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流域圏科学研究センター

RIVER BASIN RESEARCH CENTER

PUBLICATION LIST 2016

平成26年度(FY2014)論文リスト

  ・大塚 俊之

  1. Ohtsuka T, Shizu Y, Hirota M, Yashiro Y, Jia S, Iimura Y, Koizumi H (2014) Role of coarse woody debris in the carbon cycle of Takayama forest, central Japan. Ecological Research 29; 91-101
  2. Nagai S, Inoue T, Ohtsuka T, Kobayashi H, Kurumado K, Muraoka H, Nasahara K.N. (2014) Relationship between spatio-temporal characteristics of leaf-fall phenology and seasonal variations in near surface- and satellite-observed vegetation indices in a cool-temperate deciduous broad-leaved forest in Japan. International Journal of Remote Sensing 35; 3520-3536
  3. Suchewaboripont V, Iimura Y, Yoshitake S, Kato S, Komiyama A, Ohtsuka T (2015) Change in biomass of an old-growth beech-oak forest on the eastern slope of Mt. Hakusan over a 17 –year period. Japanese Journal of Forest Environment 57
  4. Sakurai G, Yonemura S, Kishimoto AW, Murayama S, Ohtsuka T, Yokozawa M (2015) Inversely estimating the vertical profile of the soil CO2 production rate in a deciduous broadleaf forest using a particle filtering method. PLOS ONE DOI: 10.1371/ journal.pone. 0119001

 

   ・吉竹 晋平

  1. Suchewaboripont V, Iimura Y, Yoshitake S, Kato S, Komiyama A, Ohtsuka T (2015) Change in biomass of an old-growth beech-oak forest on the eastern slope of Mt. Hakusan over a 17–year period. Japanese Journal of Forest Environment (in press)
  2. Yoshitake S, Tabei N, Mizuno Y, Yoshida H, Sekine Y, Tatsumura M, Koizumi H (2015) Soil microbial response to experimental warming in cool temperate semi-natural grassland in Japan. Ecological Research 30: 303–310
  3. Tomotsune M, Yoshitake S, Masuda R, Koizumi H (2015) Preliminary study on observations of soil organic layers using a compact MRI for attempting non-destructive analysis of internal soil structure. Ecological Research 30: 303–310
  4. Nakatsubo T, Uchida M, Sasaki A, Kondo M, Yoshitake S, Kanda H (in press) Carbon accumulation rate at a peatland in the High Arctic, Svalbard: implications for carbon sequestration. Polar Science
  5. Nagai S, Yoshitake S, Inoue T, Suzuki R, Muraoka H, Nasahara KN, Saitoh TM (2014) Year-to-year blooming phenology observation using time-lapse digital camera images. Journal of Agricultural Meteorology 70: 163-170.

 

   ・景山 幸二

  1. Suga, H., Kitajimn M., Nagumo, R, Tsukiboshi, T.,Uegaki, R., Nakajima, T., Kushiro, M., Nakagawa, T., Shimizu, M., Kageyama, K., Hyakumachi, M.: A single nucleotide polymorphism in the translation elongation factor 1a gene correlates with the ability to produce fumonisin in Japanese Fusarium fujikuroi. Fungal Biology 118:402-412, 2014.
  2. Ishiguro, Y., Otsubo, K., Watarai, M., Iwashita, T., Tomita, M., Suematsu, M., Fukui, H., Suga, H., Kageyama, K.: Seedling blight of Glycyrrhiza uralensis caused by Pythium myriotylum, P. aphanidermatum and P. spinosum and identifying primary inoculum sources using multiplex PCR detection. J. Gen. Plant Path. 80:230–236, 2014.
  3. Fukuta, S., Takahashi, R., Kuroyanagi, S., Ishiguro, Y., Miyake, N., Nagai, H., Suzuki, H., Tsuji, T., Hashizume, F., Watanabe, H., Kageyama, K.: Development of loop-mediated isothermal amplification assay for the detection of Pythium myriotylum. Lett Appl Microbiol 59:49-57, 2014.
  4. Takahashi, R., Fukuta, S., Kuroyanagi, S., Miyake, N., Nagai, H., Kageyama, K., Ishiguro, Y.: Development and application of a loop-mediated isothermal amplification assay for rapid detection of Pythium helicoides. FEMS Microbiol Lett 355:28–35, 2014.
  5. Li, M., Ishiguro, Y., Otsubo, K., Suzuki, H., Tsuji, T., Miyake, N., Naga, H., Suga, H., Kageyama, K.: Monitoring by real-time PCR of three water-borne zoosporic Pythium species in potted flower and tomato greenhouses under hydroponic culture systems. Eur. J. Plant Path. 140:229-242, 2014.
  6. Kageyama, K.: Molecular taxonomy and its application to ecological studies of Pythium species. J. Gen. Plant Path. 80:314-326, 2014.
  7. Ishiguro, Y., Otsubo, K., Watanabe, H., Suzuki, M., Nakayama, K., Fukuda, T., Fujinaga, M., Suga, H., Kageyama, K.: Root and crown rot of strawberry caused by Pythium helicoides and its distribution in strawberry production areas of Japan. J. Gen. Plant Path. 80:423-429, 2014.
  8. Rahman, M. Z., Uematsu, S., Coffey, M. D., Uzuhashi, S., Suga, H., Kageyama, K.: Re-evaluation of Japanese Phytophthora isolates based on molecular phylogenetic analyses. Mycoscience 55: 314-327, 2014.
  9. Rahman, M. Z., Mukobata, H., Suga, H., Kageyama, K.: Phytophthora asiatica sp. nov., a new species causing leaf and stem blight of kudu in Japan. Mycological Progress 13:759-769, 2014.
  10. Rahman, M. Z., Uematsu, S., Takeuchi, T., Shirai, K., Ishiguro, Y., Suga, H., Kageyama, K.: Two new species, Phytophthora nagaii sp. nov. and P. fragariaefolia sp. nov., causing serious diseases on rose and strawberry plants, respectively, in Japan. J. Gen. Plant Path. 80:348-365, 2014.
  11. Abad, Z. G., Abad, J. A., Cacciola, S. O., Pane, A., Faedda, R., Moralejo, E., Pérez-Sierra, A., Abad-Campos, P., Alvarez-Bernaola, L. A., Bakonyi, J., Józsa, A., Herrero, M. L., Burgess, T. I., Cunnington, J. H., Smith, I. W., Balci, Y., Blomquist, C., Henricot, B., Denton, G., Spies, C., Mcleod, A., Belbahri, L., Cooke, D., Kageyama, K., Uematsu, S., Kurbetli, I., Değirmenci, K.: Phytophthora niederhauserii sp. nov., a polyphagous species associated with ornamentals, fruit trees and native plants in 13 countries. Mycologia 106:431-447, 2014.
  12. Baten, Md A., Asano, T., Motohashi, K., Ishiguro, Y., Rahman, M. Z., Inaba, S., Suga, H., Kageyama, K.: Phylogenetic relationships among Phytopythium species, and re-definition of Phytopythium fagopyrinum comb. nov., recovered from damped-off buckwheat seedlings in Japan. Mycological Progress 13:1145–1156, 2014.
  13. Miyake, N., Nagai, H., Kageyama, K.: Wilt and root rot of poinsettia caused by three high-temperature-tolerant Pythium species in ebb-and-flow irrigation systems. J. Gen. Plant Path. 80:479-489, 2014.
  14. 中山喜一・景山幸二・渡辺秀樹・福田充・石川成寿: Pythium spinosum および P. sylvaticumによるイチゴピシウム根腐病(病原追加).関東東山病害虫研究会報 61:40-42, 2014.

 

   ・村岡 裕由

  1. Noda H.M., Muraoka H., Nasahara K.N., Saigusa N., Murayama S. and Koizumi H. (2014) Phenology of leaf morphological, photosynthetic, and nitrogen use characteristics of canopy trees in a cool-temperate deciduous broadleaf forest at Takayama, central Japan. Ecological Research, DOI 10.1007/s11284-014-1222-6
  2. Saitoh T.M., Nagai S., Yoshino J., Kondo H., Tamagawa I., Muraoka H. (2014) Effects of canopy phenology on deciduous overstory and evergreen understory carbon budgets in a cool-temperate forest ecosystem under ongoing climate change, Ecological Research, DOI 10.1007/s11284-014-1229-z
  3. Nagai S., Yoshitake S., Inoue T., Suzuki R., Muraoka H., Nasahara K. Saitoh T.M. (2014) Year-to-year blooming phenology observation by using time-lapse digital camera images. Journal of Agricultural Meteorology, 70 (3), 163-170. DOI:10.2480/agrmet.D-13-00021
  4. Inoue T., Nagai S., Saitoh T.M., Muraoka M., Nasahara K.N., Koizumi H. (2014) Detection of the characteristics of year-to-year variations in foliage phenology among deciduous broad-leaved trees by using time-lapse digital camera images. Ecological Informatics, 22, 58-68. DOI:10.1016/j.ecoinf.2014.05.009
  5. Muraoka H. (2015) (Editorial) Interdisciplinary approach for spatial and temporal dynamics of carbon cycle processes in terrestrial ecosystems: challenges and networking at the Takayama site on a mountainous landscape of Japan. Special Virtual Issue: Joint contents from the Journal of Plant Research and Ecological Research.

 

   ・斎藤 琢

  1. Saitoh T.M., Nagai S., Yoshino J., Kondo H., Tamagawa I., Muraoka H. (2014) Effects of canopy phenology on deciduous overstory and evergreen understory carbon budgets in a cool-temperate forest ecosystem under ongoing climate change, Ecological Research, DOI 10.1007/s11284-014-1229-z
  2. Ito A., Saitoh T.M., Sasai T. (2014) Synergies between observational and modeling studies at the Takayama site: toward a better understanding of terrestrial ecosystem processes, Ecological Research, DOI 10.1007/s11284-014-1205-7
  3. Nagai S., Yoshitake S., Inoue T., Suzuki R., Muraoka H., Nasahara K. Saitoh T.M. (2014) Year-to-year blooming phenology observation by using time-lapse digital camera images. Journal of Agricultural Meteorology, 70 (3), 163-170. DOI:10.2480/agrmet.D-13-00021
  4. Inoue T., Nagai S., Saitoh T.M., Muraoka M., Nasahara K.N., Koizumi H. (2014) Detection of the characteristics of year-to-year variations in foliage phenology among deciduous broad-leaved trees by using time-lapse digital camera images. Ecological Informatics, 22, 58-68. DOI:10.1016/j.ecoinf.2014.05.009
  5. Nagai S., Saitoh T.M., Suzuki R., Nasahara K.N. (2014) Spatio-temporal distribution of the timing of start and end of growing season along vertical and horizontal gradients in Japan. International Journal of Biometeorology, doi:10.1007/s00484-014-0822-8

 

   ・玉川 一郎

  1. Taku Saitoh, Shin Nagai; Jun Yoshino; Hiroaki Kondo; Ichiro Tamagawa; Hiroyuki Muraoka, Effects of canopy phenology on deciduous overstory and evergreen understory carbon budgets in a cool-temperate forest ecosystem under ongoing climate change, Ecological Research, 10.1007/s11284-014-1229-z, 2014.
  2. Zhikun Zhu, Yaoming Ma, Maoshan Li, Zeyong Hu, Chao Xub, Lang Zhangb, Cunbo Hanb, Yongjie Wang, Tamagawa Ichiro, Carbon dioxide exchange between an alpine steppe ecosystem and the atmosphere on the Nam Co area of the Tibetan Plateau, Agricultural and Forest Meteorology Volume 203, Pages 169–179, 2015

 

   ・原田 守啓

  1. 原田守啓,永山滋也,大石哲也,萱場祐一 (2015) 揖斐川高水敷掘削後の微地形形成過程,土木学会論文集B1(水工学),71,4,I_1171-1176.
  2. 高岡広樹,原田守啓,大石哲也,萱場祐一 (2015) 土砂災害防止法に基づく基礎調査の結果を用いた流出土砂量の評価,土木学会論文集B1(水工学),71,4,I_967-I-972.
  3. 永山滋也,原田守啓,萱場祐一 (2015) 河道内氾濫原環境の評価手法の開発,土木技術資料,vol.57-2,pp.6-9.
  4. 永山滋也,原田守啓,萱場祐一,根岸淳二郎 (2014) イシガイ類を指標生物としたセグメント2における氾濫原環境の評価手法の開発:木曽川を事例として,応用生態工学,vol.17,No.1,pp.29-40.
  5. 永井智幸,原田守啓,林 博徳,高橋邦治 (2014) 樋井川における河道安定と瀬淵構造の保全創出の取り組み,河川技術論文集,Vol.20,pp.283-288.

 

   ・李 富生

  1. Zhisheng Lv, Daohai Xie, Fusheng Li, Yun Hu, Chaohai Wei, Chunhua Feng (2014), Microbial fuel cell as a biocapacitor by using pseudo-capacitive anode materials, Journal of Power Sources, Vol. 246, pp. 642-649.
  2. Kui Huang, Fusheng Li, Yongfen Wei, Xiaoyong Fu, Xuemin Chen (2014), Effects of earthworms on physicochemical properties and microbial profiles during vermicomposting of fresh fruit and vegetable wastes, Bioresource Technology, Vol.170, pp. 45-52.
  3. Ahmad S. SETIYAWAN, Toshiro YAMADA, Joni A. FAJRI, Fusheng LI (2014), Seasonal characteristics of fecal indicators in water environment receiving effluents of decentralized wastewater treatment facilities, 土木学会論文集G(環境),Vol. 70, No. 7, Ⅲ_331-340.
  4. 村田直樹,青木伸浩,本山信行,李富生 (2014),微粉末活性炭と化学的強化逆洗を組合わせた膜ろ過処理における異臭味物質とトリハロメタン前駆物質の除去性能の向上,土木学会論文集G(環境),Vol. 70, No.7, Ⅲ_81-94.
  5. M.A. Salam, Shaharior Hashem, M. Asadujjaman and Fusheng Li (2014), Nutrient Recovery from in Fish Farming Wastewater: An Aquaponics System for Plant and Fish Integration, World Journal of Fish and Marine Sciences, 6 (4): 355-360.
  6. Xiaoyong Fu, Kui Huang, Xuemin Chen, Fusheng Li, Guangyu Cui (2015), Feasibility of vermistabilization for fresh pelletized dewatered sludge with earthworms Bimastus parvus, Bioresource Technology, 175: 646-650.

 

   ・粟屋 善雄

  1. Tanaka,S., Takahashi, T., Nishizono, T., Kitahara, F., Saito, H., Iehara, T., Kodani, E., Awaya, Y. (2015) Stand Volume Estimation Using the k-NN Technique Combined with Forest Inventory Data, Satellite Image Data and Additional Feature Variables.        Remote Sens. 7(1), 378-394; doi:10.3390/rs70100378.

 

   ・児島 利治

  1. 大橋慶介,神谷浩二,児島利治:沖積平野における地下水の動態解明と涵養量の推定,河川技術論文集,20,461-466, 2014.
  2. 大橋慶介,神谷浩二,児島利治:濃尾平野扇状地における河川による地下水涵養機構の評価,地下水地盤環境・防災・計測技術に関するシンポジウム論文集,49-53,2014.

 

   ・杉戸 真太

  1. Makoto,K.,Masata,S.,Masumitsu,K.,Alexander,S.,and Masashi,H.:On the precursors to the 2011 Tohoku earthquake:crustal movements and electromagnetic signatures,Geomatics, Natural Hazards and Risk,2014.

 

   ・久世 益充

  1. Makoto,K.,Masata,S.,Masumitsu,K.,Alexander,S.,and Masashi,H.:On the precursors to the 2011 Tohoku earthquake:crustal movements and electromagnetic signatures,Geomatics, Natural Hazards and Risk,2014.

  

   ・魏 永芬

  1. Kui Huang, Fusheng Li, Yongfen Wei, Xiaoyong Fu, Xuemin Chen, Effects of earthworms on physicochemical properties and microbial profiles during vermicomposting of fresh fruit and vegetable wastes, Bioresource Technology, Vol.170, pp. 45-52,2014.
  2. Zhang Fuping, Zhao Sha, Zhou Zhengchao, Wei Yongfen, Land use pattern and its impact on water quality based on buffer analysis in Fenghe River Basin, Bulletin of Soil and Water Conservation, 34(4),pp. 308-312, 2014. (in Chinese with English summary) 
  3. Zhang Fuping, Feng Qi, Li Xupu, Wei Yongfen, Remotely-sensed Estimation of NPP and Its Spatial-temporal Characteristics Analysis in Heihe River Basin. Journal of Chinese Desert Research, 34(6), pp. 1657-1664, 2014. (in Chinese with English summary)
  4. Ma Qianqian, Zhang Fuping, Xu Xiaoxia, Su Yubo, Wei Yongfen, Dynamic Change of Vegetation and Response to Climatic Factors in Pan-Hexi Region, Chinese Agricultural Science Bulletin, 30(34), pp. 101-106, 2014.  (in Chinese with English summary)
  5. SU Yubo, ZHANG Fuping, Ma Qianqian, Wei Yongfen, Estimates of soil carbon reserves and spatial distribution characteristics of typical small watershed of Qilian Mountain, Journal of Shaanxi Normal University (Natural Science Edition). (in press)

  

   ・吉山 浩平

  1. 巴達日夫,メンドバヤル ,平松研,大西健夫,吉山浩平「地下水依存農牧地帯における水資源の現況と予測: 内蒙古達拉特旗の事例」日本雨水資源化システム学会誌 (2015) 印刷中 

  2. 戴燕燕,近藤美麻,伊藤健吾,吉山浩平,張 鵬飛,張 福平,千家正照「トマト青枯病の太陽熱土壌消 毒における栽培管理用水量の実態」農業農村工学会論文集 294 (2015) 印刷中 

  3. Yoko Yoshiyama, Koichi Tanaka, Kohei Yoshiyama, Makoto Hibi, Jun Ogawa, and Jun Shima (2015) “Trehalose accumulation enhances tolerance of Saccharomyces cerevisiae to acetic acid.” Journal of Bioscience and Bioengineering (2015) 119:172–175.
  4. Yanyan Dai, Masateru Senge, Kengo Ito, Takeo Onishi, and Kohei Yoshiyama (2014) “Experimental evalua- tion of irrigation methods for soil desalinization.” Paddy and Water Environment (published online).

  

   ・石黒 泰

  1. R. Takahashi , S. Fukuta , S. Kuroyanagi , N. Miyake, H. Nagai , K. Kageyama, Y. Ishiguro (2014) Development and application of a loop-mediated isothermal amplification assay for rapid detection of Pythium helicoides, FEMS Microbiology Letters, 355: 28-35.
  2. Y. Ishiguro, K. Otsubo, M. Watarai, T. Iwashita, M. Tomita, M. Suematsu, H. Fukui, H. Suga, K. Kageyama (2014) Seedling blight of Glycyrrhiza uralensis caused by Pythium myriotylum, P. aphanidermatum and P. spinosum and identifying primary inoculum sources using multiplex PCR detection, Journal of General Plant Pathology, 80: 230-236
  3. S. Fukuta, R. Takahashi, S. Kuroyanagi, Y. Ishiguro, N. Miyake, H. Nagai, H. Suzuki, T. Tsuji, F. Hashizume, H. Watanabe, K. Kageyama (2014) Development of loop-mediated isothermal amplification assay for the detection of Pythium myriotylum, Letters in Applied Microbiology, 59: 49-57
  4. M. Z. Rahman, S. Uematsu, T. Takeuchi, K. Shirai, Y. Ishiguro, H. Suga, K. Kageyama (2014) Two new species, Phytophthora nagaii sp. nov. and P. fr,agariaefolia sp. nov., causing serious diseases in rose and strawberry plants, respectively in Japan, Journal of General Plant Pathology, 80: 348–365
  5. M. Li, Y. Ishiguro*, K. Otsubo, H. Suzuki, T. Tsuji, N. Miyake, H. Nagai, H. Suga, K. Kageyama (2014) Monitoring by real-time PCR of three water-borne zoosporic Pythium species in potted flower and tomato greenhouses under hydroponic culture systems, European Journal of Plant Pathology, 140:229-242
  6. Y. Ishiguro, K. Otsubo, H. Watanabe, M. Suzuki, K. Nakayama, T. Fukuda, M.  Fujinaga, H. Suga, K. Kageyama (2014) Root and crown rot of strawberry caused by Pythium helicoides and its distribution in strawberry production areas of Japan, Journal of General Plant Pathology, 80: 423-429
  7. Md. A. Baten, T. Asano, K. Motohashi, Y. Ishiguro, M. Z. Rahman, S. Inaba, H. Suga, K. Kageyama (2014) Phylogenetic relationships among Phytopythium species, and re-evaluation of Phytopythium fagopyri comb. nov., recovered from damped-off buckwheat seedlings in Japan, Mycological Progress, 13:1145-1156