BIOremediation systems exploiting SYnergieS for improved removal of Mixed pOllutants

Food, Bioeconomy & Natural ResourcesHORIZON-RIAID: 101060211
EC Contribution
€48,733
Consortium Size
15 orgs
Start Year
2022
Summary

BIOSYSMO is a 48-month action that will develop a computationally-assisted framework for designing and optimizing synergistic biosystems combining the required pathways and traits to achieve the most efficient degradation and sequestration of pollutant mixtures. These biosystems will comprise combinations of bacteria, fungi and plants containing the natural or engineered pathways required for pollutants degradation and identified based on a computationally-assisted analysis. BIOSYSMO will take advantage of the high natural microbial diversity by screening samples from polluted sites and locations affected by diffuse pollution to identify natural microorganisms already present and able to metabolize the target pollutants. The search will be expanded to microorganisms previously identified and characterized by applying data mining tools to genomic and metagenomic data available in public repositories.The construction and optimization of synergistic biosystems will combine approaches based on 1) enhancing plant-microbe (bacteria, fungi) interactions to achieving combinations with improved pollutant uptake and/or degradation; 2) engineering bacteria, for improved degradation and bioaugmentation, and plants (poplar tree), for improved microbial colonization and pollutant uptake; 3) constructing artificial micro-structured consortia into aggregates and biofilms, containing all the required pathways for pollutant removal; and 4) applying bioelectrochemical systems (BES) as stand-alone or in hybrid systems. The different key players will be identified and combined to formulate innovative biosystems with the assistance of genome-scale metabolic (GEM) models for elucidating and simulating the key metabolic pathways. The constructed biosystems will be applied in conventional (phytoremediation, biopile, bioaugmentation) and innovative (BES, hybrid BES-phytoremediation) bioremediation approaches optimized for the treatment of mixtures of pollutants in soil, sediments and water.

Consortium (15)

Project Results (26)

Source: CORDIS, the EU research results database.

Publications (6)
Poplar as a woody model for the phytomanagement of trace element contaminated soils
Advances in Botanical Research· 2024DOI
Lisa Ciadamidaro, Damien Blaudez, Michel Chalot
Uranium (VI) reduction by an iron-reducing Desulfitobacterium species as single cells and in artificial multispecies bio-aggregates
Science of The Total Environment· 2024DOI
Stephan Hilpmann, Isabelle Jeschke, René Hübner, Dmitrii Deev, Maja Zugan, Tomaž Rijavec, Aleš Lapanje, Stefan Schymura, Andrea Cherkouk
Pharmaceuticals in Water: Risks to Aquatic Life and Remediation Strategies
Hydrology· 2023DOI
Aqib Hassan Ali Khan, Rocío Barros
Production of selenium nanoparticles occurs through an interconnected pathway of sulphur metabolism and oxidative stress response in Pseudomonas putida KT2440
Microbial Biotechnology· 2023DOI
Roberto Avendaño, Said Muñoz-Montero, Diego Rojas-Gätjens, Paola Fuentes-Schweizer, Sofía Vieto, Rafael Montenegro, Manuel Salvador, Rufus Frew, Juhyun Kim, Max Chavarría, Jose I. Jiménez
The potential of microorganisms as biomonitoring and bioremediation tools for mercury-contaminated soils
Ecotoxicology and Environmental Safety· 2023DOI
Lorraine Meyer, Stéphane Guyot, Michel Chalot, Nicolas Capelli
Water potential governs the effector specificity of the transcriptional regulator XylR of Pseudomonas putida
Environmental Microbiology· 2023DOI
Pavel Dvořák, Teca Calcagno Galvão, Katharina Pflüger-Grau, Alice M Banks, Víctor de Lorenzo, Jose I Jiménez
Deliverables (19)
Websites, patent fillings, videos etc.
Documents, reports
Documents, reports
Documents, reports
Websites, patent fillings, videos etc.
Other Results (1)
Periodic Reporting for period 2 - BIOSYSMO (BIOremediation systems exploiting SYnergieS for improved removal of Mixed pOllutants)