Seaweed salt from Ulva: A novel first step in a cascading biorefinery model

We compared post-harvest processing of two species of Ulva (chlorophyta) using 36 washing time-by-temperature combinations. We quantified the yield of crystallized salt after evaporation of the washing water as a target product and characterized the composition of salts and processed biomass, with t...

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Bibliographic Details
Published in:Algal research (Amsterdam) 2016-06, Vol.16, p.308-316
Main Authors: Magnusson, Marie, Carl, Christina, Mata, Leonardo, de Nys, Rocky, Paul, Nicholas A.
Format: Article
Language:English
Subjects:
Animal feed
Aquaculture
Biorefinery
Chlorophyta
Sea salt
Seaweed
Ulva
Ulvan
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Summary:We compared post-harvest processing of two species of Ulva (chlorophyta) using 36 washing time-by-temperature combinations. We quantified the yield of crystallized salt after evaporation of the washing water as a target product and characterized the composition of salts and processed biomass, with the additional aim of improving the composition of the processed biomass for production of fertilizer, feed or fuel. Washing of biomass of Ulva ohnoi and Ulva tepida effectively reduced its mineral content with concomitant production of crystalline salts with Na:K ratios of 1.1–2.2 and a maximum of 19% soluble fiber (ulvan). The maximum yield of salt was 29% of the biomass for U. ohnoi and 36% for U. tepida. Salts from both species have potential for human health applications and functional foods. Washing increased the energy content of the biomass from both species by 20–50% to a maximum of 18MJkg−1 and protein contents by 11–24% to a maximum of 27.4%. The production of seaweed salt is therefore a novel first step in a cascading biorefinery model for the utilization of macroalgal biomass which simultaneously improves the quality of the processed biomass for production of fertilizer, feed or fuel. •Algal salts were produced during post-harvest processing of two species of Ulva.•Maximum salt yields were 29% of the biomass for U. ohnoi and 36% for U. tepida.•The lowest Na:K of the salts was between 1.1–2.3 for both species.•Up to 20% of soluble fiber (ulvans) were co-extracted with the salt.•Processed biomass had increased contents of protein (by 24%) and energy (by 57%).
ISSN:2211-9264
2211-9264
DOI:10.1016/j.algal.2016.03.018