Ryouta Hirose scite author profile

Ryouta Hirose

5Publications

37Citation Statements Received

19Citation Statements Given

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Affiliations

Sumitomo Heavy Industries (Japan), Yamagata University

Publications

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Inoculation of arbuscular mycorrhizal fungi can substantially reduce phosphate fertilizer application to Allium fistulosum L. and achieve marketable yield under field condition

2012

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The effects of inoculating arbuscular mycorrhizal (AM) fungi on the growth, phosphorus (P) uptake, and yield of Welsh onion (Allium fistulosum L.) were examined under the non-sterile field condition. Welsh onion was inoculated with the AM fungus, Glomus R-10, and grown in a glasshouse for 58 days. Non-inoculated plants were grown as control. Inoculated and non-inoculated seedlings were transplanted to a field with four available soil P levels (300, 600, 1,000, and 1,500 mg P 2 O 5 kg −1 soil) and grown for 109 days. AM fungus colonization, shoot P concentration, shoot dry weight, shoot length, and leaf sheath diameter were measured. Percentage AM fungus colonization of inoculated plants was 94% at transplant and ranged from 60% to 77% at harvest. Meanwhile, non-inoculated plants were colonized by indigenous AM fungi. Shoot length and leaf sheath diameter of inoculated plants were larger than those of noninoculated plants grown in soil containing 300 and 600 mg P 2 O 5 kg −1 soil. Shoot P content of inoculated plants was higher than that of non-inoculated plants grown in soil containing 300 and 600 mg P 2 O 5 kg −1 soil. Yield (shoot dry weight) was higher for non-inoculated plants grown in soil containing 1,000 and 1,500 mg P 2 O 5 kg −1 soil than for those grown in soil containing 300 and 600 mg P 2 O 5 kg −1 soil. Meanwhile, the yields of inoculated plants (200 g plant −1 ) grown in soils containing the four P levels were not significantly different. Yield of inoculated plants grown in soil containing 300 mg P 2 O 5 kg −1 soil was similar to that of non-inoculated plants grown in soil containing 1,000 mg P 2 O 5 kg −1 soil. The cost of AM fungal inoculum for inoculated plants was US$ 2,285 ha −1 and lower than the cost of superphosphate (US$ 5,659 ha −1 ) added to soil containing 1,000 mg P 2 O 5 kg −1 soil for non-inoculated plants. These results indicate that the inoculation of AM fungi can achieve marketable yield of A. fistulosum under the field condition with reduced application of P fertilizer.

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Large Scale Computer Experiments of Mixing Vessel by Renormalization Molecular Dynamics Method

Hirose

Ichishima

Yajima

2016

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Computer Experiment of the Sliding by Renormalization Molecular Dynamics Method

Hirose

Ichishima

Takahashi

et al. 2014

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041 Computer Experiment of a Mixing Vessel by the Renormalization Molecular Dynamics Method

Yajima

Hirose

Esaki

et al. 2015

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Computational Experiments of Polymer by Renormalization Molecular Dynamics Method

Hirose

Ichishima

Horiguchi

et al. 2019

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Ryouta Hirose

Inoculation of arbuscular mycorrhizal fungi can substantially reduce phosphate fertilizer application to Allium fistulosum L. and achieve marketable yield under field condition

Large Scale Computer Experiments of Mixing Vessel by Renormalization Molecular Dynamics Method

Computer Experiment of the Sliding by Renormalization Molecular Dynamics Method

041 Computer Experiment of a Mixing Vessel by the Renormalization Molecular Dynamics Method

Computational Experiments of Polymer by Renormalization Molecular Dynamics Method

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