Abstract
BackgroundThe aim of this work was to establish a process for the heterotrophic growth of green microalgae using forest biomass hydrolysates. To provide a carbon source for the growth of the green microalgae, two forest biomasses (Norway spruce and silver birch) were pretreated with a hybrid organosolv-steam explosion method, resulting in inhibitor-free pretreated solids with a high cellulose content of 77.9% w/w (birch) and 72% w/w (spruce). Pretreated solids were hydrolyzed using commercial cellulolytic enzymes to produce hydrolysate for the culture of algae.ResultsThe heterotrophic growth of A. protothecoides was assessed using synthetic medium with glucose as carbon source, where the effect of sugar concentration and the carbon-to-nitrogen ratio were optimized, resulting in accumulation of lipids at 5.42 ± 0.32 g/L (64.52 ± 0.53% lipid content) after 5 days of culture on glucose at 20 g/L. The use of birch and spruce hydrolysates was favorable for the growth and lipid accumulation of the algae, resulting in lipid production of 5.65 ± 0.21 g/L (66 ± 0.33% lipid content) and 5.28 ± 0.17 g/L (63.08 ± 0.71% lipid content) when grown on birch and spruce, respectively, after only 120 h of cultivation.ConclusionsTo the best of our knowledge, this is the first report of using organosolv pretreated wood biomass hydrolysates for the growth and lipid production of microalgae in the literature. The pretreatment process used in this study provided high saccharification of biomass without the presence of inhibitors. Moreover, the lipid profile of this microalga showed similar contents to vegetable oils which improve the biodiesel properties.
Highlights
The aim of this work was to establish a process for the heterotrophic growth of green microalgae using forest biomass hydrolysates
The use of hybrid organosolvsteam explosion method allows the efficient fractionation of biomass, resulting in three isolated fractions that can be used in various processes
To determine the effect of the initial concentration of glucose on the cell dry weight and lipid accumulation in the oleaginous microalga A. protothecoides, five different concentrations of glucose ranging from 20 to 100 g/L were included in the basal medium (BBM), which contained
Summary
The aim of this work was to establish a process for the heterotrophic growth of green microalgae using forest biomass hydrolysates. In contrast to the first-generation biofuels, non-edible lignocellulosic biomasses such as agricultural and forestry residues are used as feedstocks for the production of the second-generation biofuels [2] This type of fuel reduces the direct competition between food and fuel. This strategy has again raised an important question regarding cost-effectiveness, due to the inefficient process of conversion of biomass and the low energy efficiency [6]. It is very important to make use of all the major components of lignocellulosic biomass, namely cellulose, hemicellulose, and lignin In this scheme, the use of hybrid organosolvsteam explosion method allows the efficient fractionation of biomass, resulting in three isolated fractions that can be used in various processes
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