潮汐低地垦区支持水稻生产的水土管理选择(以印度尼西亚南苏门答腊岛苏吉汉卡南三角洲为例)

Journal of Wetlands Environmental Management Pub Date : 2019-02-13 DOI:10.20527/JWEM.V6I2.165

M. Imanudin, B. Bakri, M. E. Armanto, B. Setiawan, Ratmini S Np

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引用次数: 6

摘要

潮地低地沼泽农业面临的主要问题是土壤质量低、土壤酸度高、水位高。研究目的是调查在河道和三级地块增加三级渠网对改善水质(增加pH值和减少铁)的努力。实地研究在南苏门答腊省苏吉汉卡南三角洲Jalur 25的Bandarjaya村进行。野外活动由网络调查土地利用和农场企业系统组成，分别位于苏吉汉基里区13号和苏吉汉甘南区25号。通过在三级集水渠、次三级渠和季渠下游出水口为控制地块上建设微水管理(设置三级闸、开辟四分渠)来实现管网整治效果。为控制三级河道的水位，采用鹅颈式水闸管道系统。结果表明，研究区土地利用仍以水稻作物为主，占83%，其余17%为橡胶林、柑桔林和混交林。植藻层深度在地表以下60 ~ 100 cm。10月地下水位在10 ~ 35 cm之间。田间适应结果表明，植物营养期水闸处于封闭状态(保水)。水分保持对水稻产量有显著的促进作用，11月以来地下水位从-10 cm增加到1月的15 cm淹水。该条件为水稻作物提供了充足的水分，与灌区的结果相似。在三级通道和三级通道出水口添加椰子纤维和沙精块等改良物质也能改善水质，使水体pH由2.95提高到3.7，铁浓度由4.01降低到0.32 mg/l。水稻产量由平均产量2吨/公顷提高到3吨/公顷。这种低产量是由于土地冲洗过程需要较长的时间，从目前的情况来看至少需要2到3年的时间，以及其他生产投入，如施肥和改良物质。

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Land And Water Management Option of Tidal Lowland Reclamation Area to Support Rice Production (A Case Study in Delta Sugihan Kanan of South Sumatra Indonesia)

The main problem for agriculture at tidal lowland swamp is low soil quality and high acidity of soil and high water. The research objective was to investigate how far the effort in increasing tertiary canal network to improve water quality (increasing pH and reducinf iron) in channel and tertiary plot. Field study was conducted at Bandarjaya Village of Jalur 25, Delta Sugihan Kanan, South Sumatra. Field activities were consisted of network investigation land use and farm enterprise system which located at Primr 13 of Sugihan Kiri and Primer 25 of Sugihan Kanan. The network improvement perfomance was conducted by constructing micro water management (installed the tertiary gate and developen quartey canal) at tertiary plot which consisted of collector channel, sub tertiary channel and control plot which was outfall at quarterly channel downstream end. Water gate having goose neck pipe system was constructed to control water table in tertiary channel. Results of field study showed that land use at the study area was still dominated by rice crop with magnitude of 83% and the rest of 17% was used for rubber plantation, orange planation and mix plantation. The depth of phyrite layer was in the range of 60 to 100 cm below soil surface. Water table surface in October was in the range of 10 to 35 cm. Field adaptation showed that water gate was operated in closed condition (water retention) during vegetative phase. Water retention showed significant to improve rice yield in which water table since November had increased from -10 cm to flooding condition of 15 cm in January. This condition provide sufficient water for rice crop which was similar as the result found at irrigation area. The addition of ameliorant substances such as coconut fiber, and sand semen block at outfall of tertiary and kuartely channels also increase water quality in which water pH was increased from 2.95 to 3.7 and iron concentration was decreased from 4.01 to 0.32 mg/liter. Rice yield was increased from average production of 2 ton/ha to 3 ton/ha. This low production was due to land flushing process which need longer time process for at least 2 to 3 years from current condition as well as other production inputs such as fertilization and ameliorant substances.

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Journal of Wetlands Environmental Management

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