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BioHydrogen

  • Oskar R. Zaborsky
  • John R. Benemann
  • Tadashi Matsunaga
  • Jun Miyake
  • Anthony San Pietro

Table of contents

  1. Front Matter
    Pages i-xiv
  2. Plenary Sessions

    1. Edward E. David Jr.
      Pages 1-6
    2. Jun Miyake
      Pages 7-18
    3. John R. Benemann
      Pages 19-30
    4. Tadashi Matsunaga, Haruko Takeyama
      Pages 31-38
    5. Patrick Takahashi
      Pages 39-40
  3. Fundamentals

    1. Peter Lindblad, Alfred Hansel, Fredrik Oxelfelt, Paula Tamagnini, Olga Troshina
      Pages 53-63
    2. Claudio Tosi, Elisabetta Franchi, Francesco Rodriguez, Alessandro Selvaggi, Paola Pedroni
      Pages 65-72
    3. Masato Miyake, Makoto Sekine, Lyudmila G. Vasilieva, Eiju Nakada, Tatsuki Wakayama, Yasuo Asada et al.
      Pages 81-86
    4. J. D. Keasling, John Benemann, Jaya Pramanik, Trent A. Carrier, Kristala L. Jones, Stephen J. Van Dien
      Pages 87-97
    5. Patrick C. Hallenbeck, Alexander F. Yakunin, Giuseppa Gennaro
      Pages 99-104
    6. Hugh McTavish
      Pages 105-109
    7. Yoji Koike, Katsuhiro Aoyama, Masato Miyake, Junko Yamada, Ieaki Uemura, Jun Miyake et al.
      Pages 111-115
  4. Photosynthetic Bacteria

    1. Reda M. A. El-Shishtawy, Yoji Kitajima, Seiji Otsuka, Shozo Kawasaki, Masayoshi Morimoto
      Pages 117-122
    2. Lyudmila Vasilyeva, Masato Miyake, Masayuki Hara, Eiju Nakada, Satoshi Nishikata, Yasuo Asada et al.
      Pages 123-131
    3. İnci Eroğlu, Kadir Aslan, Ufuk Gündüz, Meral Yücel, Lemi Türker
      Pages 143-149
    4. Serdar Türkarslan, Deniz Özgür Yigit, Kadir Aslan, Inci Eroglu, Ufuk Gündüz
      Pages 151-156
    5. Mitsufumi Matsumoto, Brandon Yoza, JoAnn C. Radway, Oskar R. Zaborsky
      Pages 163-166
  5. Cyanobacteria

    1. Yasuo Asada, Masato Miyake, Youji Koike, Katsuhiro Aoyama, Ieaki Uemura, Jun Miyake
      Pages 173-179
    2. Jens Appel, Saranya Phunpruch, Rüdiger Schulz
      Pages 189-196
    3. Claudio D. Carrasco, Joleen S. Garcia, James W. Golden
      Pages 203-207
  6. Green Algae

    1. Michael Seibert, Timothy Flynn, Dave Benson, Edwin Tracy, Maria Ghirardi
      Pages 227-234
    2. Elias Greenbaum, James W. Lee
      Pages 235-241
    3. Rüdiger Schulz, Jörg Schnackenberg, Kerstin Stangier, Röbbe Wünschiers, Thomas Zinn, Horst Senger
      Pages 243-251
    4. Jörg Schnackenberg, Wolfgang Reuter, Horst Senger
      Pages 253-263
  7. Fermentations and Mixed/Hybrid Systems

    1. Akiko Ike, Ken-ichi Yoshihara, Hiroyasu Nagase, Kazumasa Hirata, Kazuhisa Miyamoto
      Pages 265-271
    2. Vedat Sediroglu, Meral Yucel, Ufuk Gunduz, Lemi Turker, Inci Eroglu
      Pages 295-304
    3. Akiko Ike, Naohumi Toda, Tomoko Murakawa, Kazumasa Hirata, Kazuhisa Miyamoto
      Pages 311-318
  8. Photobioreactors: Photobiology

    1. Yoshiaki Ikuta, Tohru Akano, Norio Shioji, Isamu Maeda
      Pages 319-328
    2. James C. Ogbonna, Toshihiko Soejima, Hideo Tanaka
      Pages 329-343
    3. Eiju Nakada, Satoshi Nishikata, Yasuo Asada, Jun Miyake
      Pages 345-352
    4. Reda M. A. El-Shishtawy, Shozo Kawasaki, Masayoshi Morimoto
      Pages 353-358
    5. Yoji Kitajima, Reda M. A. El-Shishtawy, Yoshiyuki Ueno, Seiji Otsuka, Jun Miyake, Masayoshi Morimoto
      Pages 359-367
    6. Toshi Otsuki, Shigeru Uchiyama, Kiichi Fujiki, Sakae Fukunaga
      Pages 369-374
    7. Tatsuki Wakayama, Akio Toriyama, Tadaaki Kawasugi, Takaaki Arai, Yasuo Asada, Jun Miyake
      Pages 375-381
  9. Photobioreactors: Algae

    1. Sergei A. Markov
      Pages 383-390
    2. Mario R. Tredici, Graziella Chini Zittelli, John R. Benemann
      Pages 391-401
    3. Ronald K. Mullikin, Gregory L. Rorrer
      Pages 403-414

About this book

Introduction

The world needs clean and renewable energy and hydrogen represents an almost ideal resource. Hydrogen is the simplest and most abundant molecule in the universe, yet one that is a challenge to produce from renewable resources. Biohydrogen, or hydrogen produced from renewable resources such as water or organic wastes by biological means, is a goal worthy of increased global attention and resources. The purpose of BioHydrogen '97 was to bring together leaders in the biological p- duction of hydrogen from the United States, Japan, Europe, and elsewhere to exchange scientific and technical information and catalyze further cooperative programs. Parti- pants came from at least different countries representing academia, industry, and g- ernment. Especially important participants were young research scientists and engineers: the next generation of contributors. The conference consisted of plenary presentations, topical sessions, posters, and mini-workshop discussions on key areas of biohydrogen. It was designed to maximize - formation exchange, personal interaction among participants, and formulate new inter- tional initiatives. BioHydrogen '97 was an outgrowth of an international workshop convened by the Research Institute of Innovative Technology for the Earth (RITE) and was held in Tokyo, Japan, November 24-25, 1994. The RITE workshop was highly successful but largely l- ited to traditional biochemical and biological studies and not engineering research topics.

Keywords

algae bacteria biology molecular biology production

Editors and affiliations

  • Oskar R. Zaborsky
    • 1
  • John R. Benemann
    • 2
  • Tadashi Matsunaga
    • 3
  • Jun Miyake
    • 4
  • Anthony San Pietro
    • 5
  1. 1.University of HawaiiHonolulu
  2. 2.Walnut Creek
  3. 3.Tokyo University of Agriculture and TechnologyTokyoJapan
  4. 4.National Institute for Advanced Interdisciplinary ResearchTsukubaJapan
  5. 5.Indiana UniversityBloomington

Bibliographic information

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