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Masao Higo,Katsunori Isobe,Yusuke Miyazawa,Yukiya Matsuda,Rhae A. Drijber,Yoichi Torigoe 한국미생물학회 2016 The journal of microbiology Vol.54 No.2
A clear understanding of how crop root proliferation affects the distribution of the spore abundance of arbuscular mycorrhizal fungi (AMF) and the composition of AMF communities in agricultural fields is imperative to identify the potential roles of AMF in winter cover crop rotational systems. Toward this goal, we conducted a field trial using wheat (Triticum aestivum L.) or red clover (Trifolium pratense L.) grown during the winter season. We conducted a molecular analysis to compare the diversity and distribution of AMF communities in roots and spore abundance in soil cropped with wheat and red clover. The AMF spore abundance, AMF root colonization, and abundance of root length were investigated at three different distances from winter crops (0 cm, 7.5 cm, and 15 cm), and differences in these variables were found between the two crops. The distribution of specific AMF communities and variables responded to the two winter cover crops. The majority of Glomerales phylotypes were common to the roots of both winter cover crops, but Gigaspora phylotypes in Gigasporales were found only in red clover roots. These results also demonstrated that the diversity of the AMF colonizing the roots did not significantly change with the three distances from the crop within each rotation but was strongly influenced by the host crop identity. The distribution of specific AMF phylotypes responded to the presence of wheat and red clover roots, indicating that the host crop identity was much more important than the proliferation of crop roots in determining the diversity of the AMF communities.
Kenichi Nagaoka,Akihiro Shimizu,Katsumi Ida,Katsunori Ikeda,Katsuyoshi Tsumori,Kazuo Toi,Keisuke Matsuoka,Kiyomasa Watanabe,Masaki Osakabe,Mikiro Yoshinuma,Mitsutaka Isobe,Osamu Kaneko,Shoichi Okamura 한국물리학회 2006 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.49 No.III
The characteristics of neutral beam driven current have been investigated in helical devices, which do not need ohmic current to produce a magnetic field configuration. The neutral beam current drive experiments have been performed in a wide range of Zb/Zeff in LHD and CHS. The Z dependence of neutral beam driven current in the region of Zb/Zeff < 1 obtained by neon discharges in LHD agrees with the Ohkawa model. On the other hand, the current driven by neon beam injection in CHS cannot be explained by the Ohkawa model.
Effect of Fertilizer with Low Levels of Potassium on Radiocesium-137 Decontamination
강동진,Hirofumi Tazoe,Yasuyuki Ishii,Katsunori Isobe,Masao Higo,Masatoshi Yamada 한국작물학회 2018 Journal of crop science and biotechnology Vol.21 No.2
Potassium (K) fertilizer closely affects both above-ground biomass production and radiocesium-137 (137Cs) uptake by plants from Cs-contaminated soil. Here we investigated the effects of low levels of K on aboveground biomass, 137Cs concentration, and 137Cs removal ratio (CR) using Napier grass (Pennisetum purpureum Schum.). Experimental plots fertilized with either 2 g K (20% K) or 6 g K (60% K) per m2 were compared with that with no K fertilization (0% K) under low-, medium-, and high-density planting conditions. As a result, with increasing amounts of K fertilizer, the aboveground biomass of Napier grass tended to increase, and the 137Cs concentration significantly decreased. The greatest CR was observed at the plot fertilized with 20% K and with plants grown under highly dense conditions. CR was positively correlated with biomass in all the experimental plots. Moreover, a positive correlation between CR and 137Cs concentration was found only at low levels of K application (0% and 20% K). In the present study, the application of 20% K produced more aboveground biomass and smaller decreases in 137Cs concentration in Napier grass compared with those with 0% K application; therefore, applying a fertilizer with low levels of K, such as 20% K, is better for 137Cs decontamination than applying 0% or 60% K fertilizer.