Summary
ANAEROB aims to generate a platform that enables linking of microbial ecology to biotechnology. This platform should be general and applicable to a very wide range of conditions and applications. Anaerobic processes are performed by a well-structured microbial community and have a great potential for upcycling organic wastes and industrial/agricultural residual resources to achieve circular bioeconomy. Upcycling of residual resources through production of materials, biochemicals and energy is a promising way towards a more sustainable production. Pure culture fermentations are not appropriate when wastes are the substrate and therefore mixed culture microbial consortia are required. Currently inocula for biological processes utilizing wastes as substrates are random self-established cultures. Comprehensive knowledge about the microbial interactions of the anaerobic microbiome is needed for valorization and remediation of biowastes. The overall aim of ANAEROB is to understand how to create “designer microbial consortia” for specific bioengineering processes based on genetic information of anaerobic microorganisms. The aim will be achieved by: 1. Elucidating the syntrophic mutualistic symbioses of the anaerobic microbiome, and clarifying the role of specific compounds exchanged by microbes; 2. Developing models for prediction of desired pathways; 3. Developing methods for isolation of new unculturable anaerobes; 4. Developing a novel method for designing and establishing microbial “cocktails” for specific functions and 5. Validating the concept of creating specific anaerobic consortia for upcycling gas streams of carbon-intensive industries. ANAEROB takes a multidisciplinary approach to use both engineering and microbiology to reach at the next level of understanding for exploitation of the anaerobic microbial “treasure”. The project’s successful completion will have major benefits in industrial sectors and environmental applications.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101098064 |
| Start date: | 01-01-2024 |
| End date: | 31-12-2028 |
| Total budget - Public funding: | 2 494 159,00 Euro - 2 494 159,00 Euro |
Cordis data
Original description
ANAEROB aims to generate a platform that enables linking of microbial ecology to biotechnology. This platform should be general and applicable to a very wide range of conditions and applications. Anaerobic processes are performed by a well-structured microbial community and have a great potential for upcycling organic wastes and industrial/agricultural residual resources to achieve circular bioeconomy. Upcycling of residual resources through production of materials, biochemicals and energy is a promising way towards a more sustainable production. Pure culture fermentations are not appropriate when wastes are the substrate and therefore mixed culture microbial consortia are required. Currently inocula for biological processes utilizing wastes as substrates are random self-established cultures. Comprehensive knowledge about the microbial interactions of the anaerobic microbiome is needed for valorization and remediation of biowastes. The overall aim of ANAEROB is to understand how to create “designer microbial consortia” for specific bioengineering processes based on genetic information of anaerobic microorganisms. The aim will be achieved by: 1. Elucidating the syntrophic mutualistic symbioses of the anaerobic microbiome, and clarifying the role of specific compounds exchanged by microbes; 2. Developing models for prediction of desired pathways; 3. Developing methods for isolation of new unculturable anaerobes; 4. Developing a novel method for designing and establishing microbial “cocktails” for specific functions and 5. Validating the concept of creating specific anaerobic consortia for upcycling gas streams of carbon-intensive industries. ANAEROB takes a multidisciplinary approach to use both engineering and microbiology to reach at the next level of understanding for exploitation of the anaerobic microbial “treasure”. The project’s successful completion will have major benefits in industrial sectors and environmental applications.Status
SIGNEDCall topic
ERC-2022-ADGUpdate Date
12-03-2024
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