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000020338 1001_ $$0P:(DE-HGF)0$$aFormighieri, C.$$b0
000020338 245__ $$aRegulation of the pigment optical density of an algal culture: filling the gap between photosynthetic productivity in the laboratory and in mass culture
000020338 260__ $$aAmsterdam [u.a.]$$bElsevier Science$$c2012
000020338 300__ $$a115 - 123
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000020338 440_0 $$03109$$aJournal of Biotechnology$$v162$$x0168-1656$$y1
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000020338 520__ $$aAn increasing number of investors is looking at algae as a viable source of biofuels, beside cultivation for human/animal feeding or to extract high-value chemicals and pharmaceuticals. However, present biomass productivities are far below theoretical estimations implying that a large part of the available photosynthetically active radiation is not used in photosynthesis. Light utilisation inefficiency and rapid light attenuation within a mass culture due to high pigment optical density of wild type strains have been proposed as major limiting factors reducing solar-to-biomass conversion efficiency. Analysis of growth yields of mutants with reduced light-harvesting antennae and/or reduced overall pigment concentration per cell, generated by either mutagenesis or genetic engineering, could help understanding limiting factors for biomass accumulation in photobioreactor. Meanwhile, studies on photo-acclimation can provide additional information on the average status of algal cells in a photobioreactor to be used in modelling-based predictions. Identifying limiting factors in solar-to-biomass conversion efficiency is the first step for planning strategies of genetic improvement and domestication of algae to finally fill the gap between theoretical and industrial photosynthetic productivity.
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000020338 7001_ $$0P:(DE-Juel1)VDB38860$$aBassi, R.$$b2$$uFZJ
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