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Japanese journal of fertility and sterility Volume 37 Issue 4
pp. 658 - 660
published_at 1992
農林水産技術研究ジャ-ナル Volume 14 Issue 9
pp. 30 - 36
published_at 1991
土と微生物 Volume 49
pp. 17 - 25
published_at 1997
Creators :
Marumoto Takuya
Takaki Shigeki
Kitamura Akira
Ishida Daisaku
Tanaka Shuhei
Publishers : 日本土壌微生物学会
土と微生物 Volume 47
pp. 51 - 58
published_at 1996
Creators :
Takaki Shigeki
Kitamura Akira
Marumoto Takuya
Ishida Daisaku
Tanaka Shuhei
Publishers : 日本土壌微生物学会
Journal of Agricultural Meteorology Volume 52 Issue 5
pp. 613 - 616
published_at 1997
Creators :
Marumoto Takuya
Hayakawa Seiji
Ezaki Tsugio
Yamamoto Kazuo
Okabe Hiroaki
Publishers : 日本農業気象学会
Journal of Agricultural Meteorology Volume 52 Issue 5
pp. 609 - 612
published_at 1997
Molecular Breeding Volume 35 Issue 9
pp. 195 -
published_at 2015-10
Creators :
Abdelrahman Mostafa
Sawada Yuji
Nakabayashi Ryo
Sato Shusei
Hirakawa Hideki
El-Sayed Magdi
Yokota Hirai Masami
Saito Kazuki
Yamauchi Naoki
Shigyo Masayoshi
Plant physiology Volume 169 Issue 3
pp. 1744 - 1754
published_at 2015
Creators :
Muramoto Shoko
Matsubara Yayoi
Mwenda Cynthia Mugo
Koeduka Takao
Sakami Takuya
Tani Akira
Matsui Kenji
Publishers : American Society of Plant Physiologists
Planta : Archiv für wissenschaftliche Botanik Volume 242 Issue 5
pp. 1175 - 1186
published_at 2015-11
Creators :
Koeduka Takao
Ishizaki Kimitsune
Mwenda Cynthia Mugo
Hori Koichi
Sasaki-Sekimoto Yuko
Ohta Hiroyuki
Kohchi Takayuki
Matsui Kenji
Publishers : Springer
Journal of plant interactions Volume 10 Issue 1
pp. 1 - 10
published_at 2015
Creators :
Mwenda Cynthia Mugo
Matsuki Atsushi
Nishimura Kohji
Koeduka Takao
Matsui Kenji
Publishers : Taylor & Francis
Phytochemistry Volume 107
pp. 42 - 49
published_at 2014-11
Creators :
Kihara Hirotomo
Tanaka Maya
Yamato Katsuyuki T.
Horibata Akira
Yamada Atsushi
Kita Sayaka
Ishizaki Kimitsune
Kajikawa Masataka
Fukuzawa Hideya
Kohchi Takayuki
Akakabe Yoshihiko
Matsui Kenji
Publishers : Elsevier
PNAS Volume 111 Issue 19
pp. 7144 - 7149
published_at 2014-05-13
Creators :
Sugimoto Koichi
Matsui Kenji
Iijima Yoko
Akakabe Yoshihiko
Muramoto Shoko
Ozawa Rika
Uefune Masayoshi
Sasaki Ryosuke
Alamgir Kabir Md.
Akitake Shota
Nobuke Tatsunori
Galis Ivan
Aoki Koh
Shibata Daisuke
Takabayashi Junji
Publishers : National Academy of Sciences (U.S.)
Génome Volume 58 Issue 4
pp. 135 - 142
published_at 2015
Creators :
Wako Tadayuki
Yamashita Ken-ichiro
Tsukazaki Hikaru
Ohara Takayoshi
Kojima Akio
Yaguchi Shigenori
Shimazaki Satoshi
Midorikawa Naoko
Sakai Takako
Yamauchi Naoki
Shigyo Masayoshi
Publishers : National Research Council of Canada
Environmental Microbiology Reports Volume 6 Issue 3
pp. 268 - 277
published_at 2014-06-01
Creators :
Kosaka Tomoyuki
Toh Hidehiro
Fujiyama Asao
Sakaki Yoshiyuki
Watanabe Keiji
Meng Xian-Ying
Hanada Satoshi
Toyoda Atsushi
Publishers : Society for Applied Microbiology and Blackwell Pub
Soil science and plant nutrition Volume 25 Issue 4
pp. 591 - 600
published_at 1979-12
Phenolic compounds in the soils collected from plow layers of greenhouse and field cultures were surveyed quantitatively by gas chromatography. The results are as follows : 1) p-Coumaric, ferulic, salicylic, p-hydroxybenzoic, vanillic, syringic, and protocatechuic acids were detected in all upland soils, as in the case of paddy and forest soils reported previously. Among these phenolics, p-coumaric acid was present in the largest quantity in most of the upland soils up to 29.0 ppm. 2) The total amounts of individual phenolic acids in the upland soils ranged from 9.5 to 62.0 ppm (average 26.0 ppm). Also, the amounts were less than 0.18% (average 0.10%) of the total soil organic matter. The average values in the upland soils were higher than those in the paddy soils, but were lower than those in the forest soils. 3) In upland soils, the concentrations of p-hydroxybenzoic, vanillic, syringic, p-coumaric, and ferulic acids, which have no chelating ability, were considerably related to the carbon content of soil, but the concentrations of protocatechuic and salicylic acids, which are chelating agents, were not related to that of soil. These relationships agreed with those found in paddy and forest soils.
Soil science and plant nutrition Volume 26 Issue 2
pp. 185 - 190
published_at 1980-06
Decomposition of organic nitrogenous materials in soil was affected by C/N ratio.Immobilization of nitrogen mineralized from nitrogenous material added to the soil was influenced by the degradability of carbonaceous and nitrogenous materials.The turnover of nitrogen which had been freshly immobilized in the presence of glucose in the soil was faster than that immobilized with cellulose or lignin. The effect of soil-drying on the mineralization of organic nitrogen immobilized through the decomposition of carbonaceous and nitrogenous materials in the soil depended significantly on the availability of carbonaceous materials as a microbial energy source.However, the drying effect was not always proportional to the amount of organic nitrogen accumulated in the soil.
Journal of the science of soil and manure, Japan Volume 45 Issue 7
pp. 332 - 340
published_at 1974-07-25