The ALL4BIOREM Cluster (Alliance for Environmental Bioremediation) brings together 10 EU-funded bioremediation projects combining efforts to restore contaminated soils and water, by developing innovative tools and supporting stakeholders in implementing sustainable management strategies. Aligned with the European Clean Industrial Deal and the Zero Pollution Strategy, it promotes reduced contamination and more sustainable land and water use.
ALL4BIOREM Cluster Video
This video was created by the Horizon Results Booster. The ALL4BIOREM Cluster addresses soil and water contamination by offering tools, methods, and strategies for sustainable land management. By assisting stakeholders in implementing effective, risk-based approaches, the cluster supports the European Green Deal’s Zero Pollution goal, helping to reduce environmental contamination and promote responsible land use.
EU Bioremediation Cluster Video
Our video showcasing the six innovative projects that are part of the EU Bioremediation Cluster. This short video provides an insightful overview of the cutting-edge research and development being undertaken by the cluster members. Discover more about BIOSYSMO, SYMBIOREM, MIBIREM, NYMPHE, EDAPHOS, and ISLANDR, each contributing uniquely to the field of bioremediation. Learn about their goals, progress, and how they are working together to develop sustainable solutions for environmental health. Join us as we explore the exciting advancements and collaborations within the EU Bioremediation Cluster.
Check out our Cluster’s Joint Policy Brief as developed in collaboration between the Projects: BIOSYSMO, NYMPHE, MIBIREM, SYMBIOREM, ISLANDR and EDAPHOS.
Learn more about
SYMBIOREM
MIBIREM
NYMPHE
EDAPHOS
ISLANDR
LifemySoil
IASIS
pHYBi
SYMBIOREM
Topic: HORIZON-CL6-2021-ZEROPOLLUTION-01-10
GA Number: 101060361
Symbiotic, circular bioremediation systems and biotechnology solutions for improved environmental, economic and social sustainability in pollution control
Advanced mapping, risk assessment and nature-based depollution methods are combined to accelerate the recovery of contaminated soils and ensure that ecological restoration enters mainstream business
LIFE InBioSoil demonstrates the feasibility of an advanced in situ bioremediation technique for soils contaminated with Persistent Organic Pollutants (POPs)
pHYBi (Pytomanagement for a Bio-Based Textile Industry) is a CBE JU funded initiative that aims to combine the phytoremediation of polluted soils with the valorisation of lignocellulosic biomass to contribute to soil health and to a bio-based circular textile industry
A competitive and innovative technology to demonstrate the feasibility of mycoremediation to remediate all petroleum-derived organic pollutants from aged industrial contaminated soils