakan 42: 72-79.

Setianto, N. A., D. Cameron, and J. B. Gaughan. 2014a. Identifying Archetypes of an Enhanced System Dynamics Causal Loop Diagram in Pursuit of Strategies to Improve Smallholder Beef Farming in Java , Indonesia. Syst. Res. Behav. Sci. 31: 642-654.

Setianto, N. A., D. Cameron, and J. B. Gaughan. 2014b. Structuring the problematic situation of smallholder beef farming in Central Java, Indonesia : using systems thinking as an entry point to taming complexity. Int. J. Agric. Manag. 3: 164-174.

Statistic Service of Tegal Regency. 2017. Kabupaten Tegal dalam Angka (Tegal Regency In Figures 2017). Badan Pusat Statistik Kabupaten Tegal. Kabupaten Tegal.

Stefanski, S. F., X. Shi, J. S. Hall, A. Hernandez, and E. P. Fenichel. 2015. Teak – cattle production tradeoffs for Panama Canal Watershed small scale producers. For. Policy Econ. 56: 48-56.

Sugiarto, M., S. Nur, O. E. Jatmiko, and M. I. Wahyu. 2018. Farmer’s Individual Potential in Different Farm Sizes of Local Beef Cattle Farming in Kebumen Regency, Indonesia. Buletin Peternakan 42: 80-84.

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

Vanlauwe, B., J. Wendt, K. E. Giller, M. Corbeels, B. Gerard, and C. Nolte. 2014. Field Crops Research A fourth principle is required to define Conservation Agriculture in sub-Saharan Africa : The appropriate use of fertilizer to enhance crop productivity. F. Crop. Res. 155: 10-13.

Wang, W., W. Liu, and J. Mingers. 2015. A systemic method for organisational stakeholder identification and analysis using Soft Systems Methodology (SSM). Eur. J. Oper. Res. 246: 562-574.

Wu, W. and B. Ma. 2015. Science of the Total Environment Integrated nutrient management (INM) for sustaining crop productivity and reducing environmental impact : A review. Sci. Total Environ. 512: 415-427.



DOI: https://doi.org/10.21059/buletinpeternak.v43i1.38378

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