Perspectives on marine phytoplankton as sources of nutrition and bioenergy

Marine Phytoplankton

Volumn , Issue , 2009, Pages 187-203

  Li, Y ^a   Qin, J G ^a   Ball, A S ^a   Moore, R B ^a  

^a FLINDERS UNIVERSITY   (Australia)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 85010197520     PISSN: None     EISSN: None     Source Type: Book    
DOI: None     Document Type: Chapter

References (79)

1. Andersen, R. A. 1996. Algae. J. C. Hunter-Cavera and A. Belt (eds). Maintaining cultures for biotechnology and industry: 29-64.
2. Banerjee, A., R. Sharma, Y. Chisti, and U. C. Banerjee. 2002. Botryococcus braunii: A renewable source of hydrocarbons and other chemicals. Critical Reviews in Biotechnology 22: 245-279.
3. Barsanti, L., and P. Gualtieri. 2006. Algae: Anatomy, Biochemistry, and Biotechnology. Pages 301. CRC / Taylor & Francis.
4. Becker, W. 2004. Microalgae in Human and Animal Nutrition. Pages 312-351. Handbook of Microalgal Culture. Blackwell, Oxford.
5. Belarbi, E.-H., G. E. Molina, and Y. Chisti. 2000. A process for high yield and scaleable recovery of high purity eicosapentaenoic acid esters from microalgae and fish oil. Enzyme and Microbial Technology 26: 516-529.
6. Ben-Amotz, A., T. G. Tornabene, and W. H. Thomas. 1985. Chemical profile of selected species of microalgae with emphasis on lipids. Journal of Phycology 21: 72-81.
7. Benemann, J. R. 1987. Microalgae Biotechnology: Products, Processes and Opportunities. OMEC International Inc., Washington DC, USA.
8. Borowitzka, M. A. 1995. Microalgae as sources of pharmaceuticals and other biologically active compounds. Journal of Applied Microbiology 7: 3-15.
9. Carte, B. K. 1996. Biomedical potential of marine natural products. Bioscience 46: 271-286.
10. Chang, T., S. Ohta, N. Ikegami, H. Miyata, T. Kashimoto, and M. Kondo. 1993. Antibiotic substances produced by a marine green alga, Dunaliella primolecta. Bioresource Technology 44: 149-153.
11. Chisti, Y. 2007. Biodiesel from microalgae. Biotechnology Advances 25: 294-306.
12. Curtain, C. 2000. The growth of Australia's alga beta-carotene industry. Australian Biotechnology 10: 19-23.
13. D'Antignana, T. 2001. Prospecting marine microalgae for antimicrobial compounds. Pages 110. Honors Thesis. Flinders University, Adelaide.
14. Davidson, B. S. 1995. New dimensions in natural products research: cultured marine microorganisms. Current Opinion in Biotechnology 6: 284-291.
15. de Mesmay, R., P. Metzger, V. Grossi, and S. Derenne. 2008. Mono- and dicyclic unsaturated triterpenoid hydrocarbons in sediments from Lake Masoko (Tanzania) widely extend the botryococcene family. Organic Geochemistry 39: 879-893.
16. de Swaaf, M. E., T. de Rijk, G. Eggink, and L. Sijtsma. 1999. Optimisation of docosahexaenoic acid production in batch cultivations by Crypthecodinium cohnii. Journal of Biotechnology 70: 185-192.
17. Falkowski, P. G. 2002. The ocean's invisible forest. Scientific American 287: 38-45.
18. Fhaolain, I. N., and S. Fitzpatrick. 1999. Marine microalgae as a source of ω3 fatty acids. S. Swan and G. Ulster (eds). Reports from State and Semi-State Agricultural, Fishery & Forestry Organisations (The Irish Scientist Year Book). Galway-Mayo Institute of Technology. http://www.irishscientist.ie/GITIF114.htm, accessed on October 24, 2008.
19. Goudarzi, S. 2006. Affect of global warming on climate change and phytoplankton. http://www.marine-phytoplankton-works.com/articles/a-marinelife-6dec2006.htm, accessed on October 24, 2008.
20. Grossi, V., P. Blokker, and J. S. Sinninghe Damsté. 2001. Anaerobic biodegradation of lipids of the marine microalga Nannochloropsis salina Organic Geochemistry 32: 795-808.
21. Guerin, M., M. E. Huntley, and M. Olaizola. 2003. Haematococcus astaxanthin: applications for human health and nutrition. Trends in Biotechnology 21: 210-216.
22. Hallmann, A. 2007. Algal transgenics and biotechnology. Transgenic Plant Journal 1: 81-98.
23. Hejazi, M. A., E. Holwerda, and R. H. Wijffels. 2004. Milking microalga Dunaliella salina for beta-carotene production in two-phase bioreactors. Biotechnology and Bioengineering 85: 475-481.
24. Hejazi, M. A., and R. Wijffels. 2004. Milking of microalgae. Trends in Biotechnology 22: 189-194.
25. Jang, E. S., M. Y. Jung, and D. B. Min. 2005. Hydrogenation for low trans and high conjugated fatty acids. Comprehensive Reviews in Food Science and Food Safety 4: 22-30.
26. Jiang, H., and K. Gao. 2004. Effects of lowering temperature during culture on the production of polyunsaturated fatty acids in the marine diatom Phaeodactylum tricornutum (Bacillariophyceae). Journal of Phycology 40: 651-654.
27. Jiang, Y., F. Chen, and S.-Z. Liang. 1999. Production potential of docosahexaenoic acid by the heterotrophic marine dinoflagelate Crypthecodinium cohnii. Process Biochemistry 34: 633-637.
28. Jones, A. K. 1987. Algal extracellular products- antimicrobial substances. L. J. Rodges and J. R. Gallon (eds). Biochemistry of the Algae and Cyanobacteria. Oxford University Press, UK, accessed.
29. Kayama, M., S. Araki, and S. Sato. 1989. Marine biogenic lipids, fats, and oils. Pages 495. Lipids and Marine Plants. CRC Press, Inc., Florida, USA.
30. Kitano, M., R. Matsukawa, and I. Karube. 1997. Changes in eicosapentaenoic acid content of Navicula saprophila, Rhodomonas salina, Nitzschia Sp. under mixotrophic conditions. Journal of Applied Phycology 9: 559-563.
31. Kittikaiwan, P., S. Powthongsook, P. Pavasant, and A. Shotipruk. 2007. Encapsulation of Haematococcus pluvialis using chitosan for astaxanthin stability enhancement Carbohydrate Polymers 70: 378-385.
32. Kruse, O., J. Rupprecht, J. H. Mussgnug, G. C. Dismukes, and B. Hankamer. 2005. Photosynthesis: a blueprint for solar energy capture and biohydrogen production technologies. Photochemical and Photobiological Sciences 4: 957-970.
33. Kulharni, M., and A. Dalai. 2006. Waste cooking oil-an economical source for biodiesel: A review. Industrial & Engineering Chemistry Research 45: 2901-2913.
34. Ladygina, N., E. G. Dedyukhina, and M. B. Vainshtein. 2006. A review on microbial synthesis of hydrocarbons. Process Biochemistry 41: 1001-1014.
35. Li, Y., and J. G. Qin. 2005. Comparison of growth and lipid content in three Botryococcus braunii strains. Journal of Applied Phycology 17: 551-556.
36. 2: Knowledge, Research and Biotechnological Challenges. Springer US.
37. Mallick, N. 2002. Biotechnological potential of immobilized algae for wastewater N, P and metal removal: A review. Biometals 15: 377-390.
38. Matsunaga, T., H. Takeyama, T. Nakao, and A. Yamazawa. 1999. Screening of marine microalgae for bioremediation of cadmium-polluted seawater Journal of Biotechnology 70: 33-38.
39. McHugh, D. J. 2003. A guide to the seaweed industry. FAO Fisheries Technical Papers 441: 1-105.
40. Melis, A., L. Zhang, M. Forestier, M. L. Ghirardi, and M. Seibert. 2000. Sustained photobiological hydrogen gas production upon reversible inactivation of oxygen evolution in the green alga Chlamydomonas reinhardtii. Plant Physiology 122: 127-136.
41. Melis, A., and T. Happe. 2001. Hydrogen production: green algae as a source of energy. Plant Physiology 127: 740-748.
42. Melis, A. 2002. Green alga hydrogen production: progress, challenges and prospects. International Journal of Hydrogen Energy 27: 1217-1228.
43. Metting, B., and J. W. Pyne. 1986. Biologically active compounds from microalgae. Enzyme Microbial Technology 8: 386-394.
44. Metting, F. 1996. Biodiversity and application of microalgae. Journal of industrial microbiology 17: 477-489.
45. Metzger, P., and E. Casadevall. 1991. Botryococcoid ethers, ether lipids from Botryococcus braunii. Phytochemistry 30: 1439-1444.
46. Metzger, P., and C. Largeau. 2005. Botryococcus braunii: a rich source for hydrocarbons and related ether lipids. Applied Microbiology and Biotechnology 66: 486-496.
47. Molina, G. E. 1999. Microalgae, mass culture methods. M. C. Flickinger and S. W. Drew (eds). Encyclopedia of Bioprocess Technology: Fermentation, Biocatalysis and Bioseparation 3: 1753-1769.
48. Muller-Feuga, A. 2004. Microalgae for aquaculture. Pages 352-364. The Current Global Situation and Future Trends (Handbook of Microalgal Culture). Blackwell, Oxford.
49. Munoz, R., and B. Guieysse. 2006. Algal-bacterial processes for the treatment of hazardous contaminants: a review. Water Research 40: 2799-2815.
50. Nagai, H., M. Satake, and T. Yasumoto. 1990. Antimicrobial activities of polyether compounds of dinoflagellate origins. Journal of Applied Phycology 2: 305-308.
51. Nevenzel, J. C. 1989. Marine Biogenic Lipids, Fats, and Oils. R. G. Ackman (eds). Marine Lipid Classes 1: 462.
52. Nowak, R. 2008. Bring on the second generation of biofuels. New Scientist 197: 12.
53. Ohta, S., T. Chang, N. Ikegami, M. Hondo, and S. Miyachi. 1993. Antibiotic substance produced by a newly isolated marine microalga, Chlorococcum HS-101 Bulletin of Environmental Contamination and Toxicology 50: 171-179.
54. Park, D. H., H. W. Ruy, K. Y. Lee, C. H. Kang, T. H. Kim, and H. Y. Lee. 1998. The production of hydrocarbons from photoautotrophic growth of Dunaliella salina 1650. Applied Biochemistry and Biotechnology 70-72: 739-746.
55. Patil, V., K.-Q. Tran, and H. R. Giselrød. 2008. Towards sustainable production of biofuels from microalgae. International Journal of Molecular Sciences 9: 1188-1195.
56. Pimentel, D., and M. Pimentel. 2008. Food, Energy and Society. Pages 380. CRC Press Inc.
57. Prince, R. C., and H. S. Kheshgi. 2005. The photobiological production of hydrogen: potential efficiency and effectiveness as a renewable fuel. Critical Reviews in Microbiology 31: 19-31.
58. Pulz, O., and W. Gross. 2004. Valuable products from biotechnology of microalgae. Applied Microbiology and Biotechnology 65: 635-648.
59. Qin, J. G., and Y. Li. 2006. Optimization of the growth environment of Botryococcus braunii strain CHN 357. Journal of Freshwater Ecology 21: 169-176.
60. Qin, J. G. 2008. Larval fish nutrition and rearing technology: state of the art and future. Pages 113-148. Aquaculture Research Trends. Nova Science Publishers, New York, USA.
61. Rafael, V. D., and O. A. V. Bertha. 1991. Haloadaptation of the green alga Botyococcus braunii (Race A). Phytochemistry 30: 2919-2925.
62. Ratledge, C. 2004. Fatty acid biosynthesis in microorganisms being used for single cell oil production. Biochimie 86: 807-815.
63. Raven, R. J. M., and K. H. Gregersen. 2007. Biogas plants in Denmark: successes and setbacks. Renewable and Sustainable Energy Reviews 11: 116-132.
64. Rezanka, T., J. Zahradník, and M. Podojil. 1982. Hydrocarbons in green and blue-green algae Folia Microbiologica 27: 450-454.
65. Roessler, P. G., L. M. Brown, T. G. Dunahay, D. A. Heacox, E. E. Jarvis. 1994. Genetic-engineering approaches for enhanced production of biodiesel fuel from microalgae. ACS Symposium Series 566: 255-270.
66. 2 fixation and oil production through microalga. Energy Conversion & Management 36: 729-931.
67. Servel, M.-O., C. Claire, A. Derrien, L. Coiffard, and Y. De Roeck-Holtzhauer. 1994. Fatty acid composition of some marine microalgae. Phytochemistry 36: 691-693.
68. Sheehan, J., T. Dunahay, J. Benemann, and P. Roessler. 1998. A Look Back at the U.S. Department of Energy's Aquatic Species Program: Biodiesel from Algae. Pages 328. National Renewable Energy Laboratory.
69. Solix-Biofuels. 2008. Why Algae? http://www.solixbiofuels.com/html /why_algae.html, accessed on October 24, 2008.
70. Spolaore, P., C. Joannis-Cassan, E. Duran, and A. Isambert. 2006. Commercial applications of microalgae. Journal of Bioscience and Bioengineering 101: 87-96.
71. Stolz, P., and B. Obermayer. 2005. Manufacturing microalgae for skin care. Cosmetics Toiletries 120: 99-106.
72. Tonon, T., D. Harvey, T. R. Larson, and I. A. Graham. 2002. Long chain polyunsaturated fatty acid production and partitioning to triacylglycerols in four microalgae. Phytochemistry 61: 15-24.
73. Vaishamapayan, A., R. P. Sinha, D. P. Hader, T. Dey, A. K. Gupta, and U. Bhan. 2001. Cyanobacterial biofertilizers in rice agriculture. The Botanical Review 67: 453-516.
74. Volkman, J. K., M. R. Brown, G. A. Dunstan, and S. W. Jeffrey. 2008. The biochemical composition of marine microalgae from the class Eustigmatophyceae. Journal of Phycology 29: 69-78.
75. Walker, T. L., C. Collet, and S. Purton. 2005. Algal transgenics in the genome era. Journal of Phycology 41: 1077-1093.
76. Wang, J.-K. 1999. Antibacterially active extracts from the marine algae Chatoceros and methods of use. Aquaculture Technology Incorporated, Honolulu, Hawaii.
77. Yoshihara, K., H. Nagase, K. Eguchi, K. Hirata, and K. Miyamoto. 1996. Biological elimination of nitric oxide and carbon dioxide from flue gas by marine microalga NOA-113 cultivated in a long tubular photobioreactor. Journal of Fermentation and Bioengineering 82: 351-354.
78. Zhang, L., T. Happe, and A. Melis. 2002. Biochemical and morphological characterization of sulfur-deprived and H2-producing Chlamydomonas reinhardtii (green alga). Planta 214: 552-561.
79. Zhukova, N. V., and N. A. Aizdaicher. 1995. Fatty acid composition of 15 species of marine microalgae. Phytochemistry 39: 351-356.