초록
<P>Black liquor that contains various phenolic compounds from lignin solubilization has been the main byproduct of alkaline pretreatment of lignocellulosic biomass in the biorefinery. In this study, black liquor from alkaline pretreatment of corn stover was used as a sole carbon source for the cultivation of a marine protist, <I>Thraustochytrium striatum</I>. It was found that this strain can grow on black liquor and accumulate valuable products (e.g., fatty acids and carotenoids) simultaneously. Under optimal conditions (pH = 7 and NH<SUB>4</SUB>Cl = 2 g/L), the cell mass concentration reached 5.2 g/L with total aromatics decreased from 8.18 to 3.09 g/L within 7 day incubation. Fed-batch cultivation was adopted to increase the contents of total fatty acids and carotenoids to 13% and 0.24 mg/g dry cell mass, respectively. Although various compounds such as sugars and organic acids were detected in black liquor and consumed during microbial fermentation as carbon sources, lignin-derived compounds were identified as the major substrates for <I>T. striatum</I> fermentation. Of total aromatics consumed, monomers including <I>p</I>-coumaric acid, ferulic acid, vanillin, and syringaldehyde were observed to be consumed and converted while polymeric fragments were also depolymerized and degraded. Under optimal conditions, around 50% of the total aromatics was consumed. The dynamic changes of compounds in black liquor indicated that diverse metabolic processes were involved in black liquor degradation and utilization by <I>T. striatum</I>. A strong adaptation of <I>T. striatum</I> to a wide range of pH (3-9) was also observed during black liquor fermentation.</P><P>A novel pathway for biotransformation of black liquor lignin into value-added bioproducts with marine protist, <I>Thraustochytrium striatum</I>.</P><BR>[FIG OMISSION]</BR>