Bioremediation; Biomass, Bioresource and Energy Engineering;
Environmental Technology, Wastewater Treatment

  • 13:30 (1Op01)
    Phenotypic heterogeneity of Comamonas thiooxydans R2 under phenol-fed chemostat
    …… ○Kenshi Suzuki1,2, Yutaro Uehara3, Chiho Minakuchi1,2, Futoshi Kurisu2,4, Hiroyuki Futamata5,6,7, Hideaki Nojiri1,2 (1Grad. Sch. Agric. Life Sci., Univ. Tokyo, 2CRIIM, Univ. Tokyo, 3Grad. Sch. Eng., Univ. Tokyo, 4Grad. Sch. Eng. Res. Ctr. WET., Univ. Tokyo, 5Grad. Sch. Sci. Technol. Shizuoka Univ., 6Grad. Sch. Integr. Sci. Technol., Shizuoka Univ., 7Res. Inst. Green Sci. Technol., Shizuoka Univ.)

  • 13:42 (1Op02)
    Feature of microbial community structure enable to functional homeostasis of complex microbial systems
    …… ○Rei Ikeda1, Masahiro Honjo2, Nobuhiro Takahashi1, Reika Mimoto3, Yasuhisa Saito4, Takashi Okada5, Motohiko Kimura1, Hiroyuki Futamata6 (1Grad. Sch. Integr. Sci. Technol., Shizuoka Univ., 2Grad. Sch. Sci. Technol. Shizuoka Univ., 3Fac. Eng. Shizuoka Univ., 4Grad. Sch. Sci. Eng. Shimane Univ., 5Inst. Med. Biol. Kyoto Univ., 6Res. Inst. Green Sci. Technol., Shizuoka Univ.)

  • 13:54 (1Op03)
    Genetic characterization of deep-sea microorganisms in the Japan Trench sediments
    …… ○Kana Jitsuno1,2, Yohei Nishikawa2,3, Tatsuhiko Hoshino4, Fumio Inagaki4,5, Takeyama Haruko1,2,3,6 (1Grad. Sch. Adv. Sci. Eng., Waseda Univ., 2CBBD-OIL, AIST-Waseda Univ., 3Res. Org. Nano Life Innov., Waseda Univ., 4JAMSTEC, 5Grad. Sch. Sci., Tohoku Univ., 6Inst. Adv. Res. Biosyst. Dynam., Waseda Res. Inst. Sci. Eng., Waseda Univ.)

  • 14:06 (1Op04)
    Characterization of 4-hydroxyacetophenone degradation in Sphingomonas bisphenolicum strain AO1
    …… ○LU LIU, Miho Sasaki, Yoshinobu Matsumura (Grad. Sch. Sci. Eng., Kansai Univ.)

  • 14:18 (1Op05)
    Biodegradation of vulcanized rubber is associated with removal of calcium carbonate filler by wood decay fungi
    …… ○Shin Sato1, Fuminori Yoneyama2 (1Tottori University of Environmental Studies, 2Sumitomo Riko Company Ldt)

  • 14:30  Break
  • 14:42 (1Op06)
    Effect of chemical equilibrium of sulfite ion on microbial degradation of sulfanilic acid
    …… ○Mahiro Tsurimoto, Mayo Oonishi, Akihisa Kita, Nobuki Hayase (National Institute of Technology, Niihama College)

  • 14:54 (1Op07)
    Enzymes and Pathways Involved in the Aerobic Chloroethenes Degradation by Pseudonocardia sp. D17
    …… ○Ryugo Nishimine, Kousuke Minamizono, Daisuke Inoue, Michihiko Ike (Grad. Sch. Eng., Osaka Univ.)

  • 15:06 (1Op08)
    Utilization of acid tolerant arsenic absorbing bacteria for acid mine drainage treatment
    …… ○Sohei Iwama1, Chikara Takano1, Kazunori Nakashima1, Hideki Aoyagi2, Satoru Kawasaki1 (1Grad. Sch. Eng., Hokkaido Univ., 2Inst. Life Environ. Sci., Univ. Tsukuba)

  • 15:18 (1Op09)
    Establishment and Social Implementation of an Ultra-Efficient Edible Oil-containing Wastewater Treatment Method Using Microorganisms with Remarkable Oil Degradation Capabilities
    …… ○Yuki Ohara1, Junichi Kanie1, Katsutoshi Hori1,2 (1Friendmicrobe, 2Grad. Sch. Eng., Nagoya Univ.)

  • 15:30 (1Op10)
    Lignin degradation activities of herbivorous land crabs
    …… ○Katsuhide Miyake, Yuma Nagakura (Fac. Sci. Tech., Meijo Univ.)

  • 15:42  Break
  • 15:54 (1Op11)
    Enzymatic Characterization of Unused Biomass Degradation Using the Clostridium cellulovorans Cellulosome
    …… ○Mohamed Yahai Eljonaid1, Hisao Tomita1, Fumiyoshi Okazaki1,2,3, Yutaka Tamaru1,2,3 (1Grad. Sch. Bioresour., Mie Univ., 2Department of Bioinfomatics, Mie University Advanced Science Research Center, Mie University,, 3Smart Cell Innovation Research Center, Mie University)

  • 16:06 (1Op12)
    Study of a cultivation method of marine hydrogen-oxidizing bacterium Hydrogenovibrio marinus MH-110
    …… ○Koya Okabe1, Manami Matsuuchi2, Akiko Hanada3, Tomoaki Kasuga3, Tsuyoshi Aketo3, Hirofumi Nishihara1 (1Grad. Sch. Agric., Practical Agric. Food Sci., Ibaraki Univ., 2Dept. Food and Life Sci., Coll. Agric., Ibaraki Univ., 3Central Res. Lab., Taiheiyo Cement Corp.)

  • 16:18 (1Op13)
    Analysis of gas substrate consumption of a marine hydrogen-oxidizing bacterium Hydrogenovibrio marinus MH-110 and screening of new marine isolates
    …… ○Aoshi Noda1, Saya Iino2, Hirofumi Nishihara1 (1Grad. Sch. Agric., Practical Agric. Food Sci., Ibaraki Univ., 2Dept. Food and Life Sci., Coll. Agric., Ibaraki Univ.)

  • 16:30 (1Op14)
    Investigation of the growth promotion mechanism of a novel cyanobacterium growth promoting bacteria Rhodococcus cerastii AF2108
    …… ○Pei Yu Tan1, Masashi Ishida2, Yuta Kato3, Tai-Ying Chiou2, Akihiro Hachikubo2, Masaaki Konishi2 (1Grad. Sch. Eng., Kitami Inst. Technol., 2Kitami Inst. Technol., 3Kankyo Daizen Company, Ltd)

  • 16:42 (1Op15)
    Development of growth -promoting technology for microalgae by using calcium silicate hydrate
    …… ○Yuka Yokoi1, Kentaro Waga1, Akiko Hanada2, Tomoaki Kasuga2, Tsuyoshi Aketo2, Tomoko Yoshino1, Atsushi Arakaki1, Tsuyoshi Tanaka1 (1Grad. Sch. Eng., Tokyo Univ. Agric. Technol., 2Taiheiyo Cement Corp.)

  • 16:54 (1Op16)
    Optimization of culture condition of the colonial microalga Botoryococcus braunii single-cells using response surface methodology
    …… ○Kengo Murayama, Takashi Ohtsuki (Integr. Grad. Sch. Med. Eng. Agric. Sci, Univ. Yamanashi)