Chemometrics for Environmental Omics

Development of integrated new approach methodologies in air quality studies: deciphering the implications on lung and brain toxicity

DINAMIQS project aims to shed light on the relationship between the chemical composition of air pollution and its effects on human lung and brain health. This is carried out by using an integrated strategy that combines advanced analytical chemistry methods, new approach methodologies and chemometrics. The particulate matter samples for this project are collected in contrasting outdoor ambient air, from urban traffic to rural background sites.

Funding: Ministerio de Ciencia e Innovación. Reference: PID2022-140392OB-I00

Innovative technologies and socio-ecological-economic solutions for fire resilient territories in Europe

Extreme wildfire events (EWE) are becoming a major environmental, economic and social threat in Southern Europe and increasingly gaining importance elsewhere in Europe. As the limits of fire suppression-centered strategies become evident, practitioners, researchers and policymakers increasingly recognise the need to develop novel approaches that shift emphasis to the root causes and impacts of EWE, moving towards preventive landscape and community management for greater resilience. FIRE-RES integrates existing research, technology, civil protection, policy and governance spheres related to wildfires to innovate processes, methods and tools to effectively promote the implementation of a more holistic fire management approach and support the transition towards more resilient landscapes and communities to EWE.

Grant agreement ID: 101037419
Funding: EU H2020