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Microbial Catalysis for CO Sequestration: A Geobiological Approach. | LitMetric

AI Article Synopsis

  • - The increase in greenhouse gases, primarily CO2, is a major threat to the planet, causing climate tipping points that lead to biodiversity loss, global warming, and climate migration.
  • - Global efforts to reduce CO2 emissions must be combined with carbon dioxide removal (CDR) strategies, which could be accelerated using microbes to speed up natural processes and generate valuable by-products.
  • - Research on enhancing silicate weathering using the mineral olivine shows promise for effective CDR, and there is potential for large-scale applications similar to those in existing industries that utilize microbial consortia.

Article Abstract

One of the greatest threats facing the planet is the continued increase in excess greenhouse gasses, with CO being the primary driver due to its rapid increase in only a century. Excess CO is exacerbating known climate tipping points that will have cascading local and global effects including loss of biodiversity, global warming, and climate migration. However, global reduction of CO emissions is not enough. Carbon dioxide removal (CDR) will also be needed to avoid the catastrophic effects of global warming. Although the drawdown and storage of CO occur naturally via the coupling of the silicate and carbonate cycles, they operate over geological timescales (thousands of years). Here, we suggest that microbes can be used to accelerate this process, perhaps by orders of magnitude, while simultaneously producing potentially valuable by-products. This could provide both a sustainable pathway for global drawdown of CO and an environmentally benign biosynthesis of materials. We discuss several different approaches, all of which involve enhancing the rate of silicate weathering. We use the silicate mineral olivine as a case study because of its favorable weathering properties, global abundance, and growing interest in CDR applications. Extensive research is needed to determine both the upper limit of the rate of silicate dissolution and its potential to economically scale to draw down significant amounts (Mt/Gt) of CO Other industrial processes have successfully cultivated microbial consortia to provide valuable services at scale (e.g., wastewater treatment, anaerobic digestion, fermentation), and we argue that similar economies of scale could be achieved from this research.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11065169PMC
http://dx.doi.org/10.1101/cshperspect.a041673DOI Listing

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