Optimization of irrigation cropping pattern by using linear programming: Case study on irrigation area of Parsanga, Madura Island, Indonesia

• Autorzy: Juwono P. T. , Limantara L. M. , Rosiadi F.

Identyfikatory

DOI

10.2478/jwld-2018-0058

Warianty tytułu

PL

Optymalizacja systemu nawadniania upraw za pomocą programowania linearnego – przykład nawadnianego obszaru Parsanga, wyspa Madura, Indonezja

• Języki publikacji: EN

Abstrakty

EN

The irrigation area of Parsanga is located in Sumenep Regency, Madura Island of Indonesia. This irrigation area is 500 ha and the existing cropping pattern is paddy–paddy–second crop. There is water discharge deficiency due to the existing cropping pattern mainly in the dry season. Thus, this study intends to optimize the cropping pattern for 3 condition so that it can produce the maximum benefit of agricultural product. The first cropping pattern is paddy/second crop–second crop–paddy/second crop; the second proposition is paddy/second crop –paddy/second crop–second crop; and the third proposition is paddy–second crop–paddy/second crop. The optimization analysis is carried out by using the linear programming. The suggested three cropping patterns are not only able to solve the water deficiency; they can also present the more production benefit than the existing condition.

PL

Nawadniany obszar Parsanga znajduje się w dystrykcie Sumenep na wyspie Madura w Indonezji. Ma powierzchnię 500 ha, a system upraw tam stosowanych to ryż–ryż–drugi plon. W warunkach takiego systemu uprawy występują deficyty wody, szczególnie w porze suchej. Z tego powodu przedstawione badania miały na celu optymalizację systemu upraw w trzech systemach, aby uzyskać maksymalne korzyści w produkcji rolniczej. Trzy systemy to: 1 – ryż/drugi plon–drugi plon–ryż/drugi plon, 2 – ryż/drugi plon–ryż/drugi plon–drugi plon i 3 – ryż–drugi plon–ryż/drugi plon. Optymalizację wykonano z zastosowaniem programowania linearnego. Sugerowane trzy systemy są w stanie nie tylko rozwiązać problem deficytu wody, ale także dają korzyści produkcyjne większe niż obecnie uzyskiwane.

Słowa kluczowe

EN

cropping pattern; irrigation; linear programming; optimization; Parsanga

PL

nawadnianie; optymalizacja; Parsanga; programowanie liniowe; system upraw

• Wydawca: Wydawnictwo ITP
• Czasopismo: Journal of Water and Land Development
• Rocznik: 2018
• Tom: no. 39
• Strony: 51--60
• Opis fizyczny: Bibliogr. 25 poz., rys., tab.

Twórcy

autor

Juwono P. T.

• University of Brawijaya, Faculty of Engineering, Department of Water Resources, Jl. Mt Haryono No 167, 65141 Malang, East Java Province, Indonesia

autor

Limantara L. M.

• University of Brawijaya, Faculty of Engineering, Department of Water Resources, Jl. Mt Haryono No 167, 65141 Malang, East Java Province, Indonesia

autor

Rosiadi F.

• University of Brawijaya, Faculty of Engineering, Department of Water Resources, Jl. Mt Haryono No 167, 65141 Malang, East Java Province, Indonesia

Bibliografia

• ABDULKADER A.M.A., AMOUD A.I.A., AWAD F.S. 2012. Optimization of the cropping pattern in Saudi Arabia. Agricultural Economics – Czech. Vol. 58. Iss. 2 p. 56–60.
• GAKPO E., TSEPHE J., NWONWU F., VILKOEN M. 2006. Application of stochastic programming (SDP) for the optimal allocation of irrigation water under capacity sharing arrangements. Agrekon, Agricultural Economics Association of South Africa (AEASA). Vol. 44. No. 4 p. 436–451.
• GUPTA I., ZAAG P.V.D. 2007. Inter-basin water transfers and integrated water resources management: where engineering, science and politics interlock. Journal of Physics and Chemistry of the Earth. Vol. 33 p. 28–40.
• GUPTA N., PILESJO P., MAATHUIS D. 2010. Use of geoinformatics for Inter-Basin water transfer assessment. Journal of Water Resources: Water Resources and the Regime of Water Bodies. Vol. 37. No. 3 p. 623–637.
• HAOUARI M., AZAIEZ M.N. 2001. Optimal cropping patterns under water deficits. European Journal of Operational Research. Vol. 130 p. 133–146.
• HOESEIN A.A., LIMANTARA L.M. 2010. Linear Programming model for optimization water irrigation area of Jatimlerek of East Java. International Journal of Academic Research. Vol. 2. Iss. 6 p. 55–57.
• INWRDAM 2001. Decision support system in the field of water resources planning and management [online]. Amman. Inter-Islamic Network on Water Resources Development and Management. [Access 12.03.2001]. Available at: http://www.nic.gov.jo/inwrdam/dss.htm1
• IPCC 2007. Climate change 2007: Synthesis Report. In: Contribution of Working Groups I, II, and III to the Forth Assessment Report of the Intergovernmental Panel on Climate Change. Eds. R.K. Pachauri, A. Reisinger. Geneva, Switzerland. IPCC pp. 221.
• KAUR B., SIDHU R.S., KAMAL V. 2010. Optimal crop plans for sustainable water use in Punjab. Agricultural Economics Research Review. Vol. 23 p. 273–284.
• LIMANTARA L.M. 2007. Pengaruh perubahan cuaca terhadap optimasi irigasi dengan Program linier [The effect of climate change to optimization of irrigation by using linear programming]. Malang. CV Asrori. ISBN 979-952-367-2 pp. 84.
• LIMANTARA L.M. 2010a. Possible climate change on water irrigation at Golek, Malang, Indonesia. International Journal of Academic Research. Ser. Economics and Engineering. Vol. 1. Iss. 3 p. 15–17.
• LIMANTARA L.M. 2010b. Optimization of water needs at Kepanjen Dam and Sengguruh Dam, East Java, Indonesia. International Journal of Academic Research. Vol. 2 p. 216–218.
• LIMANTARA L.M. 2010c. Hidrologi praktis [Practical hydrology]. Bandung. Lubuk Agung. ISBN 978-979-505-205-2 pp. 324.
• LIMANTARA L.M. 2011. Optimization of improvement and management on Sumber Brantas Watershed East Java, Indonesia. Journal of Basic and Applied Scientific Research. Vol. 1. Iss. 3 p. 231–235.
• LIMANTARA L.M., SOETOPO W. 2011. Manajemen teknik sumber daya air [Water resources management]. Bandung. CV Lubuk Agung. ISBN 978-979-505-225-2 pp. 252.
• MIATKOWSKI Z., SMARZYŃSKA K. 2017. Surface water resources of small agricultural watershed in the Kujawy Region, Central Poland. Journal of Water and Land Development. No. 33 p. 131–140. DOI 10.1515/jwld-2017-0028.
• MONTAZAR A., RAHIMIKOB A. 2008. Optimal water productivity of irrigation networks in arid and semi-arid regions. Irrigation and Drainage. Vol. 57 p. 411–423.
• OSAMA S., ELKHOLY M., KANSOH R.M. 2017. Optimization of the cropping pattern in Egypt. Alexandria Engineering Journal. Vol. 56. Iss. 4 p. 557–566.
• PAVONI B., VOINOV A., ZHAVORA N. 2001. Basin (watershed) approach as a methodological basis for regional decision making and management in the EX USSR [online]. [Access 12.03.2001]. Available at: http://helios.unive.it/%7Eintas/gaboart.htm1
• PRIYANTORO D., LIMANTARA L.M. 2011. Water supply system at Tibunangka irrigation area, Lombok – Indonesia. International Journal of Academic Research. Ser. Mathematical and Technology. Vol. 2. Iss. 1 p. 8–13.
• SATTARI T.M., KODAL S., ÖZTÜRK F. 2006. Application of deterministic mathematical method in optimizing the small irrigation reservoir capacity. Journal of Akdeniz Universitesi Ziraat Fakoltesi Dergisi. Vol. 19. Iss. 2 p. 261–267.
• SETHI L.N., PANDA S.N., NAYAK M.K. 2006. Optimal crop planning and water resources allocation in a coastal groundwater basin, Orissa, India. Agricultural Water Management. No. 83 p. 209–220.
• SINGH D.K., JAISWALB C.S., REDDYA K.S., SINGHA R.M., BHANDARKAR D.M. 2001. Optimal cropping pattern in a canal command area. Agricultural Water Management. Vol. 50. Iss. 1 p. 1–8.
• VIVEKANANDAN N., VISWANATHAN K., SANJEEV G. 2009. Optimization of cropping pattern using goal programming approach. OPSEARCH. No. 46 p. 259–274. DOI 10.1007/s12597-009-0017-y.
• ZHOU H., HUI P., CHI Z. 2007. An interactive fuzzy multiobjective optimization approach for crop planning and water resources allocation. In: Bio-inspired computational intelligence and applications. Eds. K. Li, M. Fei, G.W. Irwin, S. Ma. Lecture Notes in Computer Science. No. 4688. Berlin–Heidelberg. Springer p. 335–346.