Description

Book Synopsis

Algae are some of the fastest growing organisms in the world, with up to 90% of their weight made up from carbohydrate, protein and oil. As well as these macromolecules, microalgae are also rich in other high-value compounds, such as vitamins, pigments, and biologically active compounds, All these compounds can be extracted for use by the cosmetics, pharmaceutical, nutraceutical, and food industries, and the algae itself can be used for feeding of livestock, in particular fish, where on-going research is dedicated to increasing the percentage of fish and shellfish feed not derived from fish meal. Microalgae are also applied to wastewater bioremediation and carbon capture from industrial flue gases, and can be used as organic fertilizer.

So far, only a few species of microalgae, including cyanobacteria, are under mass cultivation. The potential for expansion is enormous, considering the existing hundreds of thousands of species and subspecies, in which a large gene-pool offers

Table of Contents

List of Contributors vi

Acknowledgments xiii

Introduction xiv

Part 1: The Microalgal Cell with Reference to Mass Cultures 1

1 The Microalgal Cell 3
Robert A. Andersen

2 Photosynthesis in Microalgae 21
Jirý Masojýdek, Giuseppe Torzillo, and Michal Koblýzek

3 Basic Culturing and Analytical Measurement Techniques 37
Yuan-Kun Lee, Wei Chen, Hui Shen, Danxiang Han, Yantao Li, Howland D. T. Jones, Jerilyn A. Timlin,
and Qiang Hu

4 Strategies for Bioprospecting Microalgae for Potential Commercial Applications 69
William Barclay and Kirk Apt

5 Maintenance of Microalgae in Culture Collections 80
Jerry J. Brand, Robert A. Andersen, and David R. Nobles Jr.

6 Environmental Stress Physiology with Reference to Mass Cultures 90
Giuseppe Torzillo and Avigad Vonshak

7 Environmental Effects on Cell Composition 114
Qiang Hu

8 Inorganic Algal Nutrition 123
Johan U. Grobbelaar

9 Commercial Production of Microalgae via Fermentation 134
William Barclay, Kirk Apt, and X. Daniel Dong

10 Molecular Genetic Manipulation of Microalgae: Principles and Applications 146
Roshan Prakash Shrestha, Farzad Haerizadeh, and Mark Hildebrand

Part 2: Mass Cultivation and Processing of Microalgae 169

11 Biological Principles of Mass Cultivation of Photoautotrophic Microalgae 171
Amos Richmond

12 Theoretical Analysis of Culture Growth in Flat-Plate Bioreactors: The Essential Role of Timescales 205
Y. Zarmi, G. Bel, and C. Aflalo

13 Photobioreactors for Mass Production of Microalgae 225
Graziella C. Zittelli, Natascia Biondi, Liliana Rodolfi, and Mario R. Tredici

14 Downstream Processing of Cell Mass and Products 267
Emilio Molina Grima, Francisco Gabriel Aci´en Fern´andez, and Alfonso Robles Medina

15 First Principles of Techno-Economic Analysis of Algal Mass Culture 310
C. Meghan Downes and Qiang Hu

Part 3: Commercial Species of Industrial Production 327

16 Chlorella: Industrial Production of Cell Mass and Chemicals 329
Jin Liu and Qiang Hu

17 Biology and Industrial Production of Arthrospira (Spirulina) 339
Amha Belay

18 Dunaliella: Biology, Production, and Markets 359
Michael A. Borowitzka

19 Biology and Industrial Potential of Botryococcus braunii 369
Makoto M. Watanabe and Yuuhiko Tanabe

20 Biology and Commercial Aspects of Haematococcus pluvialis 388
Danxiang Han, Yantao Li, and Qiang Hu

21 Novel Sulfated Polysaccharides of Red Microalgae: Basics and Applications 406
Shoshana (Malis) Arad and Dorit van Moppes

22 Hydrogen Production by Chlamydomonas reinhardtii 417
Giuseppe Torzillo and Michael Seibert

23 Biology and Biotechnology of Edible Nostoc 433
Danxiang Han, Zhongyang Deng, Fan Lu, and Zhengyu Hu

24 IGV GmbH Experience Report, Industrial Production of Microalgae Under Controlled Conditions: Innovative Prospects 445
O. Pulz, J. Broneske, and P. Waldeck

25 Microalgae for Human and Animal Nutrition 461
E. Wolfgang Becker

26 Bioactive and Novel Chemicals from Microalgae 504
R. Cameron Coates, Emily Trentacoste, and William H. Gerwick

27 High-value Recombinant Protein Production in Microalgae 532
Daniel J. Barrera and Stephen P. Mayfield

28 Molecular and Cellular Mechanisms for Lipid Synthesis and Accumulation in Microalgae: Biotechnological Implications 545
Yantao Li, Danxiang Han, Kangsup Yoon, Shunni Zhu, Milton Sommerfeld, and Qiang Hu

29 Biofuels from Microalgae 566
Maria J. Barbosa and Rene H. Wijffels

Part 4: Water Pollution and Bioremediation by Microalgae 579

30 Eutrophication and Water Poisons 581
Susan Blackburn

31 Water Purification: Algae in Wastewater Oxidation Ponds 595
Asher Brenner and Aharon Abeliovich

32 Absorption and Adsorption of Heavy Metals by Microalgae 602
Drora Kaplan

Part 5: Microalgae for Aquaculture 613

33 Microalgae for Aquaculture: The Current Global Situation and Future Trends 615
Arnaud Muller-Feuga

34 Microalga for Aquaculture: Practical Implications 628
Oded Zmora, Dan J. Grosse, Ning Zou, and Tzachi M. Samocha

35 Transgenic Marine Microalgae: A Value-Enhanced Fishmeal and Fish Oil Replacement 653
Jonathan Gressel

36 Microalgae for Aquaculture: Nutritional Aspects 671
E. Wolfgang Becker

37 The Enhancement of Marine Productivity for Climate Stabilization and Food Security 692
Ian S.F. Jones and Daniel P. Harrison

Index 705

Handbook of Microalgal Culture

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    A Hardback by Amos Richmond, Qiang Hu

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      Publisher: John Wiley and Sons Ltd
      Publication Date: 10/05/2013
      ISBN13: 9780470673898, 978-0470673898
      ISBN10: 0470673893
      Also in:
      Microbiology (non-medical) Agriculture and farming

      Description

      Book Synopsis

      Algae are some of the fastest growing organisms in the world, with up to 90% of their weight made up from carbohydrate, protein and oil. As well as these macromolecules, microalgae are also rich in other high-value compounds, such as vitamins, pigments, and biologically active compounds, All these compounds can be extracted for use by the cosmetics, pharmaceutical, nutraceutical, and food industries, and the algae itself can be used for feeding of livestock, in particular fish, where on-going research is dedicated to increasing the percentage of fish and shellfish feed not derived from fish meal. Microalgae are also applied to wastewater bioremediation and carbon capture from industrial flue gases, and can be used as organic fertilizer.

      So far, only a few species of microalgae, including cyanobacteria, are under mass cultivation. The potential for expansion is enormous, considering the existing hundreds of thousands of species and subspecies, in which a large gene-pool offers

      Table of Contents

      List of Contributors vi

      Acknowledgments xiii

      Introduction xiv

      Part 1: The Microalgal Cell with Reference to Mass Cultures 1

      1 The Microalgal Cell 3
      Robert A. Andersen

      2 Photosynthesis in Microalgae 21
      Jirý Masojýdek, Giuseppe Torzillo, and Michal Koblýzek

      3 Basic Culturing and Analytical Measurement Techniques 37
      Yuan-Kun Lee, Wei Chen, Hui Shen, Danxiang Han, Yantao Li, Howland D. T. Jones, Jerilyn A. Timlin,
      and Qiang Hu

      4 Strategies for Bioprospecting Microalgae for Potential Commercial Applications 69
      William Barclay and Kirk Apt

      5 Maintenance of Microalgae in Culture Collections 80
      Jerry J. Brand, Robert A. Andersen, and David R. Nobles Jr.

      6 Environmental Stress Physiology with Reference to Mass Cultures 90
      Giuseppe Torzillo and Avigad Vonshak

      7 Environmental Effects on Cell Composition 114
      Qiang Hu

      8 Inorganic Algal Nutrition 123
      Johan U. Grobbelaar

      9 Commercial Production of Microalgae via Fermentation 134
      William Barclay, Kirk Apt, and X. Daniel Dong

      10 Molecular Genetic Manipulation of Microalgae: Principles and Applications 146
      Roshan Prakash Shrestha, Farzad Haerizadeh, and Mark Hildebrand

      Part 2: Mass Cultivation and Processing of Microalgae 169

      11 Biological Principles of Mass Cultivation of Photoautotrophic Microalgae 171
      Amos Richmond

      12 Theoretical Analysis of Culture Growth in Flat-Plate Bioreactors: The Essential Role of Timescales 205
      Y. Zarmi, G. Bel, and C. Aflalo

      13 Photobioreactors for Mass Production of Microalgae 225
      Graziella C. Zittelli, Natascia Biondi, Liliana Rodolfi, and Mario R. Tredici

      14 Downstream Processing of Cell Mass and Products 267
      Emilio Molina Grima, Francisco Gabriel Aci´en Fern´andez, and Alfonso Robles Medina

      15 First Principles of Techno-Economic Analysis of Algal Mass Culture 310
      C. Meghan Downes and Qiang Hu

      Part 3: Commercial Species of Industrial Production 327

      16 Chlorella: Industrial Production of Cell Mass and Chemicals 329
      Jin Liu and Qiang Hu

      17 Biology and Industrial Production of Arthrospira (Spirulina) 339
      Amha Belay

      18 Dunaliella: Biology, Production, and Markets 359
      Michael A. Borowitzka

      19 Biology and Industrial Potential of Botryococcus braunii 369
      Makoto M. Watanabe and Yuuhiko Tanabe

      20 Biology and Commercial Aspects of Haematococcus pluvialis 388
      Danxiang Han, Yantao Li, and Qiang Hu

      21 Novel Sulfated Polysaccharides of Red Microalgae: Basics and Applications 406
      Shoshana (Malis) Arad and Dorit van Moppes

      22 Hydrogen Production by Chlamydomonas reinhardtii 417
      Giuseppe Torzillo and Michael Seibert

      23 Biology and Biotechnology of Edible Nostoc 433
      Danxiang Han, Zhongyang Deng, Fan Lu, and Zhengyu Hu

      24 IGV GmbH Experience Report, Industrial Production of Microalgae Under Controlled Conditions: Innovative Prospects 445
      O. Pulz, J. Broneske, and P. Waldeck

      25 Microalgae for Human and Animal Nutrition 461
      E. Wolfgang Becker

      26 Bioactive and Novel Chemicals from Microalgae 504
      R. Cameron Coates, Emily Trentacoste, and William H. Gerwick

      27 High-value Recombinant Protein Production in Microalgae 532
      Daniel J. Barrera and Stephen P. Mayfield

      28 Molecular and Cellular Mechanisms for Lipid Synthesis and Accumulation in Microalgae: Biotechnological Implications 545
      Yantao Li, Danxiang Han, Kangsup Yoon, Shunni Zhu, Milton Sommerfeld, and Qiang Hu

      29 Biofuels from Microalgae 566
      Maria J. Barbosa and Rene H. Wijffels

      Part 4: Water Pollution and Bioremediation by Microalgae 579

      30 Eutrophication and Water Poisons 581
      Susan Blackburn

      31 Water Purification: Algae in Wastewater Oxidation Ponds 595
      Asher Brenner and Aharon Abeliovich

      32 Absorption and Adsorption of Heavy Metals by Microalgae 602
      Drora Kaplan

      Part 5: Microalgae for Aquaculture 613

      33 Microalgae for Aquaculture: The Current Global Situation and Future Trends 615
      Arnaud Muller-Feuga

      34 Microalga for Aquaculture: Practical Implications 628
      Oded Zmora, Dan J. Grosse, Ning Zou, and Tzachi M. Samocha

      35 Transgenic Marine Microalgae: A Value-Enhanced Fishmeal and Fish Oil Replacement 653
      Jonathan Gressel

      36 Microalgae for Aquaculture: Nutritional Aspects 671
      E. Wolfgang Becker

      37 The Enhancement of Marine Productivity for Climate Stabilization and Food Security 692
      Ian S.F. Jones and Daniel P. Harrison

      Index 705

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