Reuniting the Biogeochemistry of Algae for a Low-Carbon Circular Bioeconomy

Abstract: 

Given their advantages of high photosynthetic efficiency and non-competition with land-based crops, algae, that are carbon-hungry and sunlight-driven microbial factories, are a promising solution to resolve energy crisis, food security, and pollution problems. The ability to recycle nutrient and CO2 fixation from waste sources makes algae a valuable feedstock for biofuels, food and feeds, biochemicals, and biomaterials. Innovative technologies such as the bicarbonate-based integrated carbon capture and algae production system (BICCAPS), integrated algal bioenergy carbon capture and storage (BECCS), as well as ocean macroalgal afforestation (OMA), can be used to realize a low-carbon algal bioeconomy. We review how algae can be applied in the framework of integrated low-carbon circular bioeconomy models, focusing on sustainable biofuels, low-carbon feedstocks, carbon capture, and advances in algal biotechnology.

Author(s): 
Yoong Kit Leong
Kit Wayne Chew
Wei-Hsin Chen
Jo-Shu Chang
Pau Loke Show
Article Source: 
Trends in Plant Science, July 2021, Vol. 26, No. 7
Category: 
Ecological Services
Economics
Uses of Seaweeds: Miscellaneous