Future prospects of microalgal biofuel production systems

Stephens E, Ross IL, Mussgnug JH, Wagner LD, Borowitzka MA, Posten C, Kruse O, Hankamer B (2010)
Trends in plant science 15(10): 554-564.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
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Stephens, E.; Ross, I.L.; Mussgnug, Jan H.UniBi; Wagner, L.D.; Borowitzka, M.A.; Posten, C.; Kruse, OlafUniBi ; Hankamer, B.
Abstract / Bemerkung
Climate change mitigation, economic growth and stability, and the ongoing depletion of oil reserves are all major drivers for the development of economically rational, renewable energy technology platforms. Microalgae have re-emerged as a popular feedstock for the production of biofuels and other more valuable products. Even though integrated microalgal production systems have some clear advantages and present a promising alternative to highly controversial first generation biofuel systems, the associated hype has often exceeded the boundaries of reality. With a growing number of recent analyses demonstrating that despite the hype, these systems are conceptually sound and potentially sustainable given the available inputs, we review the research areas that are key to attaining economic reality and the future development of the industry.
Trends in plant science
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Stephens E, Ross IL, Mussgnug JH, et al. Future prospects of microalgal biofuel production systems. Trends in plant science. 2010;15(10):554-564.
Stephens, E., Ross, I. L., Mussgnug, J. H., Wagner, L. D., Borowitzka, M. A., Posten, C., Kruse, O., et al. (2010). Future prospects of microalgal biofuel production systems. Trends in plant science, 15(10), 554-564. https://doi.org/10.1016/j.tplants.2010.06.003
Stephens, E., Ross, I.L., Mussgnug, Jan H., Wagner, L.D., Borowitzka, M.A., Posten, C., Kruse, Olaf, and Hankamer, B. 2010. “Future prospects of microalgal biofuel production systems”. Trends in plant science 15 (10): 554-564.
Stephens, E., Ross, I. L., Mussgnug, J. H., Wagner, L. D., Borowitzka, M. A., Posten, C., Kruse, O., and Hankamer, B. (2010). Future prospects of microalgal biofuel production systems. Trends in plant science 15, 554-564.
Stephens, E., et al., 2010. Future prospects of microalgal biofuel production systems. Trends in plant science, 15(10), p 554-564.
E. Stephens, et al., “Future prospects of microalgal biofuel production systems”, Trends in plant science, vol. 15, 2010, pp. 554-564.
Stephens, E., Ross, I.L., Mussgnug, J.H., Wagner, L.D., Borowitzka, M.A., Posten, C., Kruse, O., Hankamer, B.: Future prospects of microalgal biofuel production systems. Trends in plant science. 15, 554-564 (2010).
Stephens, E., Ross, I.L., Mussgnug, Jan H., Wagner, L.D., Borowitzka, M.A., Posten, C., Kruse, Olaf, and Hankamer, B. “Future prospects of microalgal biofuel production systems”. Trends in plant science 15.10 (2010): 554-564.

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Biofuels and biodiversity: principles for creating better policies for biofuel production.
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Furtive foes: algal viruses as potential invaders
Lawrence, ICES Journal of Marine Science 65(5), 2008
Algal allelopathy
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Growth inhibition of Monodus subterraneus by free fatty acids.
Bosma R, Miazek K, Willemsen SM, Vermue MH, Wijffels RH., Biotechnol. Bioeng. 101(5), 2008
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The technology of microalgal culturing.
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Global oil peaking: Responding to the case for ‘abundant supplies of oil’
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Solar-powered aeration and disinfection, anaerobic co-digestion, biological CO2 scrubbing and biofuel production: the energy and carbon management opportunities of waste stabilisation ponds
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Upper limits of photosynthetic productivity and problems of scaling
Grobbelaar, Journal of Applied Phycology 21(5), 2009
Radiation characteristics of Chlamydomonas reinhardtii CC125 and its truncated chlorophyll antenna transformants tla1, tlaX and tla1-CW+
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Investors temper interest in grain biofuels, focus on alternatives.
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Resources and future supply of oil
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Cryopreservation of Chlamydomonas reinhardtii: a cause of low viability at high cell density.
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Biotech's green gold?
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Food Versus Biofuels: Environmental and Economic Costs
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The story of phosphorus: Global food security and food for thought
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Forecasting coal production until 2100
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Improvement of light to biomass conversion by de-regulation of light-harvesting protein translation in Chlamydomonas reinhardtii.
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Milking Diatoms for Sustainable Energy: Biochemical Engineering versus Gasoline-Secreting Diatom Solar Panels
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Design principles of photo-bioreactors for cultivation of microalgae
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