Nitrogen Balance in Forage Rice (Oryza sativa L. cv. Tachisuzuka) Cultivation in Pots with Animal Manure Application

Gusmini; Kazuyuki Nishimura; Taizo Masuda; Adrinal; Tesshu Tamai; Tomio Itani

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Nitrogen Balance in Forage Rice (Oryza sativa L. cv. Tachisuzuka) Cultivation in Pots with Animal Manure Application

机译：饲用动物粪肥在饲用水稻（Oryza sativa L. cv。Tachisuzuka）中的氮平衡

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Experiments were conducted to evaluate the nitrogen (N) balance in forage rice cultivation using animal manure in 1/2,000a Wagner pots in a greenhouse. The cattle manure and poultry manure were applied at 3 levels of N (0, 14, 28 g available N m–2) without additional chemical fertilizer application. The pots were designed to simulate the fluid percolation in the paddy field. The results indicated increasing levels of N input improved plant height, tiller number, SPAD value and biomass (straw, grain and root) production, however, N leaching from soil (Andosols) due to percolating water also increased. The planting of rice plants proved to reduce 30% of the N leaching loss. N use efficiency, the ratio of N uptake by plant per unit N application, decreased in higher N application. The N uptake by the above-ground parts occupied about 66% of the whole plants.

机译：进行实验以评估在温室中使用1 / 2,000a Wagner盆中的动物粪便在饲草水稻种植中的氮（N）平衡。牛粪和家禽粪便的氮含量分别为3种（0、14、28 g有效N m–2），而无需额外施用化学肥料。这些盆被设计为模拟稻田中的流体渗流。结果表明，增加的氮输入水平改善了株高，分till数，SPAD值和生物量（秸秆，谷粒和根系）的产量，但由于渗滤水而从土壤（Andosols）浸出的氮也增加了。水稻种植证明减少了30％的氮淋失。在较高的氮肥施用量下，氮素利用效率即植物每单位氮肥吸收氮的比率降低。地上部分的氮吸收量占整个植物的66％。

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《Plant Production Science》 |2015年第4期|共6页
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Gusmini; Kazuyuki Nishimura; Taizo Masuda; Adrinal; Tesshu Tamai; Tomio Itani;
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入库时间 2022-08-18 14:08:24

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Nitrogen Balance in Forage Rice (Oryza sativa L. cv. Tachisuzuka) Cultivation in Pots with Animal Manure Application

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