September 14 – Poster Session
【Biomass, bioresource and energy engineering】
Last updated: 2017.09.05
Nishiwaseda Campus Bldg. No.63, 2F Poster Hall (13:00–15:00)
The alphabet after the hyphen in each presentation number denotes the place of its special oral presentation.
- I: Special oral session A (Poster Flash Talk) ⇒Time Table (Session A11)
- E: Special oral session B ⇒Time Table (Session B5)
- N: No oral presentation
○ denotes the presenter.
Starting time |
Presentation No. |
Title | Authors (Affiliations) |
---|---|---|---|
13:00 | 4P-I129 | Sugar-free bio-based muconic acid production from softwood lignin | ○Tomonori Sonoki1,3, Haruka Sugita1,3, Kenji Takahashi2,3, Naofumi Kamimura2,3, Eiji Masai2,3 (1Grad. Sch. Agric. Life Sci., Hirosaki Univ.,2Dept. Bioeng., Nagaoka Univ. Tech.,3JST-ALCA) |
14:00 | 4P-I130 | Sugar-free bio-based muconic acid production from hardwood lignin | ○Kenji Takahashi1,3, Eri Shinoda1, Sachio Suzuki1, Naofumi Kamimura1,3, Tomonori Sonoki2,3, Eiji Masai1,3 (1Dept. Bioeng., Nagaoka Univ. Tech.,2Fac. Agric. Life Sci., Hirosaki Univ.,3JST-ALCA) |
13:00 | 4P-I131 | Analysis of forest biomass in abandoned forests | ○Ayaka Muraji, Kiwako S. Araki, Motoki Kubo (Grad. Sch. Life Sci., Ritsumeikan Univ.) |
14:00 | 4P-I132 | Cheap way to produce sweetpotatoes to supply all calorie-consumption of the whole nation, at the 420,000ha-abandoned farmlands only | ○Takahiro Suzuki1, Masaru Sakamoto1, Wataru Morioka2 (1Dept. Biotechnol. Sci., Fac. Biol. Orie. Sci. Tech., Kindai Univ.,2Morioka Sangyo.,LTD) |
13:00 | 4P-I133 | Biomass degrading activities of land crab, Chiromantes haematocheir | Sninnosuke Chida, Yoshiki Ueda, Yasunori Baba, ○Katsuhide Miyake (Res. Inst. Bioresour. Biotechnol., Ishikawa Pref. Univ.) |
14:00 | 4P-N134 | Quantification of shiitake (Lentidnula edodes) biomass in a decompositing wood using qPCR assay | ○Tomoko Kuwayama1, Mayuko Jomura1, Yutaka Maruyama1, Masabumi Komatsu2, Muneyoshi Yamaguchi2 (1Coll. Bioresour. Sci., Nihon Univ.,2FFPRI) |
13:00 | 4P-N135 | Isolation of plant growth-promoting bacteria and there application as microbial formulation | ○Tomonori Nakaoka1, Ayaka Nishiyama2, Joji Kobayashi2, Takashi Ano1,2, Masahiro Okanami1,2 (1Grad. Sch. Biol. Ortd. Sci. Technol., Kindai Univ.,2Fac. Biol. Ortd. Sci. Technol., Kindai Univ.) |
14:00 | 4P-N136 | Isolation and evaluation of novel plant growth-promoting bacteria | ○Shoko Sawada1, Tomonori Nakaoka1, Ayaka Nishiyama2, Kaori Yoshimizu2, Yusuke Kuroda2, taashi Ano1,2, Masahiro Okanami1,2 (1Grad. Sch. Biol. Ortd. Sci. Technol., Kindai Univ.,2Fac. Biol. Ortd. Sci. Technol., Kindai Univ.) |
13:00 | 4P-I137 | Effects of thermophile-fermented compost on parasitism of Meloidogyne incognita to plants | ○Yusuke Yanase1, Yuki Kaneko2, Azusa Nishikawa3, Toshiyuki Ito4, Akira Onose4,5, Hirokuni Miyamoto1,5,6, Hiroaki Kodama1 (1Grad. Sch. Fac. Horticul., Chiba Univ,2Fac. Horticul., Chiba Univ.,3Grad. Sch. Adv. Integr. Sci., Chiba Univ.,4Keiyo plant engineering Corp.,5Sermas corp.,6Riken Center for Integr. Med. Sci.) |
14:00 | 4P-N138 | Identification of novel syntrophic fatty acid-oxidizing bacteria (SFAOB) in anaerobic chemostats via stable isotope probing (SIP) | Huizhong Wang, Yue Yi, Min Gou, Zhaoyong Sun, ○Yueqin Tang (Coll. Archit. Environ., Sichuan Univ., PR China) |
13:00 | 4P-I139 | Bacterial community analysis of pretreatment of lignocellulosic biomass by cattle rumen fluid for methane production | ○Yasunori Baba1,2,3, Yu Matsuki2, Yumi Baba(Mori)1,2, Yoshihisa Suyama2, Chika Tada2, Yasuhiro Fukuda2, Katsuhide Miyake1, Masanori Saito2, Yutaka Nakai2 (1Res. Inst. Bioresour. Biotechnol., Ishikawa Pref. Univ.,2Grad. Sch. Agric. Sci., Tohoku Univ.,3JSPS Research Fellow) |
14:00 | 4P-I140 | Enhanced biogas production from Chlorella vulgaris using photocatalytic pretreatment | ○Aditya Sharma, Mishma Silvia Stanislaus, Qi Zhu, Chenyu Zhao, Nan Zhang, Yingnan Yang (Grad. Sch. Life Environ. Sci., Univ. Tsukuba) |
13:00 | 4P-I141 | Improved methanization and microbial diversity during fed-batch cultivation using defined organic matter and marine sediment inoculum at seawater salinity | ○Toyokazu Miura1,3, Akihisa Kita1,3, Yoshiko Okamura1,3, Tsunehiro Aki1,3, Yukihiko Matsumura2,3, Takahisa Tajima1,3, Junichi Kato1, Yutaka Nakashimada1,3 (1Grad. Sch. Adv. Sci. Mat., Hiroshima Univ.,2Div. Ener. Environ., Inst. Eng., Hiroshima Univ.,3CREST, JST) |
14:00 | 4P-N142 | Application of nano sparger for biological syngas methanation | ○Ye Liu, Ying Wang, Xinlei Wen, Chenzhu Yin, Zhongfang Lei, Kazuya Shimizu, Zhenya Zhang (Grad. Sch. Life Environ. Sci., Univ. Tsukuba) |
13:00 | 4P-E143 | Effect of modification of the metabolism and cell-sufece electron transport system on performance of microbial fuel cell using Escherichia coli | ○Taichi Kawaguchi1, Saki Fukui1, Daisuke Koma2, Takashi Ohmoto2, Yoshihiro Ojima1, Masayuki Azuma1 (1Dept. Appl. Chem. & Bioeng., Grad. Sch. Eng., Osaka City Univ,2Osaka Research Institute of Industrial Science and Technology) |
14:00 | 4P-I144 | Interesting Story about Energy metabolism of Chemotrophic Bacteria: Difficult Decision about “Voltage-multiplying Electron Transfer Pathway” | ○Nobuaki Shono, Ryuuhei Nakamura (RIKEN CSRS) |
13:00 | 4P-I145 | Application of carbon nanotube binding peptide for immobilization of enzyme on the device | ○Aina Tonooka1, Hiroaki Sakamoto2,5, Takenori Satomura1,5, Haruhiko Sakuraba3, Toshihisa Ohshima4, Shin-ichro Suye1,5 (1Grad. Sch. Eng. Fukui Univ.,2Tenure-truck, Univ. Fukui,3Fac. Agric., Kagawa Univ.,4Osaka Inst. Technol.,5Life Sci. Innov. Center, Univ. Fukui) |
14:00 | 4P-I146 | Construction of an anode using themophilic oxidoreductase for biofuel cell | ○Shino Tanaka1, Takenori Satomura1,2, Hiroaki Sakamoto1, Haruhiko Sakuraba3, Toshihisa Ohshima4, Shin-ichiro Suye1,2 (1Grad. Sch. Eng. Fukui Univ.,2Life Sci., Fukui Univ.,3Fac. Agric., Kagawa Univ.,4Osaka Inst. Tech.) |
13:00 | 4P-I147 | Degradation of excess sludge and its power conversion by microbial fuel cells | ○Toshihiro Takagaki, Toshihide Kakizono (Grad. Sch. Adv. Sci. Mat., Hiroshima Univ.) |
14:00 | 4P-N148 | Operation of plant based microbial fuel cells using electrochemical mediators | ○Tae Hang Yoon1, Hak Jin Song1, Kwang Jin Kim2, Yong-Keun Choi1, Minju Chang1, Sok-young Shim1, Wu-Young Jeong1, Chang Joong Kim1, Yung-Hun Yang1, Sang Hyun Lee1, Hyung Joo Kim1 (1Dept. Biological eng., Konkuk Univ.,2Natl. Horticultural Res. Inst., Rural Development Administration) |
13:00 | 4P-I149 | Identify of fixed-bed bioreactor on higher bio-hydrogen production with optimal bedding material and initial substrate concentration | ○Chenyu Zhao, Nan Zhang, Mishma Silvia Stanislaus, Yingnan Yang (Grad. Sch. Life Environ. Sci., Univ. Tsukuba) |
14:00 | 4P-I150 | Development of continuous hydrogen production system by marine vibrio as a biocatalyst | ○Nobushiro Miyasaka, Sayaka Mino, Tomoo Sawabe (Grad. Sch. Fish. Sci., Hokkaido Univ.) |
13:00 | 4P-I151 | Improvement of hydrogen production by high expression of hydrogenase gene in white-rot fungus Trametes versicolor K-41 | ○Ayumi Soga1, Saaya Takahashi1, Mori Toshio1, Kawagishi Hirokazu1,2,3, Hirai Hirofumi1,2 (1Fac. Agric., Shizuoka Univ.,2Res. Inst. Green Sci. Technol., Shizuoka Univ.,3Grad. Sch. Sci. Technol. Shizuoka Univ.) |
14:00 | 4P-I152 | Mechanisms of growth enhancement of Bacillus sp. IA in the presence of rice husk biochar 2 | ○Shohei Ebe, Tatsuya Ohike, Masahiro Okanami, Takashi Ano (Grad. Sch. BOST, Kindai Univ.) |
13:00 | 4P-I153 | Effect of aqueous rice-husk-biochar extract on the production of iturin A by Bacillus amyloliquefaciens IA | ○Ryunosuke Kuno, Shohei Ebe, Tatsuya Ohike, Masahiro Okanami, Takashi Ano (Grad. Sch. BOST, Kindai Univ.) |
14:00 | 4P-I154 | Astaxanthin production using alginate-derived from brown algae by Aurantiochyrium sp. | ○Kim Hazel V Arafiles1,4, Kenshi Watanabe1,4, Akihisa Kita1,4, Yoshiko Okamura1,4, Takahisa Tajima1,4, Yukihiko Matsumura2,4, Yutaka Nakashimada1,4, Keisuke Matsuyama3, Tsunehiro Aki1,4 (1Grad. Sch. Adv. Sci. Mat., Hiroshima Univ.,2Grad. Sch. Eng., Hiroshima Univ.,3NAGASE & CO., LTD.,4CREST, JST) |