| Summary: | Intensive farming system development (FSD) on poor fertile soil with limited water source can lead to trade-off between economic benefit in the short run and environmental problems in the long run. As environmental degradation increases and inefficient in resources allocation, farming system will become unsustainable. This study aims to optimize irrigated farming system model and to assess its sustainability. By using linear programming analysis, local farmer in north coastal plain of Bali was optimal in resources allocation indicated from optimal solution of conventional farming system model which conforms to observed behavior. By several adjustments, conventional farming system model can be extended to sustainable farming system model. It is found that the sustainable farm
ing system is better than the conventional farming system. Since all components and indicators of sustainability were considered into model and all criteria of sustainability were fulfilled by optimal results, the extended farming system model also guarantees that irrigated farming system development at household level will become sustaipable. To make the sustainable farming system at household level, the farmer should be able to allocate the groundwater less than or equal to 8.547 Lis, to add the organic fertilizer from manure more than or equal to 5 t/ha/yr, to continue the mixed-farming system and crops rotation, to consider minimum household expenditure, and to put the sustainable value in the use of water in approximately Rp I ,218.29/CM into effect. The sustainable farming system model generated from this study passed validated process. Thus, it can be contributed to scientific development. Also, its results can become best management practices by local farmers on their fanns.
Keywords: optimal, farming system, sustainable
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