Water saving rice cultivation using sheet-pipe subsurface irrigation

灌溉 环境科学 背景(考古学) 排水 用水效率 含水量 土壤水分 水资源 用水 生产力 农业工程 水分 农学 环境工程 土壤科学 工程类 生态学 地质学 材料科学 岩土工程 生物 古生物学 宏观经济学 经济 复合材料
作者
Chusnul Arif,Satyanto Krido Saptomo,Budi Indra Setiawan,Muh Taufik,Willy Bayuardi Suwarno,Bayu Dwi Apri Nugroho,Masaru Mizoguchi
出处
期刊:Heliyon [Elsevier BV]
卷期号:10 (10): e30799-e30799 被引量:1
标识
DOI:10.1016/j.heliyon.2024.e30799
摘要

Water saving in rice cultivation has assumed paramount importance, especially in the context of climate change. The introduction of sheet-pipe technology in Indonesia heralded as an innovative subsurface irrigation and drainage system, is poised to revolutionize how to manage this vital resource. Our study was designed with two primary objectives: first, to investigate how rice plants respond when water levels are deliberately reduced using the sheet-pipe technology; and second, to comprehensively analyze water productivity and water use efficiency in comparison to conventional flooded rice cultivation systems. We conducted two distinct experiments: one employing sheet-pipe subsurface irrigation (SSI) and the other utilizing conventional flooded irrigation (CFI). In the SSI setup, the water level was maintained at a depth of 5-10 cm below the soil surface 20 days after transplanting to harvesting. With this setting, the soil moisture was maintained at around 85-95 degrees of saturation. On the other hand, the CFI approach involved water flowing directly over the soil surface, with the water level consistently maintained at a mere 2-3 cm above it. Interestingly, while the SSI method did lead to a reduction in yield, it has significant benefits. Our results showed that a reduction in yield was observed for the SSI 15.5-18.6 % lower compared to the conventional method (CFI). However, the SSI is environmentally benefit compared to the conventional method by reducing 37.5-50.5 % in water irrigation, increasing water use efficiency (WUE) up to 70.8 %, and improving 3.2-10.4 % in water productivity. Our findings reveal that optimizing water conservation may have a disadvantageous effect on rice yield, indicating the importance of optimal water level. Future research to find the optimal water level that balances yield production and environment is required, especially to adapt to dry and warming climate change in the future.

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