Investigation of polysaccharide extraction efficiencies from diatom biomass using green extraction techniques Green extraction of diatom polysaccharides considering a biorefinery concept and preservation of biogenic silica.
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Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
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Sammanfattning
Diatoms, the abundant unicellular microalgae encapsulated by a silica cell wall called
frustules, have received interest as a feedstock for biomass valorization. Despite its
promising content, challenges remain regarding the down stream processing of diatoms
which suffers from long processing time and reliance on toxic solvents. This
study has explored two green extraction techniques, Ultrasound Assisted Extraction
(UAE) and Microwave Assisted Extraction (MAE), to investigate extraction yields
of polysaccharides. While polysaccharides were the extraction target, a biorefinery
approach has been considered, meaning the extraction yields of soluble proteins,
lipids and pigments, and the impact on the frustules have been tested. High pressure
homogenization (HPH) treated biomass was subjected to extractions in water,
which were performed in a 22-factorial design of experiments for both extraction
methods. The extract supernatant was used for quantification of extraction yield,
monosaccharide composition and soluble protein content. The separated pellet was
used for lipid and pigment analysis, and observed under a scanning electron microscope
(SEM) to assess the structural integrity of the cell walls. The green extraction
methods were compared with a conventional control of hot water extraction (HWE).
Overall, MAE presented a gentle physical treatment, with an increased extracellular
monosaccharide content compared to HWE. The overall extraction yields of MAE
and HWE were similar, displaying values in the range of 20-25%, where the MAE
extracts contained the highest amount of monosaccharides (12%). However, there
was no dramatic increase compared to the 9-10% content measured in UAE and
HWE, or between the different conditions. SEM imaging confirmed a marginal
impact on the frustule integrity by MAE. Moreover, pigment yield was enhanced
compared to initial biomass, whereas soluble protein yield decreased, likely due to
denaturation in elevated extraction temperatures. UAE conditions resulted in the
highest extraction yield at approximately 45%, twofold that of MAE and HWE.
Furthermore, UAE increased soluble protein yield by 85% compared with untreated
biomass and showed a content twofold that of MAE, but induced the most damage
to the frustules by fragmenting them. The disruption of cells increased the fraction
of extracellular polysaccharides, but reduced the levels of glucose, possibly due to
degradation of the polysaccharides into oligo- and monosaccharides, which should be
studied further. The performed extraction screening presents promising results, with
possibilities of method alterations and optimization for the future use of diatoms as
a biorefinery feedstock.
Beskrivning
Ämne/nyckelord
Ultrasound Assisted Extraction (UAE), Microwave Assisted Extraction (MAE), diatoms, polysaccharides, extraction, biorefinery
