Denitrification in soil amended with thermophile-fermented compost suppresses nitrate accumulation in plants |
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Authors: | Kazuto Ishikawa Takashi Ohmori Hirokuni Miyamoto Toshiyuki Ito Yoshifumi Kumagai Masatoshi Sonoda Jirou Matsumoto Hisashi Miyamoto Hiroaki Kodama |
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Affiliation: | 1. Graduate School of Horticulture, Chiba University, 648 Matsudo, Chiba, 271-8501, Japan 2. Japan Eco-science Co. Ltd. (Nikkan Kagaku), Shiomigaoka-chou 11-1-2F, Chuuou-ku, Chiba City, Chiba, 260-0034, Japan 3. Miroku Co. Ltd., Iwaya 706-27, Kitsuki City, Oita, 873-0000, Japan 4. Department of Biochemistry and Integrative Medical Biology, Keio School of Medicine, Shinanomachi 35, Shinjuku-ku, Tokyo, 160-8582, Japan 5. Keiyo Plant Engineering, Co. Ltd., Keiyogas western-tower, Ichikawa Minami 2-8-8, Ichikawa City, Chiba, 272-0033, Japan 6. Keiyo Gas Co. Ltd., Ichikawa Minami 2-8-8, Ichikawa City, Chiba, 272-0033, Japan 7. Graduate School of Advanced Integration Science, Chiba University, 1-33 Yayoi-cho, Chiba, 263-8522, Japan
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Abstract: | NO 3 ? is a major nitrogen source for plant nutrition, and plant cells store NO 3 ? in their vacuoles. Here, we report that a unique compost made from marine animal resources by thermophiles represses NO 3 ? accumulation in plants. A decrease in the leaf NO 3 ? content occurred in parallel with a decrease in the soil NO 3 ? level, and the degree of the soil NO 3 ? decrease was proportional to the compost concentration in the soil. The compost-induced reduction of the soil NO 3 ? level was blocked by incubation with chloramphenicol, indicating that the soil NO 3 ? was reduced by chloramphenicol-sensitive microbes. The compost-induced denitrification activity was assessed by the acetylene block method. To eliminate denitrification by the soil bacterial habitants, soil was sterilized with γ irradiation and then compost was amended. After the 24-h incubation, the N2O level in the compost soil with presence of acetylene was approximately fourfold higher than that in the compost soil with absence of acetylene. These results indicate that the low NO 3 ? levels that are often found in the leaves of organic vegetables can be explained by compost-mediated denitrification in the soil. |
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