Ayumi Muramatsu scite author profile

Ayumi Muramatsu

4Publications

8Citation Statements Received

0Citation Statements Given

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Yamagata University

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Cultivation of rice for animal feed with circulated irrigation of treated municipal wastewater for enhanced nitrogen removal: comparison of cultivation systems feeding irrigation water upward and downward

Muramatsu

Ito

Sasaki

et al. 2015

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To achieve enhanced nitrogen removal, we modified a cultivation system with circulated irrigation of treated municipal wastewater by using rice for animal feed instead of human consumption. The performance of this modified system was evaluated through a bench-scale experiment by comparing the direction of circulated irrigation (i.e. passing through paddy soil upward and downward). The modified system achieved more than three times higher nitrogen removal (3.2 g) than the system in which rice for human consumption was cultivated. The removal efficiency was higher than 99.5%, regardless of the direction of circulated irrigation. Nitrogen in the treated municipal wastewater was adsorbed by the rice plant in this cultivation system as effectively as chemical fertilizer used in normal paddy fields. Circulated irrigation increased the nitrogen released to the atmosphere, probably due to enhanced denitrification. Neither the circulation of irrigation water nor its direction affected the growth of the rice plant and the yield and quality of harvested rice. The yield of rice harvested in this system did not reach the target value in normal paddy fields. To increase this yield, a larger amount of treated wastewater should be applied to the system, considering the significant amount of nitrogen released to the atmosphere.

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Rice production with minimal irrigation and no nitrogen fertilizer by intensive use of treated municipal wastewater

Muramatsu

Watanabe

Sasaki

et al. 2014

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We designed a new cultivation system of rice with circulated irrigation to remove nitrogen from treated municipal wastewater effectively and assessed the possibility of nitrogen removal in the new system without any adverse effects on rice production through bench-scale experiments through two seasons. Overgrowth of the rice plant, which can lead to lodging and tasteless rice, was found in the first season probably because nitrogen supply based on standard practice in normal paddy fields was too much in the closed irrigation system. In the second season, therefore, the amount of treated wastewater initially applied to the system was reduced but this resulted in a considerably decreased yield. On the other hand, the taste of the rice was significantly improved. The two-season experiments revealed that the new system enabled rice production with minimal irrigation (approximately 50% on the yield base compared to normal paddy fields) and no nitrogen fertilizer. The system also achieved >95% removal of nitrogen from the treated wastewater used for circulated irrigation. The accumulation of harmful metals in the rice was not observed after one season of cultivation in the new system. The accumulation after cultivation using the same soil repeatedly for a longer time should be examined by further studies.

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Resource-Saving Rice Cultivation with Circulated Irrigation of Treated Wastewater

Muramatsu¹,

Watanabe²,

Sasaki³

et al. 2012

J. JSCE, Ser. G

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A System to Cultivate Rice for Animal Feed With Circulated Irrigation of Treated Municipal Wastewater

Muramatsu¹,

Watanabe²,

Ito³

et al. 2014

J. JSCE, Ser. G

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Ayumi Muramatsu

Cultivation of rice for animal feed with circulated irrigation of treated municipal wastewater for enhanced nitrogen removal: comparison of cultivation systems feeding irrigation water upward and downward

Rice production with minimal irrigation and no nitrogen fertilizer by intensive use of treated municipal wastewater

Resource-Saving Rice Cultivation with Circulated Irrigation of Treated Wastewater

A System to Cultivate Rice for Animal Feed With Circulated Irrigation of Treated Municipal Wastewater

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