The project focuses on contributing to the development of a robust method for estimating the relative magnitude of exposures and related human effects of various endocrine disrupting chemicals (EDCs) and associated consumer products and applications.
PARC is an EU-wide research and innovation partnership programme to support EU and national chemical risk assessment and risk management bodies with new data, knowledge, methods, networks and skills to address current, emerging and novel chemical safety challenges.
SPRINT will develop a Global Health Risk Assessment Toolbox to integrate assessments of the impacts of plant protection products (PPP) on ecosystem, plant, animal and human (EPAH) health. The goal of the project is to develop methods for an integrated risk assessment at the local, regional, national and European level.
Mistra SafeChem is a research programme for green and sustainable chemical industry. This programme is funded by the Swedish Foundation for Strategic Environmental Research. The vision of the Mistra SafeChem programme is to enable and promote the expansion of a safe, sustainable and green chemical industry.
FNS-Cloud will overcome fragmentation problems by integrating existing FNS data, which is essential for high-end, pan-European FNS research, addressing FNS, diet, health, and consumer behaviours as well as on sustainable agriculture and the bio-economy.
The project's aim is to further expand the scientific consensus model USEtox to address near-field exposure for building products and plastic toys, drawing on expertise and data on Chemicals of Concern (CoC) and related alternatives from the scientific community as well as building material and toy sector supply chain information.
The objective of this project is to identify 20 case studies on how to prevent and minimize the use of selected toxic chemicals that are widely used in the Southern Mediterranean region, in support of the implementation of policies and pilot actions to prevent the use of toxic chemicals in Southern Mediterranean countries.
The overall objective of the REACH-4-USEtox project is to assess REACH registration data for use in the global scientific consensus model USEtox and apply USEtox to identify sensitive input parameters for characterizing the fate of chemical substances released to the environment and for characterizing related human and ecosystem exposures.
The main objective of the OLCA-Pest project is to build on current advances in life cycle inventory and life cycle impact assessment to operationalise and harmonize the emission quantification and impact characterization of pesticides in life cycle assessment (LCA) and product environmental footprinting.